updated esia report for malagarasi stage iii hpp

TANZANIA ELECTRIC SUPPLY COMPANY LIMITED UPDATED ENVIRONMENTAL IMPACT ASSESSMENT REPORT FOR THE PROPOSED MALAGARASI STAGE III 44.8MW HYDROPOWER PLANT AT IGAMBA FALLS ON THE MALAGARASI RIVER IN IGAMBA SUB-VILLAGE, MAZUNGWE VILLAGE, KAZURAMIMBA WARD, UVINZA DISTRICT IN KIGOMA REGION Consultant: KNK Environmental Consult LTD. P.O Box 18159, St. Nicolous Church Premises Arusha Street, Ilala Municipal. Tabora. Tanzania Mob: +255 0758 847 426 E – mail: e.paul46@yahoo.com Submitted to: National Environment Management Council (NEMC) Regent Estate Plot 29 and 30 Mikocheni Area, P.O. Box 63154, Tabora, Tanzania, Tel: +255 (022)2774889 E-mail: dg@nemc.or.tz September 2017 0 SIGNED DECLARATION OF EXPERT I hereby certify that the particulars given to this EIA report are correct and true to the best of my knowledge and I shall provide any additional information that shall come to my notice in the course of the processing of this EIA report. # Name Responsibility 1 Mr. Edward P. Kiringo Registered EIA Expert (Environmental Engineer) i Signature - Contents SIGNED DECLARATION OF EXPERT ................................................................................................ i LIST OF TABLES ......................................................................................................................... xiii LIST OF FIGURES ....................................................................................................................... xiv ACRONIMY AND ABRIVIATION................................................................................................... xv AKNOWLEDGEMENT ............................................................................................................... xvii EXECUTIVE SUMMARY ........................................................................................................... xviii CHAPTER ONE: INTRODUCTION...................................................................................................1 1.2 Purpose, Requirements and Process .............................................................................1 1.3 Outline of the Malagarasi Hydropower Project, Project Background and Rationale.......2 1.4 ESIA Background and History ........................................................................................3 1.5 Report Structure ...........................................................................................................5 1.6 Methodology ................................................................................................................6 1.6.1 Sources of Information...........................................................................................6 1.6.2 Environmental and Social Assessment Methodology..............................................6 CHAPTER TWO: PROJECT DESCRIPTION .......................................................................................8 2.1 Infrastructure Description of the Stage III Option ........................................................11 2.1.1 Reservoir .................................................................................................................12 2.1.2 Dam.........................................................................................................................13 2.1.3 Compensation Water Release Mechanism and Culvert ............................................14 2.1.4 Power Intake ...........................................................................................................15 2.1.5 Sediment flushing gates...........................................................................................15 2.1.6 Headrace Culvert, Surge Tank and Penstock .................................................................16 2.1.7 Power station and Tailrace ...........................................................................................16 2.1.8 Electrical Works ............................................................................................................16 2.1.9 12 kV lines to the Intake Area and office and residential areas .....................................17 2.1.10 Permanent Rock Deposit ......................................................................................17 2.2 Power and Energy Production .................................................................................18 2.2.1 Hydrological Inflow Data and Water Usage ...............................................................18 2.2.3 Resulting Power and Energy .................................................................................19 ii 2.3 Access Road and Supporting Infrastructure Description ..............................................20 2.3.1 Road Design and Key Construction Elements .......................................................20 2.3.2 Access Road within the Stage III footprint .................................................................22 2.3.3 Bridge .......................................................................................................................22 2.3.4 Plant Roads ..........................................................................................................25 2.3.5 Office and Residential Houses ..............................................................................25 2.3.6: Lighting and small power in the office and residential area ..................................25 2.4 Construction of Malagarasi HPP ..................................................................................25 2.4.1 Schedule of Activities ...........................................................................................25 2.4.2 Camps and Construction Facilities ........................................................................25 2.4.3 Contractor’s Other Technical Facilities .................................................................26 2.4.4 Temporary Roads .................................................................................................27 2.4.6 Description of Dam Construction .........................................................................27 2.4.7: Materials for HPP Construction ............................................................................28 2.4.8 Source of Materials ..............................................................................................29 2.5 Malagarasi HPP Operational Mode .............................................................................30 2.6 Description of the Impact Zones..................................................................................31 2.6.1 Direct Impact Zone (DIZ) ......................................................................................31 2.6.2 Secondary Impact Zone (SIZ) ................................................................................34 CHAPTER THREE: POLICY, ADMINISTRATIVE and LEGAL FRAMEWORK ......................................35 3.1 National Policy ............................................................................................................35 3.1.1 National Environmental Policy, 1997 ....................................................................35 3.1.2 National Water Policy, 2002 (revised in 2009) ......................................................36 3.1.3 National Policy on HIV/AIDS, (2001) .....................................................................37 3.1.4 National Human Settlement Development Policy, (2000) .....................................38 3.1.5 National Land Policy (1995) ..................................................................................39 3.1.6 National Forest Policy, 1998 .................................................................................39 3.1.7 Wildlife and Wetland Policy of Tanzania, 2007 .....................................................40 3.1.8 The Agriculture and Livestock Policy (1997) .........................................................40 iii 3.1.9 Antiquities Policy of 2008 .....................................................................................40 3.1.10 Land Acquisition and Resettlement Policy ............................................................40 3.1.11 National Energy Policy (URT 2015) ....................................................................41 3.1.12 Fisheries Policy, 1997 .......................................................................................41 3.1.13 National Investment Policy, 1996 ............................................................................41 3.1.14 National Employment Policy, 1997 ...................................................................42 3.1.15 National Transport Policy, 2003 ........................................................................42 3.1.16 National Mining Policy, 2009 ............................................................................42 3.2 National Development Strategies ................................................................................43 3.2.1 Tanzania Development Vision 2025 .....................................................................43 3.2.2 National Strategy for Growth and Reduction of Poverty II (2010) .........................43 3.2.3 Tanzania Industrialization Initiatives ....................................................................44 3.2.4 Rural Development Strategy (2001) .....................................................................44 3.3 Principal legislations and Regulations ..........................................................................44 3.3.1 The Constitution of the United Republic of Tanzania of 1977 ...............................44 3.3.2 Environmental Management Act (2004) (or CAP 191) ..........................................45 3.3.3 National Regulations ............................................................................................46 3.3.3.1 The Environmental Impact Assessment and Audit Regulations (2005) ..............46 3.3.3.2 The Environmental management (solid waste management) regulations, 2009 47 3.3.3.3 2009 The Environmental management (hazardous waste management) regulations, 48 3.3.3.4 The Land (Assessment of the Value of Land for Compensation) Regulations, 2001 48 3.3.4 The Land Acquisition Act, Cap 118 .......................................................................48 3.3.5 The Land Act, 1999 (Act No. 4/1999) ....................................................................49 3.3.6 The Village Land Act, 1999 (Act No.5/1999) .........................................................51 3.3.7 The Land Regulation (2001) .................................................................................51 3.3.8 The Land Disputes Courts Act No. 2 of 2002 .........................................................52 3.3.9 Electricity Act, 2008 (Act No.10/2008) .................................................................53 iv 3.3.10 Rural Energy Act, 2005 .........................................................................................53 3.3.11 Forest Act (2002) .................................................................................................53 3.3.12 Wildlife conservation Act no 5 of 2009 .................................................................54 3.3.13 Water Resources Management Act, 2009 ............................................................55 3.3.14 Legal Provisions on Pollution ................................................................................55 3.3.15 Occupational Health and Safety Act (2003) ..........................................................56 3.3.16 Disclosure Requirements .....................................................................................57 3.3.17 HIV and AIDS (Prevention and Control) Act, 2008 .................................................57 3.3.18 Land Use Planning Act, 2007 (Act No.6/2007) ......................................................57 3.3.19 Urban Planning Act, 2007 (Act No. 8/2007) .........................................................58 3.3.20 Water Supply and Sanitation Act, (No. 12), 2009 ..................................................58 3.3.21 Employment and Labour Relation Act, 2004 ........................................................59 3.3.22 Workers Compensation Act, 2008 ........................................................................59 3.3.23 Road Act of 2007 .................................................................................................59 3.3.24 Local Government (Urban Authority) Act (1982) ..................................................60 3.3.24 Industrial and Consumer Chemicals (Management and Control) Act, 2003 ..........61 3.3.25 Mining Act, 2010 ..................................................................................................61 3.3.26 Energy and Water Utilities Regulatory Authority Cap 414, (2001) ........................62 3.3.27 The Engineers Registration Act, No 15 of 1997 and Engineers Registration (amendment in 2007) .......................................................................................................62 3.3.28 Public Health Act, No. 1 of 2009 ...........................................................................62 3.3.29 Environmental Management (Fees and Charges) Regulations, 2008 ....................63 3.3.30 Graves Removal Act, Cap 73 .................................................................................63 3.3.31 Fire and Rescue Act, Cap 427 ...............................................................................63 3.3.32 Explosives Act, 1963 .............................................................................................64 3.4 International Agreements and Conventions ................................................................64 3.4.1 World Heritage Convention 1972 .........................................................................65 3.4.2 United Nations Framework Convention on Climate Change (UNFCCC) 1992 ........65 3.4.3 Kyoto Protocol on the reduction of Greenhouse Gas Emissions, 2003 ..................65 3.4.4 Basel Convention on Trans‐boundary Movement of Hazardous Wastes, 1989 .....65 v 3.4.5 Convention on Biological Diversity, Rio de Janeiro, 1992 ......................................65 3.4.6 Convention on Wetlands, of 1971 in Ramsar, Iran ................................................66 3.4.7 United Nations Convention on International Trade in Endangered Species of Wild Fauna and Flora, 1974. .....................................................................................................67 3.4.8 International Labour Conventions ........................................................................67 3.4.9 ILO Conventions on Occupational Safety and Health ............................................67 3.5 International project Funders Policies, Procedures and Guidelines .............................68 3.5.1 African Development Bank (AfDB) Environmental and Social Operational Safeguards ..........................................................................................................................................68 3.6 World Bank Safeguard Policies ....................................................................................71 3.6.1 OP 4.01 Environmental Assessment .....................................................................72 3.6.2 OP 4.04 Natural Habitats ......................................................................................73 3.6.3 OP 4.36 Forests ....................................................................................................73 3.6.4 OP. 4.12 Involuntary Resettlement ......................................................................74 3.6.5 OP/BP 4.10 Indigenous Peoples ...........................................................................75 3.6.6 OP/BP 4.11 Physical Cultural Resources ...............................................................75 3.6.7 BP 17.50 Public disclosures ..................................................................................76 3.7 Pollution prevention and Abatement Handbook Guidelines ........................................76 3.8 Climate Change ...........................................................................................................77 3.9 Institutional Framework: Actors in Environment .........................................................77 3.9.1 National Environmental Advisory Committee.......................................................77 3.9.2 The Minister of Environment ...............................................................................78 3.9.3 Director of Environment (VPO) ............................................................................78 3.9.4 The National Environment Management Council (NEMC) ....................................78 3.9.5 Sector Ministries ..................................................................................................79 3.9.6 Energy Sector .......................................................................................................80 CHAPTER FOUR: ENVIRONMENTAL AND SOCIAL BASELINE........................................................81 4.1 Physical Environmental Characteristics .......................................................................81 4.1.1 Geographical location ..........................................................................................81 4.1.2 Administrative structure ......................................................................................81 vi 4.1.3 Weather and climatic conditions. .........................................................................81 4.1.3.1 4.2 Malagarasi River and Catchment ......................................................................81 Agro-Ecological zones .................................................................................................83 4.2.1 Lake Shore Zone ...................................................................................................83 4.2.2 Miombo Woodland ..............................................................................................84 4.2.3 Intermediate Zone ...............................................................................................84 4.2.4 Southern Highland ...............................................................................................84 4.3 Hydrology ...................................................................................................................85 4.3.1 Run – off ..............................................................................................................85 4.3.2 Annual Discharge .................................................................................................85 4.4 Water quality ..............................................................................................................85 4.5 Air Quality, Noise, Dust and Vibration at Proposed project areas. ...............................86 4.5.1 Measurement of Baseline Sound and Vibration Data for Malagarasi stage III HPP 86 4.5.1.1 Noise level ........................................................................................................86 4.5.1.2 Vibration Levels Measurements .......................................................................88 4.6 Geology and Soil .........................................................................................................89 4.6.1 Geology ...............................................................................................................89 4.6.2 Soil .......................................................................................................................91 4.7 Land Cover and Use .................................................................................................93 4.7.1 4.8 Land Cover and Use at Igamba Falls Stage III and the Direct Impact Zone ............93 Biological baseline.......................................................................................................93 4.8.1 4.8.2.1 4.8.2 Flora ....................................................................................................................93 Vegetation and Habitats along the Access Road ...............................................96 Fauna ...................................................................................................................97 4.8.2.1 Aquatic Macro invertebrates and Fish ..............................................................97 4.8.2.2 Terrestrial invertebrates ...................................................................................98 4.8.8.3 Amphibians, Reptiles and Small mammals ........................................................99 4.8.8.4 Birds ............................................................................................................... 100 4.8.8.5 Large Mammals .............................................................................................. 100 vii 4.9 Social economic status .............................................................................................. 101 4.9.1 Social Services .................................................................................................... 101 4.9.2 Economic activities ............................................................................................ 103 CHAPTER FIVE: STAKEHOLDERS IDENTIFICATION AND CONSULTATION ...................................104 5.2. Consultation Meetings with Regional and District Authorities ...................................105 5.3 Methodologies applied during public and stakeholders consultations ....................... 105 5.3.1 Notification to Stakeholders............................................................................... 105 5.3.2 Household Questionnaire .................................................................................. 106 5.3.3 Village Public Meetings ...................................................................................... 106 5.3.4 Official Meetings with Village Leaders ................................................................ 108 5.3.5 Meetings with District Officials .......................................................................... 108 5.4 Consultations with Other Relevant Stakeholders....................................................... 108 5.4.1 Focus Group Discussion ..................................................................................... 109 5.6 Summary of Identified Issues of Concerns .................................................................109 5.7 General Response to the Raised Concerns ................................................................ 120 CHAPTER SIX: ASSESSMENT OF IMPACTS AND IDENTIFICATION OF ALTERNATIVES ................. 121 6.1 Project Boundaries .................................................................................................... 121 6.1.1 Institutional boundaries .......................................................................................... 121 6.1.2 Impacts Spatial boundary ....................................................................................... 121 7.1.3 Impacts temporal boundaries ................................................................................. 122 7.2 Possible Impacts Identification .................................................................................. 122 7.2.1 7.3 Methodology Used to Assess the Significance of Impacts...................................122 Positive Impact during Construction and Operation phase ........................................ 125 7.3.1 Employment Opportunities ................................................................................ 125 7.3.2 Positive Social impacts ............................................................................................ 125 7.3.3 Positive Economic Impact ....................................................................................... 125 7.4 Negative Impacts during Construction, Operation and Decommission Phase......... 126 7.4.1 Impact on Climate .............................................................................................. 126 7.4.2 Soil Erosion and pollution................................................................................... 127 viii Project phase and link to activities/infrastructure ........................................................... 127 7.4.3 Loss of biodiversity ............................................................................................ 128 7.4.3.1 Reduction in the population of limited range endemic species ....................... 128 7.4.3.2 Reduction of fish population .......................................................................... 129 7.4.3.3 Loss of Terrestrial Wildlife .............................................................................. 130 7.4.3.4 Vegetation and Habitat Degradation .............................................................. 131 7.4.3.5 Impact on Protected Areas and Tourism ......................................................... 132 7.4.4 Decline in Surface Water Quality ........................................................................ 134 7.4.4.1 Water Quality and Sedimentation of the Ponding Dam ..................................134 7.4.4.2 Fluctuations in river flows immediately downstream of the dam wall ............ 135 7.4.4.3 Fluctuations in river flow downstream of the DIZ ........................................... 136 7.4.5 Noise and Vibration ........................................................................................... 138 7.4.6 Deterioration of Landscape Aesthetic Value ....................................................... 138 7.4.7 Social and culture impact of the proposed project ............................................. 139 7.4.7.1 Potential loss of Archaeological and Cultural Heritage Sites............................ 139 7.4.7.2 Increased threat to Safety, Health and Mobility due to road traffic ................ 140 7.4.7.3 Affected People, and Loss of Assets and Natural Resources ............................ 141 7.4.8 Impacts related to the downstream users due to operation of HPP ................... 141 7.4.8.1 The impact of HPP on river flow ..................................................................... 141 7.4.8.2 Impacts Downstream of the DIZ ..................................................................... 142 7.5 Cumulative impact .................................................................................................... 142 7.5.1 Likely Socio-Economic Developments within the River basin .................................142 7.5.2 7.6 Predicted Cumulative Impacts............................................................................ 143 Mitigation measures .................................................................................................147 7.6.1 Mitigations for Biophysical Impacts ....................................................................... 147 7.6.1.1 Climate and Greenhouse Gas Emissions ......................................................... 147 7.6.1.2 Soils Erosion ...................................................................................................147 7.6.2 7.6.2.1 Biodiversity ........................................................................................................ 148 Loss of habitat of limited range endemic species ............................................ 148 ix 7.6.2.2 Loss of fish migration...................................................................................... 152 7.6.2.3 Loss of Terrestrial Wildlife .............................................................................. 152 7.6.2.4 Loss of Vegetation and Habitat ....................................................................... 152 7.6.2.5 Disturbance of Protected Areas and Tourism.................................................. 153 7.6.3 Surface Water .................................................................................................... 154 7.6.3.1 Water Quality and Sedimentation of the Ponding Dam ..................................154 7.6.3.2 Fluctuations in river flows immediately downstream of the dam wall ............ 155 7.6.3.3 Fluctuations in river flow downstream of the DIZ ........................................... 155 7.6.3.4 Generating Noise and Vibration...................................................................... 156 7.6.3.5 Disturbing Visual and Landscape .................................................................... 156 7.7 Mitigation of Socio-Economic and Cultural Impacts .................................................. 156 7.7.1 Destruction of Archaeological Sites and Cultural Heritage ..................................156 7.7.2 Public Health and Sanitation .............................................................................. 157 7.7.3 Road Safety, Health and Mobility ....................................................................... 157 7.7.4 Affected People, and Loss of Assets and Natural Resources ............................... 158 7.7.5 Employment (Benefit Enhancement) .................................................................159 7.8 Details of the Social Mitigation Plans Recommended ................................................ 159 7.8.1 Cultural Heritage Plan ........................................................................................ 160 7.8.2 Public Health and Sanitation Support Plan ......................................................... 161 7.8.3 Traffic, Road and Construction Plan ...................................................................162 7.8.4 Social Development Plan (SDP) .......................................................................... 164 7.8.5 Resettlement Action Plan ................................................................................... 165 7.8.6 Public Communication and Disclosure Plan ........................................................ 166 7.9 PROJECT ALTERNATIVES ............................................................................................ 168 7.9.1 No (Without) Project Alternative ....................................................................... 168 7.9.2 Alternative Energy Supply from Thermal Power Plant (TPP) ............................... 169 7.9.3 Alternative Energy Supply from Wind Energy ..................................................... 169 7.9.4 Alternative Energy Supply from the National Grid .............................................. 170 7.9.5 Alternative Hydropower Plant Locations ............................................................ 171 x 7.9.6 Alternative Locations of the Hydropower Scheme within the Igamba Falls Area of the Malagarasi River ....................................................................................................... 172 7.9.7 Technical Design Alternatives............................................................................. 173 CHAPTER EIGHT: ENVIRONMENTAL AND SOCIAL MANAGEMENT PLAN...................................175 8.2 Implementation Arrangement of the ESMP............................................................... 175 8.3 ESMP Implementation Framework ............................................................................ 175 8.3.1 8.4 Oversight Body, Integrated Water Resource Management and the Malagarasi HPP 177 Cost estimates for ESMP ........................................................................................... 178 CHAPTER NINE: ENVORONMENTAL AND SOCIAL MONITORING PLAN ..................................... 191 9.1 Monitoring at Three Levels ....................................................................................... 191 9.2 Monitoring Indicators ............................................................................................... 191 9.3 Monitoring Scheduling and Reporting ....................................................................... 191 9.4 Costs Related to Monitoring...................................................................................... 192 CHAPTER TEN: COST BENEFIT ANALTYSIS ................................................................................ 206 10.1 Real Costs .............................................................................................................. 206 10.1.1 Construction Costs ................................................................................................ 206 10.1.2 Operation and Management Costs ....................................................................... 206 10.1.3 Resettlement Costs ............................................................................................... 206 10.2 Negative Externalities ............................................................................................ 206 10.2.1 Social Impact of HIV/AIDS ..................................................................................... 206 10.2.2 Loss in Bio-Diversity .............................................................................................. 207 10.3 Real Benefits ......................................................................................................... 207 10.3.1 Hydroelectric Power ............................................................................................. 207 10.3.2 Employment Generated from Construction .......................................................... 207 10.3.4 Fishery .................................................................................................................. 207 10.4 Positive externalities ............................................................................................. 207 10.4.1 Benefit from the 27 km access road ...................................................................... 207 10.4.2 Displaced Greenhouse Emissions .......................................................................... 208 10.5 Additional Assumptions Made ............................................................................... 208 xi 11.6 Concluding Remarks .............................................................................................. 208 CHAPTER ELEVEN: DECCOMMISIONING .................................................................................. 211 11.1 Introduction .......................................................................................................... 211 11.2 Decommissioning of the Construction Phase ......................................................... 211 11.3 Decommissioning of the Project Hydropower Facilities ......................................... 211 11.3.1 Establishment of Decommissioning Objectives and Preparation for Decommissioning: ........................................................................................................... 211 11.3.2 Decommissioning Costs and Engineering .............................................................. 212 11.3.2.1 Inventory of Components .................................................................................. 212 11.3.3 Social Plan............................................................................................................. 213 12.3.4 Environmental Plan to include the site clearing activities and rehabilitation activities ........................................................................................................................................ 213 12.3.5 Funding ................................................................................................................. 213 CHAPTER TWELVE: CONCLUSION ............................................................................................ 214 12.1 Summary and Conclusion ...................................................................................... 214 12.2 Priority Issues ........................................................................................................ 214 12.3 Pending Project Definition, Studies, and Analyses ................................................. 217 12.4 Conclusions ........................................................................................................... 219 APPENDICES ............................................................................................................................ 226 APPENDIX I: LIST OF CONSULTED STAKEHOLDERS ...................................................................226 Appendix II: Up and Down stream water analysis result for Malagarasi Stage III HPP Project ..230 Appendix III: Layout of the proposed development and effect on river flows .......................... 232 xii LIST OF TABLES Table 1: Resulting Power and Energy .........................................................................................19 Table 2: Quantities of materials required for road construction ................................................22 Table 3: Facilities assumed for the Access Road and the Power Plant ........................................25 Table 4: Estimated quantities of material required for Malagarasi HPP .....................................28 Table 5: Weekly material consumption will roughly ..................................................................29 Table 6: Potential borrow areas along the proposed access road ..............................................30 Table 7: Summary of AfDB Safeguard Policies pertaining to the proposed project ....................68 Table 8: Tabulated Noise Level Measurement Results ...............................................................87 Table 9: Tabulated Noise Level Standards .................................................................................87 Table 10: Tabulated Noise Level Measurement Results .............................................................88 Table 11: Vibration Standards (Whole body vibration) ..............................................................89 Table 12: Sampling sites ............................................................................................................98 Table 13: Butterflies and moths collected from the Malagarasi III Hydro-Power Project area. ...98 Table 14: Stakeholders’ views, concerns, perception on the project and responses ................ 110 Table 15: Assessment criteria for evaluation of impacts .......................................................... 123 Table 16: Cumulative Impacts Assessment .............................................................................. 144 Table 17: Social Mitigation Plans ............................................................................................. 160 Table 18: Roles and responsibilities for projects implementation ............................................ 176 Table 19: Environmental and Social Management Plan (ESMP) for the proposed Construction of Malagarasi Stage III HPP project .............................................................................................. 179 Table 20: Environmental Monitoring Plan ............................................................................... 193 xiii LIST OF FIGURES Figure 1: Location of the project area ..........................................................................................3 Figure 2: Igamba stages I, II and III...............................................................................................9 Figure 3: General layout of Malagarasi stage III Hydroelectric Power Plant. ..............................12 Figure 4: Malagarasi Reservoir ..................................................................................................13 Figure 5: Compensation water release system ..........................................................................15 Figure 6: Curve showing the water usage. .................................................................................18 Figure 7: Duration Curve in the low flow portion. ......................................................................19 Figure 8: Monthly Energy Production. .......................................................................................20 Figure 9: Proposed access road to Malagarasi HPP site .............................................................21 Figure 10: Kabuchweri Bridge (Source: ESBI Feasibility Study) ...................................................23 Figure 11: Kabuchweri River Bridge within the Stage III development area ...............................24 Figure 12: Hydropower Site Direct Impact Zone (Source: ESBI Feasibility Study)........................32 Figure 13: Infrastructure Connection Direct Impact Zone follows the existing road alignment between the Stage III site and the Uvinza – Kigoma main road ..................................................33 Figure 14: Malagarasi Hydro Plant Environmental Study Stage III Impact Zones ........................34 Figure 15: Malagarasi catchment, to the proposed hydro-plant scheme, showing location of swamps .....................................................................................................................................83 Figure 16: Water samples analysis result ...................................................................................86 Figure 17: Porous and fractured river bed at the Main Igamba Falls ..........................................90 Figure 18: Characteristic potholes found in sandstones within the project area ........................91 Figure 19: Malagarasi Basin soil map .........................................................................................92 Figure 20: Riverine forest along River Malagarasi ......................................................................94 Figure 21: Miombo woodlands most without leaves .................................................................95 Figure 22: Miombo woodland on flat terrain (left bank of river malagarasi) ..............................96 Figure 23: Mixed Miombo woodland along the access road to Igamba water falls (Source: Site visit, August 2017) .....................................................................................................................97 Figure 24: Some of the fores-dependent species of butterflies (top left: Papilio dardanus male, bottom left: P. dardanus female; top right: Papilio nireus; bottom right: G. antheus)................99 Figure 25: Showing EIA expert addressing issues during public meetings at Igamba sub-village ............................................................................................................................................... 107 Figure 26: public meetings at Mazungwe village...................................................................... 108 Figure 27: Approximate distribution of the Igamba Snail showing the area of habitat downstream of the dam that will be preserved under a 10m3/s EF release .................................................. 151 Figure 28: Proposed Institutional Setting for the Malagarasi HPP ............................................ 178 xiv ACRONIMY AND ABRIVIATION AFD AfDB AMREF AIDS AW BOD BP CBA CBD CBO CC CCP CE CFCs CFR CHAC CHARM CITES CMP CMP CMS CRFD COD CO2 Cumec DACC DED DGC DIZ DMO DNRO DO DOE DRIFT EA EFR EIA EIS EMA EMO EMP Agence Française de Development African Development Bank African Medical and Research Foundation Acquired Immunodeficiency Syndrome African Weather Biological oxygen demand Bank Procedures Cost Benefit Analysis Convention on Biological Diversity Community-Based Organization Construction contractor Council Comprehensive Plans Consulting Engineer Chlorinated Fluorocarbons Council on Foreign Relations Community Health Awareness Council Collaborative Historical African Rainfall Model Convention on International Trade in Endangered Species Catchment Management Plan Construction Management Plan Convention on the Conservation of Migratory Species of Wild Animals Concrete Faced Rock Fill Dam Chemical oxygen demand Carbon Dioxide Cubic metres per second District Administrative Coordination Committee District Executive Director District Grievance Committee Direct Impact Zone District Medical Officer District Natural Resources Officer Dissolved oxygen Director of Environment Downstream Response to Imposed Flow Transformations Environmental Assessment Environmental Flow Release Environmental Impact Assessment Environmental Impact Statement Environmental Management Act Environmental Management Officer Environmental Management Plan xv EPC ESIA ESMP ESMU ESO EWURA FR FSL GCLA GDP GHG GIS GoT GW ha Engineering Procurement Construction Environmental and Social Impact Assessment Environmental and Social Management Plan Environmental and Social Management Unit Environmental Site Officer Energy and Water Utilities Regulatory Authority Forest Reserve Full Supply Level Government Chemist Laboratory Agency Gross domestic product Green House Gas Geographic Information System Government of Tanzania Gigawatt Hour Hectare xvi AKNOWLEDGEMENT Management of TANESCO wishes to convey sincere appreciation to all key players who in one way or another supported the completion of this work. Special thanks should go to all the people who provided prompt assistance during the whole period of consultancy. The Developer specifically acknowledges all those who consistently worked very closely with the ESIA Study team up to the successful completion of the assignment. Also management will like to recognize and appreciates various institutions and individuals like Uvinza District Council, Kazuramimba Ward and Mazungwe village office and community along the proposed site for providing valuable information and support needed by the study team which enabled the ESIA team to carry out the ESIA study smoothly. xvii EXECUTIVE SUMMARY Project Title and Location and Proponent The proposed 44.8 MW hydropower plant (Malagarasi Stage III project) is located at Igamba falls on the Malagarasi River in Igamba sub-village, Mazungwe village, Kazuramimba Ward, Uvinza District in Kigoma Region in western Tanzania about 100 km south of the town of Kigoma. The proponent is the Tanzania Electric Supply Company Limited (TANESCO). Description of the Proposed Project The ESIA study was carried out in 2012 and the project was financed by MCC but now the Malagarasi HEP project is funded by African Development Bank (AfDB) and Agence Française de Development (AFD). It has been noted that since then there some of legislation and policies that has been amended, and also there might be some variation in environmental baseline and other concern issue has to be updated thus the update of the EIA report is of importance The proposed hydropower project is some 27 km south of the main Uvinza-Kigoma road and railway, currently reachable by a dirt track. The main components of the project will include: • A dam and an intake pond below Igamba Falls, a headrace canal and a run-of-river power plant. The intake pond will function as a run-of-river pond most of the year producing up to 44.8MW and a daily ponding reservoir during the late dry season to allow for up to 5 MW power output. • An access road of about 27 km from the main Kigoma – Uvinza road south to the Malagarasi River. The project also entails construction of water retaining, transfer and diversion structures, power houses, a spillway, an additional switch yard, accommodation for staff and feeder roads connecting the plant and facilities. The hydropower scheme was initially (in1982) conceived of as a three-step (Stages I, II and III) hydropower development layout of the Igamba Falls. In the initial project studies the upper dam, Stage I was to be the reservoir with hydro power plants, while stages II and III were to be run-of-river ponds with hydropower plants. The Stage I reservoir would have been situated near the outlet of the gorge some two km upstream of the Igamba Falls, creating a 9 km-long narrow pond upstream into the gorge. xviii Stage II included a 340 m long diversion dam with an overflow weir of an anticipated maximum height of 7.5 m above the river bed, located some 1.5 km downstream of the Stage I dam and about 350 m upstream of the main Igamba Falls. This would have created a pond with a surface area of about 0.6 km² extending 1.5 km upstream to the toe of the Stage I dam. Approximately 0.5 km of river channel and the main Igamba Falls would be cut off and subject to greatly reduced flows with this arrangement. Although assessed independently of one another, the potential impact of both Stages I and II on critical aquatic habitat resulted in financier withdrawing funding for these stages in late 2009. For the Stage III site new information on river flow and analyses of the optimum use of water resources has allowed 44.8 MW to be the preferred option instead of 12 MW. This significant development represents a considerable change in the importance of the resource Rational for the Proposed Hydropower Scheme TANESCO is proposing to develop a new hydropower plant at Igamba Falls on the Malagarasi River, to serve Kigoma-Ujiji Municipality and the surrounding towns of Kasulu and Uvinza with an affordable and reliable supply of electricity. Earlier feasibility studies have indicated that there are three potential hydropower projects that could be undertaken in the Igamba Falls area. This description is for Stage III of the potential three-stage Igamba Falls development which is the most downstream dam site and hydro-power station. The power generated from the project will be distributed to a number of communities in western Tanzania to provide approximately 1.3 million persons with increased access to electricity. Recently TANESCO has preceded with a number of interconnecting transmission lines and Kigoma should be linked to the national grid. TANESCO considers the Malagarasi hydropower scheme as important as the power at the end of the transmission line may be insufficient to service the power demand of the Kigoma area, thus reliance on the diesel generators may continue. Furthermore the Malagarasi Hydropower Project would complement the other generation projects and reduce power loading problems by feeding excess power into the national grid. The future interconnector has been critical in shaping the hydropower plant design and associated works. It has allowed for full optimisation of the hydro resource as surplus energy will be distributed via the transmission line to other areas of Tanzania Description of the Project Environment The source of the Malagarasi River lies in the mountainous region, north of Kigoma and close to the Burundi border. From its headwaters, it flows in a north-easterly direction through hills and mountains, before it turns southwards into a flatter landscape. The gradient is gentle and the river flows in large meanders, before entering the Malagarasi swamps in the south-eastern part of the region. The Malagarasi swamps are a distinct hydrological feature of the basin, exerting a xix controlling influence on runoff. The wetlands can swell during the rainy season to hold about 10 % of the catchment that drains to them. A large portion of the entire catchment drains through the swamps. At this point, the Moyowosi River joins the Malagarasi. Some 50 km downstream the Ugalla River converges with the main river. The river then runs directly west, before breaking through the Masito Escarpment, to form rapids and waterfalls (Igamba) on its final run to Lake Tanganyika. The Igamba area is the location of the proposed project. The Igamba Falls and Rapids are composed of porous and fractured Upper Malagarasi Sandstone formation with extensive circular pothole erosion formations. This rock habitat lies between an upper catchment and Lake Tanganyika. The location and evolutional history of the Igamba Falls area makes it a unique site from an environmental perspective. Its fauna, chemistry, substrate and productivity are different from other sites in the river system. As a result of its evolutionary history and geology a number of range-limited endemic species have evolved in the Igamba area of most interest to this project are the Igamba Snail which appears to favour the deep scour pools in the sandstone, and the Goby cichlid which is found throughout the falls area. The main habitat of these two species lies above the proposed Stage III scheme and will not be directly affected by the project. Stakeholder Involvement The public participation process: 1. Provides an opportunity for Interested and Affected Parties (I&APs) to obtain clear, accurate and comprehensive information about the proposed activity, its alternatives or the decision and the environmental impacts thereof; 2. Provides I&APs with an opportunity to indicate their viewpoints, issues and concerns regarding the activity, alternatives and /or the decision; 3. Provides I&APs with the opportunity of suggesting ways of avoiding, reducing or mitigating negative impacts of an activity and for enhancing positive impacts; 4. Enables the applicant to incorporate the needs, preferences and values of affected parties into the activity; 5. Provides opportunities to avoid and resolve disputes and reconcile conflicting interests; and 6. Enhances transparency and accountability in decision making. The following emerged as the key stakeholders for the Malagarasi Hydro Power Project: • Meetings with District Officials Meetings were held in Uvinza district leaders including DED, DC, Land Officer, Forest Officer, Valuer, Community Development Officer, Legal Officer and Land Surveyor.The aim of the meetings was to discuss the project with the district officials and to obtain relevant data and xx information from the respective districts. Most of the consulted district council’s officials agreed to the importance of the proposed development project to the national, districts and local communities’ development. 1. Their main concern was on land acquisition, need project owner to educate PAPS on their rights when it comes to compensation, 2. Compensation to be fair and help PAPS to improve their lives rather than deteriorating their lives 3. Project developer (TANESCO) should involve district authorities in every stage of the project to minimize unnecessary conflict and help PAPS to improve their lives. • Meeting with local governments (i.e Kazuramimba ward, Mazungwe village and Igamba sub-village) The team conducted Focus Group Discussion (FGD) along the wards and villages which will be affected by the project. The meetings aimed at informing the villages about the project and the associated impacts. FGD members were informed of the positive and adverse impacts of the project include loss of land, possibilities of increased spread of HIV/AIDS especially during construction phase, as well as other environmental and social impacts associated with the project. FGD members were also sensitized on their right to be compensated and applicable compensation norms if they will lose land, crops and houses, also introduced the existence of grievances committee for them to channel their claims if encountered problems related to the project. Further they were given an opportunity to ask questions, raise their concerns and provide information to the team on issues such as availability of land in the village for resettlement purposes, cultural ties like ritual areas which they would like to be protected and identification of sensitive sites/areas such as cultural sites like grave yard, water sources natural forest and like that lie within the ward and they also offered information on how to go about protecting this areas. • Consultations with Other Relevant Stakeholders The team conducted various stakeholders consultations at ministerial and Government Agencies and NGOs to obtain views at policy level. These included the Ministry of Natural Resources and Tourism - the Division of Antiquities, TANROADS Kigoma office, TANESCO Kigoma Office, Janegoodal Institute (JGI), Lake Tanganyika Water Basin, Gombe-Mahale National Park Information Centre and RAHCO Kigoma Office as the project might use railway to transport project consignment to Kigoma. NGO consulted includes Belgium Tecchnical Coperation (BTC), Kigoma AIDS Control Network (KACON) Mandela Paralegal Organisation (MAPAO), Hopes of the Community Foundation (HCF) and Vijana Pamoja Twaweza (2014). Their view and concerns are included in the EIA report chapter five xxi Major Impacts In summary the major potential impacts are: Construction Phase: • The 27 km access road will result in some displacement of families along the alignment; • Highly disturbed area of the Direct Impact Zone approximately 184 ha; • A ponding dam of approximately 13.5 ha; • Construction period of 3 years 4 months with up to 550 workers on site during peak construction period; • Soil erosion and collapse of embankments; • Noise and dust on site and along the access route (trucking traffic will be high); • Loss of some aquatic habitat important to endemic species (Igamba snail and Goby cichlid); • Temporary reduced water quality due to sedimentation from construction; • Short term impact on wildlife and tourism; • Increase in illegal timber abstraction; • Social, health and safety impacts on local communities. Operation Phase: • The HPP is largely a run-of-river scheme. Downstream flows are not affected except during the late dry season when the dam is used as a reservoir for daily peaking. During the dry season the flow may be as low as 10 m 3/sec for up to 10 hours daily during peaking operations.. • The section of the river between the dam and the tailrace will be affected by reduced flows and an EFR of 10 m3/s is required to maintain biodiversity. • The existing community of Igamba will be affected through loss of arable lands, reduced access to natural resources, limited access to the river and, some loss of homes. • • Loss of Labeo cf. coubie, a migratory fish from the reservoir area. Reduce value of the area for tourism due to light and visual pollution. • Increase in illegal timber abstraction. Cumulative Impacts Should Other Stages of the Cascade be Developed xxii • Loss of significant area of critical habitat for site specific endemic species. • Changes to downstream flows if Stage I (storage reservoir) is constructed. • Loss of the tourism value of the Igamba Falls and the Masito-Ugalla Ecosystem area in general. Major Upstream Threats are: • Reduced dry season river flows due to changes in land use upstream and failure of the Malagarasi – Moyowosi Ramsar Site to successfully manage the upstream swamps. • Climate change impact on river flows. Alternatives Considered The fundamental challenge is to provide adequate, reliable electricity to the people of the region at reasonable cost and within acceptable environmental and social impacts. To that end, a number of alternatives including the no-project option were considered. One alternative, the Stage II scheme for hydropower on the Malagarasi River, was found to be unacceptable as it would have had significant adverse effects on endemic species whose range is restricted to the Malagarasi River. Expansion of the existing thermal plant at Kigoma is an expensive and short term solution. There are no other viable hydropower alternatives and the non-hydro renewable alternatives, although viable for specific uses, will not provide the base load required. TANESCO, though, feels that the power supply at the end of a long transmission line will be limited and possibly erratic. TANESCOs opinion is that the Malagarasi Hydropower scheme is important as it will serve to stabilise power in the interconnector and feed surplus power back into the national grid. This document focusses on Stage III Malagarasi scheme, as it has the potential to produce more electricity than Stage II while avoiding the largest area of habitat for the endemic, range restricted species. Recommendations and plan for mitigation A number of the proposed mitigation measures proposed focus on the social impacts To be further developed they require that detailed social development plans be prepared to ensure that local communities are protected and benefit from the hydropower development. xxiii Environmental mitigations include the location of the hydropower dam site (at the bottom of the rapids and below the main habitat used by the endemic species). The run-of-river scheme with dry season daily storage does not significantly increase the size of the reservoir area nor greatly increase the environmental impacts. Given the biodiversity importance of the Igamba area, it is necessary to maintain as much of the aquatic ecosystem as possible thus a substantial environmental release flow has been identified of 10m3/s (approximately half of the average peak dry season flow). As indicated above, additional aquatic research is recommended to guide the decision making process, given the sensitivity of the endemic species in the project area and the importance of the overall conservation of the Igama system. The remaining area of the cascade, including the main falls and key aquatic habitats should be protected and used to enhance the tourism value of the Masito-Ugalla Ecosystem area situated on the left bank of the Malagarasi river. The habitat of HPP Stages I and II are to be established as environmental offsets which may not be developed unless empirical evidence indicates that developing them will not affect the survival of the limited range endemic species of the lower Malagarasi. The formation of an oversight body under the auspicious of the the Lake Tanganyika Basin Water Office (LTBWO) is required to provide oversight of the environmental offsets. In the long term changes to land use in the catchment and climate change will have the effect of reducing late dry season flows. These changes will reduce the power output of the scheme and it is in TANESCO’s interests, through the LTBWO and the Ramsar secretariat to become more involved in river basin management and the protection of the upstream Ramsar site. Environmental and social management As described above, additional studies will be needed to fully define the nature of the project, assess its effects, and propose environmental and social mitigation measures. Thus, the definition of environmental and social management and associated costs is provisional. To help inform the process going forward, an initial ESMP has been drafted outlining the mitigation actions required and the indicative costs. Proposed monitoring and auditing A separate monitoring plan has been prepared. The monitoring is considered to be chiefly the responsibility of TANESCO and LTBWO. xxiv Decommissioning Under normal circumstances hydropower projects have at least a 40 or greater lifespan (100 years +). The decommissioning plan therefore outlines the steps and principles required should the HPP begin to reach closure. Conclusions and Priority Issues The Igamba area is unique in that it has had an extended stable period (10 million years), has extensive hypothec cryptic habitat and elevated calcium and magnesium levels in the water. The falls area is largely protected from sedimentation by the upstream Malagarasi-Moyovosi swamp and associated lakes The Igamba area is home to several identified endemic and highly localised animal species. These species are highly vulnerable to development and changes to water quality and flows resulting from local or upstream changes. The proposed Malagarasi Stage III HPP will involve a trade-off between increased risks to the unique species and production of hydropower Given the biodiversity importance of the Igamba Falls and rapids, the establishment of a cascade scheme that will affect large portions of the cryptic habitat will result in a high risk of species extinctions. As a result the Independent Panel (Mott MacDonald Malagarasi Independent Advisory Panel (MIAP) 2009) recommended that, should the development go ahead, “Foregoing either Stage 1 or Stage 3 must to be explored with a view to selecting one of them as the most appropriate offset to mitigate biodiversity impacts. Using Stage 3 as an offset would protect habitat biodiversity for fish; the offset of Stage 1 would protect gorge aquatic and terrestrial ecosystems and gallery forest biodiversity. Such an offset must be formalised in a covenant prior to Stage 2 going ahead. A clause can be added to relax conditions of the covenant should monitoring show the offset to no longer be necessary.” A number of issues that were raised by the MIAP as recommendations for the Stage II HPP need addressing here, these are: 1. Grout curtain: The porous nature of the rock below the proposed dam wall will require cement based grout to be pumped into the foundation area up to 30 metres deep. The objective of the grout is to prevent subterranean flow which reduces water available for hydropower production and to protect the dam wall from being undermined. The stage III dam site is in a slow flowing pool and not rapids (as in the case of the Stage II site). The extent of subterranean flow in the existing pool, and its effects on existing hyporheic flows, is not fully understood. Similarly the environmental flow release, which will come from water from the live storage area of the reservoir, and be released at the top of the downstream rapids, should ensure xxv that water quality is not affected by the grout curtain or short residence time in the ponding reservoir. 2. Environmental Flow Release (EFR) during construction: MIAP recommended that the construction scenario of a diversion canal and two coffer dams be modified to maintain a wet area downstream of the diversion weir so as to provide critical natural habitat for aquatic organisms during construction. No suitable engineering options have been identified for this requirement apart from pumping a maximum flow of 0.2 m3/s around the construction area to the top of the rapids so that some of the aquatic habitat of the downstream rapid remains alive. Although this is suboptimal and will result in most of the downstream rapids drying out, the presence of the main population of key species upstream will allow for both natural and artificial reintroduction of species. 3. Sedimentation: The MIAP requires that the diversion weir be redesigned to include sluice gates to direct the water through the bottom of the weir during high flows to reduce the risk of sedimentation downstream while ensuring that the reservoir above the weir is scoured of accumulated sediment. The findings of the Stage III sedimentation flow studies prepared during the feasibility study are that the live storage of the reservoir will be scoured clean annually and that the sediment flushing gates will be able to clear sediment that accumulates in the diversion canal. Sedimentation is not considered a critical issue for the Stage III HPP. 4. Environmental Flow Release: It is noted that should development proceed for the Stage III HPP, most of the key aquatic habitat is located upstream of developments (approximately 80% of the Igamba Snail habitat). It is recommend that no development occur in the areas of Stages I and II and that an oversight body be assigned to monitor development and future use of the Igamba cascade. As mentioned above, additional work is needed to study environmental flows and associated costs and benefits. The precautionary principle used by the Independent Panel with reference to Stage II requires the EFR to be minimum flow plus 10 m3/s (an EFR of 33m3/s). This would require additional study in the context of Stage III. 5. Captive breeding: The MIAP required the immediate design and implementation of a captive breeding program for the target species and the development of a plan for reintroduction. The consultant considers that the preservation of the upstream portion of of the Igamba Falls and the majority of the key aquatic habitat to be the best form of protection for the target species and that the upstream area could be treated as the reservoir for reintroductions after construction has been completed. Protection of this area would require agreement by relevant officials, stakeholders, and a plan to ensure that the area is managed sustainably. Reintroduction of key species from the upstream areas as well as captive breeding could be useful complimentary strategies, Further work is required to determine the efficacy of captive breeding and reintroduction. Until this is done, it is difficult to determine if these efforts will maintain populations of these species in the lower rapids. xxvi The commitment of the Government to connecting Kigoma to the national/regional grid has greatly increased the hydropower value of the Lower Malagarasi as surplice energy can, in the future, be used in other areas of the country while the grid will, in return, offer stable power in the case of low river flows. The optimization of the HPP and linkages to the national transmission line grid connection will require a redesign and routing of the initially proposed transmission lines between the Stage III site and consumers. A full ESIA will be required of the final transmission line design and routing. A critical issue, though, is the possible future pressure for development of the cascade upstream. In this regard it will be necessary for an oversight body to monitor the management of the Stage III HPP and control expansion of power production to other stages based on the assessment of risk to endemic species. xxvii CHAPTER ONE: INTRODUCTION Tanzania Electric Supply Company (TANESCO) has the responsibility for developing and maintaining electricity generation and services. The provision of affordable energy is an essential requirement and important to the country’s economic and social development. To this end TANESCO is proposing to develop a new hydropower plant at Igamba Falls on the Malagarasi River, to serve Kigoma-Ujiji Municipality and the surrounding towns of Kasulu and Uvinza with an affordable and reliable supply of electricity. Past feasibility studies have indicated that there are three potential hydropower plant projects that could be undertaken in the Igamba Falls area. Lack of a reliable electricity supply in Kigoma and its districts has hampered the social and economic development of the region. At present Kigoma relies on thermal diesel generation, various other options for providing a safe electricity supply have been assessed, and the Malagarasi hydropower project has been identified as one of the most cost effective alternatives for rectifying the power shortfall. A number of pre-feasibility and feasibility studies over the years have proven the technical and economic suitability of the Malagarasi scheme at Igamba Falls for hydropower generation. This Environmental study is for Stage III, a run-of-river scheme that will be able to produce a maximum of 44.8 MW during high flows with a minimum power output of 5 MW at the height of the dry season. The assessment also examines the cumulative impacts of the full cascade scheme. 1.2 Purpose, Requirements and Process The purpose of this study is to identify the major potential impacts of the proposed project and to provide a blueprint of how these impacts will be avoided, mitigated or minimized to acceptable levels (to be further developed in an ESIA). The main objectives of the subsequent Update ESIA are to: • Update the predicted consequences of the proposed project, so as to assist in the decision making process. • Update the Environmental Baseline status of the proposed site • To update social economic profile of the proposed site • To Identify, assess and where possible mitigate adverse impacts of the project on the natural and social environment and • To Promote sustainable development through the creation and enhancement of positive impacts associated with the project. The Update ESIA will also discuss the alternatives to the project to demonstrate its justification in the wider environmental context. 1 1.3 Outline of the Malagarasi Hydropower Project, Project Background and Rationale TANESCO is proposing to develop a new hydropower plant at Igamba Falls on the Malagarasi River, to serve Kigoma-Ujiji Municipality and the surrounding towns of Kasulu and Uvinza with an affordable and reliable supply of electricity. Earlier feasibility studies have indicated that there are three potential hydropower projects that could be undertaken in the Igamba Falls area. This description is for Stage III of the potential three-stage Igamba Falls development which is the most downstream dam site and hydro-power station. The Igamba Falls area of the Malagarasi River is located in western Tanzania near the town of Kigoma. (See figure 1). The power generated from the project will be distributed to a number of communities in western Tanzania with approximately 1.3 million persons with increased access to electricity. More recently the TANESCO has gone ahead with a number of interconnecting transmission lines and Kigoma should be linked to the national grid. TANESCO considers the Malagarasi hydropower scheme as important as the power provision at the end of the transmission line may be insufficient to service the power demand at Kigoma, thus reliance on the diesel generators may continue. Furthermore the Malagarasi Hydropower Project (MHPP) would complement the other generation projects and reduce power loading problems by feeding excess power into the national grid. The future interconnector has been critical in shaping the hydropower plant design and associated works. It has allowed for full optimization of the hydro resource as surplice energy will be distributed via the transmission line to other areas of Tanzania. The catchment area of the Malagarasi River ranges in altitude from 800 to 1,500 meter. The project location will take advantage of the Igamba Falls, which lie downstream of a deep and narrow gorge on the Malagarasi River between Uvinza and the project site. Access to the project site is by road, about 67 km from Uvinza and 100 km from Kigoma. The proposed powerhouse, some 27 km south of the main Uvinza-Kigoma road and railway, is reached by a dirt track. The main components of the project will include: • A dam and an intake pond below Igamba Falls, a headrace canal a run-of-river power plant. The intake pond will function as a daily peaking reservoir during the late dry season to allow for a 5 MW power output during the dry season. • About 27 km access road from the main Kigoma – Uvinza road south to the Malagarasi River • Construction of water retaining, transfer and diversion structures, power houses, a spillway, an additional switch yard, accommodation for staff and feeder roads connecting the plant and facilities. 2 Figure 1: Location of the project area 1.4 ESIA Background and History The history of the ESIA process at Malagarasi is important in interpreting the report structure and results. EIA study was carried out in 2012 and the project was at that time financed by MCC but now the Malagarasi HEP project is funded by African Development Bank and Agence Française de Développement (AFD). It has been noted that since then there then some of legislation and policies that has been amended, and also there might be some variation in environmental baseline and other concern issue has to be updated thus the update of the ESIA report is of importance The whole project initially consisted of the entire cascade scheme which included Stages I, II and III and associated works (Norplan 2009). In 2008/9 Norconsult, through ESBI were contracted to prepare a detailed assessment of the Stage II site, improve the consultations and assess and 3 address the cumulative impacts (ESBI 2009). These were completed but environmental issues identified during the process and the IRB report (Mott MacDonald 2009) resulted in the project being confined to the Stage III site. At the same time Mott MacDonald was commissioned to review the situation through an independent advisory body. During the Stage III engineering study, the Client selected the full power optimization option which had some implications to the design of the HPP scheme, but allowed for far higher power outputs. At the same time TANESCO has started the process of establishing transmission lines to connect western Tanzania to the national grid. The high potential power output and the potential to be able to absorb the extra power in the national grid means that the transmission line linking the Malagarasi hydropower station to users will be significantly changed and will require a full and separate ESIA once the transmission line design is complete and the route identified. Similarly the social assessment and consultation process draws heavily on the existing Norconsult consultations for Stage II (2009) and the RAP (ESBI/Africare 2009) that was carried out along the road alignment, transmission corridor and at the Stage II site. The communities along the access alignment-who were consulted for the Stage II project are the same communities affected for the Stage III (mitigation) site. The sociologists for the Stage III project area simply updated and extended the consultations identified for the stage III site. RAP has been undertaken for the communities directly affected by the Stage III project. This report thus address the terms of reference for the Stage III site and draws heavily on the earlier works to discuss impacts relating to the wider project activities. The hydropower scheme was initially conceived of as a three-step (Stages I, II and III) hydropower development layout of the Igamba Falls. Two of the dams would have an installed capacity of 8 MW and one with an installed capacity of 12 MW according to the layout in the Pre-investment Report on Mini Hydro Development, Case Study on Malagarasi River, SECSD (P) LTD, March 2000. Later studies by ECON and DECON/SWECO (2005) elaborated the middle scheme, but appear not to have fully considered the viability of cooperation of the three schemes in a cascade. However, no environmental or socio-economic impact assessment was conducted at that time. In these technical studies the upper dam, Stage I was to be the reservoir with a hydropower plant while Stages II and III were to be run-of-river ponds with hydropower plants. The conceptual layout of Stage I suggests a development with full supply level (FSL) at el. 890masl and tailwater level (TWL) at el. 865masl, the same elevation as the Igamba 2 FSL. This FSL would require the construction of a concrete arch/gravity dam 25m high, 85m wide at the base and 160m wide at the crest, with a powerhouse containing two 4MW generating units to be located at the toe of the dam. The dam would be situated near the outlet of a gorge some 2 – km upstream of the Igamba Falls, creating a 9 km-long narrow pond that would extend upstream into the gorge, 4 according to the longitudinal sections from the study. The water level downstream from the toe of the dam would remain at its normal level. Stage I was not considered economically feasible for development as the projected install capacity was not viable. Furthermore access to the area due to the rugged topography is limited and the dam type and height amounted to a substantial cost, lowering the attraction for development. Stage II included a 340m long diversion dam with an overflow weir of an anticipated maximum height of 7.5 m above the river bed, located some 1.5km downstream of the Stage I dam and about 350 m upstream of the main Igamba Falls. This would create a FSL of 865 m.a.s.l. and create a pond with a surface area of about 0.6km² extending 1.5km upstream to the toe of the Stage I. From the intake, the water would be conveyed by a constructed 500 m long canal ending in a fore bay. From the power intake at the fore bay end, a 95 m penstock conveyor leads the water to the powerhouse located some 100-150 downstream of the main Igamba falls. The tailrace from the powerhouse would release the water to El. 840m, which facilitated a gross head of 25 m. The powerhouse was outfitted with 2x4 MW generating units. Approximately 0.5 km of river channel will be cut off and subject to greatly reduced flows with this arrangement. This stage was considered for development and in 2008 TANESCO commissioned Norplan (Tanzania) Ltd to conduct an ESIA which was submitted to NEMC for review and approval. The findings of Norplan 2009 and an updated version and Cumulative Impact Assessment by ESBI 2009 together with a rapid biodiversity assessment (Mott McDonald 2009) highlighted the unique biodiversity of the Igamba Falls area that extends to Stage I The Malagarasi funding is being used to pursue energy-related issues in Kigoma. These include preparation of technical documents and bills of quantities for distribution rehabilitation and network extension covering Kigoma town. New information on river flow and analyses of the optimum use of water resources has allowed 44.8 MW to be the preferred option instead of 12 MW. This is a significant development represents a considerable change in the importance of the resource”. 1.5 Report Structure Chapter 2 describes the proposed hydropower scheme. In brief the proposed development is located on the Malagarasi River in western Tanzania, downstream of the main Igamba Falls near to the Stage III site identified during prefeasibility studies. The power generation plant and outlet are to be located at the end of the rapids, discharging into the pool downstream of the rapids. The main components of the project will include: • A dam and an intake pond below Igamba Falls, a headrace canal and a run-of-river power plant with an initial installed capacity of 44.8 MW. 5 • About 27 km gravelled access road and associated borrows from the main Kigoma Uvinza road south to the Malagarasi River Stage III diversion. The study addresses the impacts as understood for the full 44.8MW scheme and also comments on the access road. Chapter 3 describes the legal framework within which the scheme will be developed and the ESIA prepared. Chapter 4 describes the biophysical baseline while Chapter 5 covers the social baseline. Chapters 6 describes and assess the impacts of the proposed Stage III scheme and discusses alternatives while Chapter 7 describes and discusses the cumulative impacts Chapter 8 outlines mitigation requirements and Chapter 9 is an Outline Environmental and Social Management Plan. Chapter 10 is the monitoring plan. Chapter 11 provides a brief cost benefit analysis. Chapter 12 describes the decommissioning requirements and is followed by the conclusions in Chapter 13. The report is also accompanied by annexes and appendixes. 1.6 Methodology This outlines the approach to the study, integration of different reports, field and specialist surveys. 1.6.1 Sources of Information Main sources of information used in this study were: • Earlier ESIA studies conducted within the project area • Scientific surveys of the Malagarasi river system and its biodiversity • Malagarasi Independent Panel Recommendations on the Stage II ESIA findings (2009) • Local government and key persons consultations • ESIA specific field surveys 1.6.2 Environmental and Social Assessment Methodology The approach and criteria used to assess the impacts and the method of determining the significance of the impacts is based on the Hacking method of determination of the significance of impacts. The assessment of impacts takes into consideration the following criteria: Severity: (Positive or negative and ranked high medium or low) Duration: • Quickly reversible (Less than the project life -Short term) • Reversible over time. (Life of the project - Medium term) 6 • Permanent. (Beyond closure. - Long term) Spatial Scale: • Localised - Within the site boundary. • Fairly widespread – Beyond the site boundary. Local Widespread – Far beyond site boundary. Regional/ national • Consequence: Is the function of assessing the impact in relation to Severity, Duration Significance: Of the impact is a product of Consequence x Probability Probability: Is classed as Definite/ Continuous or Possible/ frequent or Unlikely/ seldom The resulting significance rankings are: • High (It would influence the decision regardless of any possible mitigation) • Medium (It should have an influence on the decision unless it is mitigated), • Low (It will not have an influence on the decision). 7 CHAPTER TWO: PROJECT DESCRIPTION The proposed 44.8 MW hydropower plant (Malagarasi Stage III project) is located at Igamba falls on the Malagarasi River, Igamba hamlet, Mazungwe village, Kazuramimba ward, Uvinza district in Kigoma Region. Uvinza district lies between latitude 50 00’ and 6055’S and longitude 290 35’ to 31030’ E. The district borders with Kasulu district, kibondo in the North, Tabora/Katavi region (Kaliua district and Katavi) in the East, Katavi region (Mpanda district) in the South, kigoma district and the country of Democratic Republic of Congo (DRC) in the West. Location of the proposed Malagarasi stage III HEP Furthermore the proposed construction of Malagarasi HPP is located downstream of the main Igamba Falls near to the Stage III site as identified during the prefeasibility studies. The power generation plant and outlet are to be located at the end of the rapids, discharging into the pool downstream of the rapids. The main components of the project will include: • A dam and an intake pond below Igamba Falls, a headrace canal and a run-of-river power plant. The intake pond will function as a run-of-river pond most of the year producing up to 44.8MW and a daily ponding reservoir during the late dry season to allow for up to 5 8 • MW power output. An access road of about 27 km from the main Kigoma – Uvinza road south to the Malagarasi River. The project also entails construction of water retaining, transfer and diversion structures, power houses, a spillway, an additional switch yard, accommodation for staff and feeder roads connecting the plant and facilities.The study addresses the impacts of the design footprint of the 44.8 MW developments. Additional elements will include: Upgrade of about 27 km gravelled access road, a bridge over the Kabuchweri River and associated borrows from the main Kigoma – Uvinza road south to the Malagarasi River Stage III site Figure 2: Igamba stages I, II and III  Igamba Falls Stage I The conceptual layout of Igamba HPP Stage I, the most upstream of the three stages, suggested a development with full supply level (FSL) at el. 890 m.a.s.l and tail water level (TWL) at 865 m.a.s.l. This FSL would require the construction of a concrete arch/gravity dam 25 m high, 85 m wide at the base and 160 m wide at the crest, with a powerhouse containing two 4 MW generating units to be located at the toe of the dam. The dam would be situated near the outlet of a gorge some 2 km upstream of the Igamba Falls, creating a 9 km-long narrow pond that would 9 extend upstream into the gorge. The water level downstream from the toe of the dam would remain at its normal level.  Igamba Falls Stage II Igamba Stage II. The description here refers to previous study assessments by SECSD, which was later modified in the ESIA of Stage II (2009). Stage II included a 340 m long diversion dam with an overflow weir of an anticipated maximum height of 7.5 m above the river bed, located some 1.5 km downstream of the Igamba 1 dam and about 350 m upstream of the main Igamba Falls. This will facilitate an FSL of 865 m.a.s.l and create a pond with a surface area of about 0.6 km² extending 1.5 km upstream to the toe of the Igamba 1 dam. From the intake, the water was to be conveyed by a constructed 500 m long canal ending in a fore bay. From the power intake at the fore bay end, the powerhouse would be fed by a 95 m penstock conveyor located some 100150 downstream of the main Igamba falls. The tailrace from the powerhouse would releases the water to El. 840 m, which facilitated a gross head of 25 m. The powerhouse was to be outfitted with 2x4 MW generating units. Approximately 0.5 km of river channel would have been cut off and subject to greatly reduced flows with this arrangement.  Igamba Falls Stage III Igamba Stage III is the priority scheme addressed by this Environmental Study and is the furthest downstream of the three stages. The proposed engineering design is for a dam wall that will raise the water level by three metres to 841.5m.a.s.l. The wall will act as a pond to divert flow down a diversion canal and flushing mechanism to a headrace that is a 1030 m long closed culvert, with penstocks of 42 m long to convey the turbine flow to the powerhouse, where three 4MW generating units are proposed. Water will then be discharged down the tailrace to the pond at the base of the lower Igamba falls. The design is such that it will allow for full optimization of the resource i.e. a power generation capacity in the future of up to 44.8 MW. In terms of spillage, the water will go over the dam approximately 2.5 month of the year. The 44.8 MW sized plant will require, 171m3/s flow for full power output. The dam will be constructed from precast concrete and have a maximum height of 841.5m.a.s.l. At this point water will overtop the dam and flow down the existing water course. The dam will provide a pond area which will allow water to be diverted down the diversion canal and into a concrete canal to take water to the penstock. At the penstock there will be a surge tank. A 44.8 MW powerhouses and tailrace, to discharge water back into the Malagarasi River at the base of the lower falls, will be constructed. The scheme will be a partial run-of-river system with a live 10 storage capacity of 460,000 m3 which enable the plant to deliver 10 hours peak power at around 5.1 MW at 95 % availability in the dry. The diversion canal will include a structure to allow for the environmental flow to be maintained by diverting water down a canal to the pool above the lower rapids. 2.1 Infrastructure Description of the Stage III Option The selected option is the Stage III option which is located at the lowest possible point in the overall Igamba cascade of the Malagarasi River. This section details the Stage III preliminary design and provides a more detailed description of the Malagarasi Hydropower Project. The description is based on the preliminary design and specification prepared by Norconsult for ESB International to enable an EPC contractor to tender for the construction of the project. The design is for full optimization and the construction of a 44.8 MW power plant. This approach will only allow the use of the full capacity of the river during the peak flows (approximately 2.5 months of the year). For the rest of the year the power output will be less. The general layout of the Malagarasi Hydropower Project is shown in Figure 3, including the location of the dam with power intake, headrace conveyor culvert, surge tank, power house with ancillary buildings and the new access road on the right bank of the river. 11 Figure 3: General layout of Malagarasi stage III Hydroelectric Power Plant. (Source ESBI Feasibility Study Report) 2.1.1 Reservoir The likely inundation area resulting from the dam is shown in Figure 4. The 841.4m.a.s.l reservoir area is around 13.5 ha and stretches around 1.5 km upstream of the dam. 12 Figure 4: Malagarasi Reservoir (Source ESBI Feasibility Study Report) The upper three meters of the reservoir (between HRWL and LRWL) will be utilized for daily peaking in the low flow season. The lower portion of the reservoir, typically to a maximum depth of 5-7 m will be dead storage. The reservoir bottom will be subject to siltation. The shallow upper portion in the live storage will be kept clean by the river flow itself. The reservoir will trap all bed loads (stone, pebbles, gravel; and coarse sand in deep sections of the reservoir). If the siltation of the reservoir hampers the plants ability to operate daily peaking, the reservoir must be sufficiently emptied for siltation materials. Emptying of siltation materials is expected to be a rare event. The design allows for scouring of the off-take canal. 2.1.2 Dam The dam will be constructed some 200m upstream of the beginning of the lower rapids as a concrete dam. The dam comprises two portions. 1. About 580 m long overflow dam at HRWL 841.5. The average structural dam height is 5.5-6 m. In the main river channel the structural dam height is around 11 m over a 30 m stretch. In the diversion canal, where the overflow dam covers around 18 m of the canal, 13 the dam height is around 14 m alongside the diversion canal the dam height is typically between 4.5 and 6.5 m. 2. About 90 m long high dam section to El.845.5 at the power intake. The highest portion is about 18 m in the diversion canal. Grouting: The engineering design requires grouting in order to control leakage under the dam. Based on field observations and permeability tests in boreholes it is assumed that the permeability of the bedrock could be high and some extent of grouting of the bedrock must be performed under the dam foundation. A 1x2 m concrete cut-off trench will be excavated for grouting and injection under the dam foot. Two sets of grouting drill pattern shall apply: a) Two 6 m drill holes center 4 m for area grouting, and b) Vertical grout curtain between the area grouting holes to a minimum depth of 20 m. The grouting material will be cement. The objective of grouting is to prevent subterranean flow of water under the dam wall which would reduce the retention capacity of the dam and undermine its foundations 2.1.3 Compensation Water Release Mechanism and Culvert The compensation water gates and release culvert will provide the environmental flow. The environmental release organs comprise: • Two gates for the operation of the environmental release water. • A 140 m canal conveying the water to the main river channel • A platform with gate house • A short road from the power intake with a bridge crossing the approach canal The release gates shall deliver minimum 10m3/s under sediment flushing of the approach canal with water elevation in the canal not lower than El. 834m The normal operation level is between 838.5 (LRWL) and 841.5 (HRWL), and the gates shall be positioned to deliver 10 m3/s for variable water elevations during the peaking. To meet these criteria the arrangement has two gates each 1.7x1.7 m. The compensation water release system will be operated by the power plant operation. The compensation water system is shown in Figure 5. 14 Figure 5: Compensation water release system (Source ESBI Feasibility Study Report) 2.1.4 Power Intake The power intake is placed at the right riverside, extracting water from the bottom of the diversion canal and is a transition between the canal and the headrace culvert. The power intake comprises trash rack, intake gates and electrical and hydraulic equipment on top of the dam, placed in a gate house. The velocity target for the trash rack is 1 m/s, and the headrace culvert is designed for 3.4 m/s. The intake leads the water to the headrace culvert. The length of the transition is about 30 m. 2.1.5 Sediment flushing gates Two hydraulically operated sliding gates W x H (2.5 x 3.5)m, with maximum head 16 m and double acting hydraulic actuators, will be installed in the diversion canal adjacent to the intake. They are dimensioned for operation with one-sided pressure. They will be used for flushing of sediments accumulated in the approach canal, when the gates are opened water will drain through the dam 15 with high velocity. The gates are normally in closed position during operation of the power plant. Each gate is provided with revision gate. 2.1.6 Headrace Culvert, Surge Tank and Penstock The 1,030 m long headrace culvert conveys the power production water from the intake to the surge tank. The design capacity of the headrace culvert will be 171 m 3/s. The headrace culvert is founded on rock. The headrace culvert is located in the diversion canal along a 100 m stretch, and thereafter the culvert is placed in cutting or trench towards the surge tank. The culvert will be covered with soil/backfill materials and occasionally with erosion protection where exposed to river floods. From the 39 m diameter surge tank the turbine flow is lead to the powerhouse via penstock pipes. The steel penstock inner diameter is 4.0 m. There are three penstocks with a length of around 42 m each. The penstocks shall be founded on concrete to solid rock and shall be embedded with min. 0.7 m concrete for backfill. Water velocity at 57m3/s: 4.54 m/s. 2.1.7 Power station and Tailrace The power station is located approximately 1,400 m downstream of the dam wall. The power station building houses the power generating equipment mainly the turbines and the generators together with auxiliary equipment such as valves and machine hall crane. The machine hall floor and the generator top floor normally coincide in power plants. However, on this particular site, the machine hall floor is 5.5 m above the generator top floor. This is a result of the exceptional high flood rise and need for flood protection. From the turbine design, the center turbine is set to El. 809.7 m. The control room and space for personnel utilities together with low voltage room, switchgear room, battery rooms, local transformers and low and medium voltage distribution have been placed in a separate section outside and upstream of the powerhouse. The facilities have entrances from both the powerhouse and from outside. The tailrace releases the water to the river in the deep pool at the base of the lower falls. Tailrace gates are operated from a low sited deck. The canal is approximately 135 m. The canal is excavated in rock or ambient material with no sealing. The dimensioning flow is 171m 3/s. 2.1.8 Electrical Works The main electrical installations for the Malagarasi Hydroelectric Project comprises three vertical shaft generators, generator switchgear, 12 kV cables, generator three phase step-up transformers and a 132 kV outdoor switchgear located adjacent to the power house building. 16 A service building as part of the power house building will include the main control room for the power plant and 132 kV switch-yards. The station computers and operator’s workstations with keyboard and VDU’s for control and supervision of the entire plant will be located here.  Generators The generators will be vertical shaft, three phase synchronous generators coupled to Francis turbines. The generator data are mainly governed by the turbine design and the stability requirements. The following main data are proposed for each of the three identical units: • Turbine power at design head 15.0 MW • Generator rated output 17.5 MVA • Rated speed 176 rpm • Runaway speed 316 rpm • Rated voltage 6 - 10 kV 2.1.9 12 kV lines to the Intake Area and office and residential areas New 12 kV lines will be constructed to the intake and to the office and residential areas from the 12 kV switch-gears in the power house service wing. 2.1.10 Permanent Rock Deposit There will be surplus of materials from excavation estimated to 430 000 m3. Two areas for permanent rock and spoil deposits have been identified (Figure 6): 1. At the right hand side of the tailrace canal. 2. In the valley on the right hand side of the headrace culvert. Permanent spoil deposits shall be with stable slopes 1:1.5 and shall be shaped to natural terrain. Erosion protection shall be ensured along the foot of the fillings. The surplus stems from the excavation of diversion canal, power house and tailrace canal. The excavation of the headrace components is reasonably balanced by back fill for the same components. The major portion of the excavation will be carried out in the first year, while the bulk of the backfill will be towards the end of the construction period. The two rock dump area must contain approximately 620 000 m3 in the interim period between excavation and backfill. 17 Figure 6: Curve showing the water usage. (Source ESBI Feasibility Study) 2.2 Power and Energy Production 2.2.1 Hydrological Inflow Data and Water Usage The following inflow series have been used: 1976 to 2007, minus 1989 and 2003 which were incomplete. Altogether the inflow series contain 30 years. The flow duration curve indicates that the dam wall will not overtop in flows less than 181 m3/s. When flows is less than 33 m3/s then the reservoir will operate as a storage reservoir and power will be produced though daily peaking. In flow less than 10 m 3/s. All the water will be diverted through the compensation water release mechanism as environmental flow In river flow greater than 33m3/s the downstream river flows will not be affected and the hydropower scheme is run-of-river. During river flows of between 33 and 10 m 3/s, downstream river flows will vary daily from10 m3/s to 33m3/s less than 10m3/s downstream flows will not be affected. Details of the duration curve in the low flow season are shown in the Figure 7. The plant can produce power and deliver the environmental flow of 10m3/s for 99 % of the time. 18 Figure 7: Duration Curve in the low flow portion. (Source ESBI Feasibility Study) During the peaking the live storage of 460 000 m 3 is used between El. 841.5(HRWL) and 838.5 (LRWL). The peaking is operated with a constant turbine flow of 23m3/s which uses 40 % of the capacity of one turbine. This peaking operation provides approximately 10 hours peaking at 95 % availability, and 8 hours peaking at 98 % availability. 2.2.3 Resulting Power and Energy Table 1: Resulting Power and Energy Item Amount Qmax turbine flow: 171 m3/s Max. output at transformer busbar: 44.8 MW Annual energy: 186.8 GWh Plant factor: 0.48 Firm Power, 95% 5.1 MW 19 Figure 8: Monthly Energy Production. (Source ESBI Feasibility Study) 2.3 Access Road and Supporting Infrastructure Description 2.3.1 Road Design and Key Construction Elements A new access road will be required to access the proposed dam site. This will be approximately 27 km in length, following an old mine exploration track and footpath from near Kazuramimba village (the take-off point from the main Uvinza-Kigoma road and railway line, Figure 9). The proximity of the railway offers excellent opportunities for transport of material and equipment to the site. The road will be designed in accordance with the following relevant Tanzanian standards, supplemented by the South African Transport and Communication Commission (SATCC) Draft Codes of Practice: • Ministry of Works Draft Road Design Manual, 1989 – Tanzania • Pavement and Materials Design Manual, 1998 – Tanzania • Geometric Design of Trunk Roads, 1998 – SATCC • Design of Road Bridges and Culverts, 1998 – SATCC The construction works will conform to the Tanzanian Standard Specifications for Road Works (2000), supplemented by special specifications in the contract. 20 Figure 9: Proposed access road to Malagarasi HPP site (Source ESBI Feasibility Study) Construction of the road will require clearing of the route corridor, creating a total footprint of about 1km2. The roadbed will be compacted and subsequent a 200 mm sub-base course, 200 mm base course and 150 mm surface gravel wearing course will be laid and compacted to create the gravel road (Figure 10). Estimates for the quantities of material required for road construction were made based on the road layer thicknesses above and the preliminary design drawings (Table 2). 21 Table 2: Quantities of materials required for road construction Road Layer Quantity (m3) Surface gravel 44,000 Sub-base course 39,000 Base course 29,000 A surface water drainage system will be designed by the contractor to ensure that localized flooding from surface runoff or drain blockages does not occur 2.3.2 Access Road within the Stage III footprint The Access Road shall use the Stage II alignment and design. Stage II / Stage III transition is set at chainage approximately 21+150 at road elevation El.858.5. The access road enters the power house area at El.827. There will be around 885 m new road after the transition point between Stage II and Stage III. Average slope along the 885 m new road is 1:28. 2.3.3 Bridge One river crossing will be required to facilitate the new access road. This occurs at the Kabuchweri River, a small tributary of the Malagarasi, about 5 km from the project site. The Kabuchweri River bridge preliminary design is for a prefabricated modular steel truss bridge of about 3 m span. Concrete slab foundations will be constructed on both banks to bed the steel truss bridge, which will be fabricated off and assembled on site. The bridge will have a 4.7 m width clearance and will be 2 m above the anticipated high water mark (Figure 10). In addition to the access road bridge, another 50 m road bridge will be required to cross the Kabuchweri River within the Stage III development area. 22 Figure 10: Kabuchweri Bridge (Source: ESBI Feasibility Study) 23 Figure 11: Kabuchweri River Bridge within the Stage III development area (Source: ESBI Feasibility Study) 24 2.3.4 Plant Roads Plant roads are: • About 900 m road to the power intake, inclusive of 50 m Kabuchweri Bridge. The road is dual lane. • About 300 m road to the environmental release gate platform, inclusive of 90 m bridge over the approach canal. The road is single lane. 2.3.5 Office and Residential Houses Table 3: Facilities assumed for the Access Road and the Power Plant Type Number Description Access Road: Office Building 1 About 230 m3 office House, Type 2 1 2 bed room house Office Building 1 About 230 m3 office House, Type 1 2 3 bed room house House, Type 2 1 2 bed room house 1 4 flats, each with one bed room Power Plant: House, Multiple Accommodation 2.3.6: Lighting and small power in the office and residential area Office buildings and living houses will be furnished with normal lighting, socket outlets, telecommunication, internet etc. according to normal standard. Roads from power house to office and residential areas will be furnished with road lighting. 2.4 Construction of Malagarasi HPP 2.4.1 Schedule of Activities Construction is envisaged to take three years six months (excluding the bidding period) with the bypass canal and main dam wall being constructed in year one; the diversion stage 2, culverts and canal works in year two and the electrical and hydropower in year three. 2.4.2 Camps and Construction Facilities It is expected that the construction of the proposed hydropower plant will require the establishment of three or more accommodation camps: 25 i) Camp for Client and the Engineer with 7 structures; ii) Contractor’s expatriate camp; iii) Labour camp, and iv) Other camps that the Contractor may establish. All accommodation camps shall be located on the right hand side of the river. The Contractor’s accommodation area is on the flat ridge some 300-400 m north-west of the powerhouse, adjacent to the Contractor’s office (330 m from the Malagarasi River). There is expansion possibilities further down towards Contractor’s plant area as the slope is gentle. Space for labour camp has been allocated North of Kabuchweri Bridge labour (340 m from Malagarasi and 80 m from the seasonal Kabuchweri River) The water consumption estimates are: • Approx. 40m3/day at personnel occupancy areas • Approx. 60m3/day at technical areas The camp facilities would be equipped with proper water supply and sanitation, although details of the specific design and content of the camp will be determined in the subsequent contract design and tendering phases, the minimum standards required are: • Technical areas shall have settling ponds for waste water. • Sewerage shall meet 5-day biochemical oxygen demand (BOD5) <30mg/l. Suspended solids <30mg/l All camps, except for the camp for the Client and the Engineer, are temporary camps for the construction time only, and shall be removed after the finalization of the construction. 2.4.3 Contractor’s Other Technical Facilities The Contractor will establish technical facilities such as crushing plant, storage areas for bulk materials (cement and aggregates), batching plant for concrete production, workshop, storage areas on yards and in dedicated buildings/tents, vehicle parking, cleaning and maintenance areas, explosive storage and offices. Contractor’s plant area is located on the terrace towards the river (110 m from the Malagarasi River). The area is above El. 818 m. The area alongside the waterway is rugged and few places are convenient for laydown area for the construction of waterway. Some areas like the flat ridge above the surge tank and some areas on both sides of Kabuchweri River maybe useful construction areas. 26 2.4.4 Temporary Roads The roads shown on the drawings are permanent roads. The Contactor needs to construct several temporary roads, typically 6-7 m wide. Temporary roads would be: • Road to Contractor’s site office and accommodations – approximately 1 km incl. internal roads • Road to lower rock dump and Contractor’s plant area – approximately 1.5 km incl. internal roads • Branch-off road from the Access road to the crushing plant and to surge tank/headrace culvert – approximately 0.5 km. • From right hand side of Kabuchweri to the headrace culvert – approximately 0.5 km. • Road to the upstream headrace culvert and dam site with a 40 m construction bridge over the diversion canal to stage 1 diversion – approximately 0.6 km. The temporary roads shall only be used in the construction, and the terrain shall be repaired and restored after the construction. 2.4.5 Manpower Estimate The exact number of workers required for the construction phase is currently unknown, however estimates indicates that the total construction workforce for the hydropower plant will be in the range of 500-550 people. Staffing would be at the 550 level for approximately 1.75 years. A permanent workforce of up to 40 people will be required to operate the hydropower plant. 2.4.6 Description of Dam Construction In order to construct the concrete diversion dam within the available time frame, the river must be diverted for continuous dam construction. The stage 1 diversion comprise excavation of diversion canal, construction of a cofferdam in the deep portion of the river, excavation of environmental release canal and dam construction to a point downstream of the planned cofferdam for stage 2 diversion. The coffer dam will be erected to divert the river flow into the completed diversion canal, and maintain a relatively dry area where construction of the concrete diversion will take place. In the construction period the river flow will be maintained between the upstream cofferdam and the outlet of the diversion canal. During the stage 1 diversion the Malagarasi river flow is diverted into the diversion canal and further into the right hand side water course at the Kabuchweri confluence. The main river course between the cofferdam and the plunge pool at the end of the Malagarasi Stage III falls becomes dried out in the stage 1 diversion period unless a minimum flow is released to the main river 27 channel. A release of 0.2m3/s is planned with pumping from the diversion canal to the environmental release canal in the stage 1 diversion period. Following construction of the concrete diversion dam, the coffer dams will be removed and a small coffer dam will be built across the diversion canal. This will facilitate construction of the intake works and part of the concrete culvert that will duct water to the powerhouse and turbines. All remaining works for the dam and intake can be carried out. The cofferdam needs to be constructed up to elevation 843.5 m, about 2 m above the top of the overflow dam. The height of the cofferdam for the stage 2 diversion will be around 14 m above the bottom of the diversion canal. The length of the cofferdam is about 80 m. The cofferdam will be constructed in the three months low flow season in September, October and November. It is expected that construction of the main section of the concrete culvert, surge tank powerhouse and penstock will proceed in parallel to the main dam construction. 2.4.7: Materials for HPP Construction Based on the preliminary design, estimates of the quantities of materials required are provided in Table 4. Material Table 4: Estimated quantities of material required for Malagarasi HPP Unity Amount Excavation rock and soil m3 440,000 Backfill m3 160,000 Concrete Reinforcement m3 tons 84,000 6,500 About 2/3 of the excavation volume stems from the excavation of the diversion canal 60% of the concrete volume will be used for the dam construction. To provide this quantity of concrete, it is likely that the EPC contractor will establish a concrete batching plant at the contractors lay down area; also a location somewhere along the access road on the right side of the river may be feasible. Sand and gravel will be sourced locally from borrow pits identified by the EPC contractor and brought to the batching plant by truck. If suitable, material removed from the canal may be used as aggregate to minimize the amount of quarrying required. Though, it is expected that boulders extracted from the rock excavations will be used for erosion protection, leaving the remaining bulk excavation probably unsuitable or uneconomic for full scale concrete aggregates production. As well, no sand from the Malagarasi River will be used. Cement may be provided by railway and subsequently trucked to the batching plant site. 28 An estimated 4,600 m3 of cement and 23,200 m 3 of aggregates may be required for concrete production. The logistics of concrete works indicates the highest construction activity after one year when 20% of the total concrete volume shall be built into the structures in a three month period. Assuming 16,800 m3 concrete to be produced per peak three month period, the weekly material consumption will roughly be: Table 5: Weekly material consumption will roughly Material Amount Cement Aggregates Reinforcement 460 tons per week 2,500 tons per week 105 tons per week At peak concrete production, the number of seven ton truck return journeys would be in excess of 400 per week. Except for concrete, the power plant extracts materials from the surplus of the excavation works. 2.4.8 Source of Materials  Cement and Aggregate Sources Dam construction would require quarries for processing of chippings, concrete aggregates and crushed stone aggregates for base coarse. Two possible material resources are quarries at Ilunde and Chakulu Hill, some 90-93 km away from the power plant. The quarries have potential of 250 000 m3 (Chakulu Hill) and more than 10 mill m 3 (Ilunde). The total project requirement for concrete aggregates is around 65 000 m3 net from the quarry. A potentially useful source of quarry material is located at Km 14+00, 5 km into the LHS of the road. This is a new site that would need to be opened up. Due to previous works, the existing quarries are surrounded by secondary vegetation of little conservation concern. The new quarry, if utilised, would require some clearing of existing tree cover and relocation of some ‘shambas’.  Gravel/ Borrow Pits Borrow areas for gravel materials, approximately 3 to 4 km apart along the proposed access road, were investigated. Test pits were excavated and samples taken for laboratory testing. Potential borrow areas are listed in Table 5. 29 Table 6: Potential borrow areas along the proposed access road Location (km) Offset (km) 05+000 0.10 LHS and RHS 08+000 0.40 LHS and RHS 12+100 0.05 LHS and RHS 16+500 0.05 LHS and RHS 20+960 0.02 LHS and RHS All listed borrow areas are within Pericopsis – Combretum woodland, with the exception of the one at Km 20+, which lies within ‘miombo’ woodland.  Sand Sources The only sources of concrete sand are in Kigoma town, where there are existing and operational sources at Kibirizi and Kagongo. Vegetation communities at these sites are largely grasses and a few shrubs of little conservation value.  Water Sources The access road area has a number of reliable and permanent water sources. There is a pond at Kazuramimba which was used in the construction of the loose surface road from Kidawe – Kimalampamba. As the access is established and currently under use by the resident community, no vegetation clearing would be necessary The Malagarasi is another potential water source for construction, as is a perennial stream that has been identified at Km 18+00. The stream flows through a semi-wooded area of mostly bare rock and few riverine species. It is not anticipated that deep boreholes would be an option for water sourcing, despite the considerable height of the water table in the area. 2.5 Malagarasi HPP Operational Mode The Malagarasi Hydropower Project is designed for a target output of 44.8 MW dropping to a minimum of 5.1 MW under rated low flow conditions. The design is such that it will allow for full optimisation of the resource i.e. a power generation capacity in the future of up to 44.8MW. In terms of spillage, the water will go over the dam approximately 2.5 month of the year. The 44.8 MW sized plant will require, 171 m 3/s flows. Historic flow records indicate that the dry season normally lasts for 5-6 months, and reduced water level can occur at any time during this season, depending on water flow. In the 30 years for which records are available, the month of October has the lowest average inflow. 30 2.6 Description of the Impact Zones The impact zones are defined by the physical extent of development and the separated into two main direct impact areas due to our terms of reference. The zones are either direct impact zones (where physical developments relating directly to the project are occurring), or secondary impact zones (where the influence of the project will be felt well beyond the project e.g. downstream impacts). 2.6.1 Direct Impact Zone (DIZ) The DIZ is divided between the Hydropower area and the infrastructure areas. The descriptions of these zones are detailed below.  Hydropower DIZ Physical boundaries of the project comprises the Direct Impact Zone including the proposed reservoir area, dam site, powerhouse and internal roads, camp sites, material excavation and all project works and activity areas that will have a direct impact. 31 Figure 12: Hydropower Site Direct Impact Zone (Source: ESBI Feasibility Study)  Infrastructure Direct Impact Zone (DIZ) The road corridor between the project site and the main road as surveyed and documented in the ESBI/Africare Report prepared for MCA-T and as discussed in the ESIA for TANESCO by Norplan AS and previous ESBI reports (27 km of access road to the Main Road). This area is the Infrastructure Direct Impact Zone (DIZ) indicated in Figure 13 32 Figure 13: Infrastructure Connection Direct Impact Zone follows the existing road alignment between the Stage III site and the Uvinza – Kigoma main road 33 2.6.2 Secondary Impact Zone (SIZ) The SIZ is divided into the Hydropower and infrastructure zones, as described below and shown in Figure 14.  Hydropower SIZ The reservoir will be operated for peaking power. This will result in periods when the flow, downstream of the tailrace, will be as low as 10 cumecs for up to 10 hours. Therefore, this area will be the Hydropower Secondary Impact Zone.  Infrastructure SIZ The area either side of the infrastructure DIZ (the access road) will be the Infrastructure Secondary Impact Zone as the area will be impact indirectly through, increased traffic, pollution and noise. Figure 14: Malagarasi Hydro Plant Environmental Study Stage III Impact Zones 34 CHAPTER THREE: POLICY, ADMINISTRATIVE and LEGAL FRAMEWORK This chapter presents an overview of the institutional and legal framework of Tanzania. The international/ financers safeguard policies are also reviewed in the course of reviewing this ESIA study. The ESIA study was carried in 2012, thus it is believed that there are some national legislations and policies amended that should to be reviewed in this report. Also, it should be noted that by the time such HEP project was being financed by MCC but now the project is to be funded by African Development Bank and Agence Française de Développement (AFD) of which their safeguard polices are subject to be reviewed. In this line, the following is the description of the national and international policies and legislations. 3.1 National Policy Clarifying relevant policies is important in setting boundaries for the EIA in line with national interests and future prospects. The following are relevant sectoral and cross – sectoral policies which stipulate the need for EIA and provide directives on how projects should be operated in Tanzania. The project proponent will need to observe these policies in the course of designing and implementing the 3.1.1 National Environmental Policy, 1997 This is the main policy document governing environmental management in the country. The NEP defines environmental issues as both natural and social concerns and adopts the key principle of sustainable development. The NEP has also proposed the framework environmental legislation to be taken into account by the numerous agencies of the Government involved in regulating the various sectors. The NEP defines strategic plans for environmental management at all levels and provides an approach for mainstreaming environmental issues for decision making. The NEP identifies six key environmental management and protection problems: • • • • • • Land degradation; Lack of access to good quality water; Environmental pollution; Loss of wildlife habitat and biodiversity; Deterioration of aquatic ecosystems; and Deforestation The NEP requires Environmental Impact Assessment (EIA) to be mandatory for all development projects likely to have significant environmental impacts. The intention is to ensure that the development projects are implemented in an economically sustainable manner while safeguarding environmental and social issues for the benefit of present and future generations. The construction of the proposed 44.8MW project shall observe the requirements of the national environmental policy. 35 3.1.2 National Water Policy, 2002 (revised in 2009) The National Water Policy, (NAWAPO), (2002), directs an adoption of a holistic basin approach that integrates multi‐sectoral and multi‐objective planning and management that minimizes negative impacts on Water Resource Development (WRD) so as to ensure sustainability and protection of the resource and its environment. The policy underscores the importance of holistic approach by saying that “all water abstractions and effluent discharges into water bodies shall be subjected to a water use permit or discharge permit to be issued only for a determined beneficial use and for a specified period of time. It is imperative that TANESCO is aware of the important water policy elements which are summarized as follows: • • • • • • • • • • • All water resources in the country are vested in the United Republic of Tanzania and every citizen has an equal right to access and use; Water use for basic human needs has the highest priority. Water to sustain the environment and other uses are subject to social and economic criteria, which shall be reviewed from time to time; The “Polluter pays principle” shall apply in conjunction with other legal and administrative actions; Standards for in–stream flows, industrial effluents and other waste discharges to be developed and enforced; All water abstractions and effluent discharge into water bodies shall be subject to water permit or discharge permit to be issued for specific season and duration; Water related activities should aim to enhance or to cause least detrimental effects on the natural environment; The allocation and consumption of water for environmental purposes is to be given appropriate consideration; Water for environment shall be determined on the best scientific information available considering both the temporal and spatial water requirements to maintain the health and viability of riverine and estuary ecosystem; A sound information and knowledge base including both on surface and groundwater (quantity and quality), socio and economic data shall be established; Status of surface and ground water resources, in terms of quantity and quality and its use shall regularly be determined and information made easily accessible to stakeholders and decision makers. Regulatory authorities shall be empowered to collect data from water users. 36 Therefore, the policy recognizes the need to protect water sources against pollution and environmental degradation particularly during construction of powerhouse and dam of the proposed project 44.8MW power plant. 3.1.3 National Policy on HIV/AIDS, (2001) The policy objective is the prevention of HIV/AIDS transmission. HIV/AIDS is a National and indeed a global disaster that calls for concerted and unprecedented initiatives at National and global levels to contain it. It’s a serious threat to the survival and development of our nation. It has been well established that poverty significantly influences the spread and impact of HIV/AIDS. In many ways it creates vulnerability to HIV infection, causes rapid progression of the infection in the individual due to malnutrition and limits access to social and health care services. Poverty causes impoverishment as it leads to death of the economically active segments of the society and bread winners leading to reduction in income or production. The National HIV/AIDS policy of 2001 explains about stigma and HIV/AIDS as one of the key challenges in the prevention and control of epidemic. In Tanzania like in other countries in the South of the Sahara, stigma against HIV/AIDS remains very strong and plays a major role in fuelling HIV infection. Fighting for this epidemic involves health workers, political leaders, NGO’s, people living with HIV/AIDS (PLHAS), community leaders, families and individual. In order to guide the National Policy on HIV/AIDS, the following are main relevant principles: a) All members of the community have individual and collective responsibility to actively participate in the prevention and control of HIV/AIDS epidemic. b) Strong political and government commitment and leadership at all levels are necessary for sustained and effective intervention against HIV/AIDS epidemic. c) Individuals are responsible for protecting themselves and others contracting infection through unprotected sexual intercourse and unsterilized piercing objects. d) The community has the right to information on how to protect its members from further transmission and spread of HIV/AIDS. e) HIV/AIDS is preventable! Transmission of infection is preventable through changes in individual behaviour, hence education and information on HIV/AIDS, behavioural change communication as well as prevention strategies are necessary for people and communities to have the necessary awareness and courage to bring about changes in behaviour at the community and individual levels. f) Pre‐ and post‐counselling of HIV testing shall observe professional ethics with the emphasis on confidentiality and informed consent. g) Given the various circle between the HIV/AIDS and poverty, interventions for the control of epidemic should be simultaneously related by poverty alleviation initiatives. 37 h) HIV/AIDS being a social, cultural and economic problem, women and girls need extra consideration to protect them from the increased vulnerability to HIV infection in the various social, cultural and economic environments as stipulated in the National Policy on Gender and equity. In view of the above, project staff and project surrounding communities have a role to play in the fight against HIV/AIDS during and after the project implementation. 3.1.4 National Human Settlement Development Policy, (2000) Essentially, the policy focuses on the government’s resolve to address and reverse the deterioration of human conditions in the country. In this regard this policy aims at harnessing existing initiatives in the shelter delivery infrastructure investment by various sectors in the public, informal and community sectors as well as guide the rapid peri‐urban growth and transformation of the settlement pattern. The ultimate and future vision of the policy is to have well organized, efficient health, safe and secure and aesthetic sustainable human settlement. In particular the vision of human settlement development is to have human settlement where everyone has adequate and affordable shelter which is durable, healthy and safe and legally secure, accessible and which matches with the culture and living habits of the occupants. Such shelter or housing should include all the basic services, facilities and amenities and should be free from all forms of discrimination. Moreover, human settlement should offer equal socioeconomic opportunities to all members of the society for their material, social, spiritual development. Promotion of the development of equitable, safe and sustainable human settlement is a means to engender greater freedom, democracy peace and stability in the country. The NHSDP recognizes environmental planning and management as one of the broad human settlement issues. According to this Policy; “environment means the physical, economic and social conditions in which people live, influencing their feelings and development”. In that regard the NHSDP identifies environmental protection as one of the strategic issues in human settlement planning and development. Among other issues the NHSDP addresses: Lack of solid and liquid waste management, leading to environmental deterioration; • • • Emission of noxious gases from vehicles and industrial activities as a major cause of air pollution in urban areas; Encroachment into fragile and hazardous lands (river valleys, steep slopes and marshlands) leading to land degradation, pollution of water sources, etc; Increasing dependence on firewood and charcoal as a main source of energy in human settlements leading to depletion of forests, environmental deterioration and air pollution; and 38 • Un‐authorized sand mining in river valleys leading to environmental degradation. In line with this, the role of the project is to ensure air emission is controlled, waste and hazardous wastes are well managed, environment is well protected and the project should ensure that PAPs are able to live in decent and better shelters following the compensation of their properties to pave way for the construction of the project. 3.1.5 National Land Policy (1995) The main objective of the National Land Policy (URT, 1995) is to address the various and everchanging land use needs. The Policy aims “to promote and ensure a secure land tenure system, to encourage the optimal use of land resources and to facilitate broad-based social and economic development without endangering the ecological balance of the environment” (ibid: 5). Specific objectives are outlined in the Land Policy. However, the following are directly related to the proposed HEP project: • • • • Ensure that existing rights in land, especially customary rights of small holders (i.e. peasants and herdsmen who are the majority of the population in the country), are recognized, clarified, and secured in law; Set limits on land ownership which will later be translated into statutory limits to prevent or avoid the phenomenon of land concentration (i.e. land being held by few individuals); Ensure that land is put to its most productive use to promote rapid social and economic development of the country; Protect land resources from degradation for sustainable development. 3.1.6 National Forest Policy, 1998 The overall goal of the National Forest Policy (URT, 1998) is to enhance the contribution of the forest sector to sustainable development of Tanzania and the conservation and management of the natural resources. The main objectives of the Forest Policy include “sustainable supply of forest products and services by maintaining sufficient forest area under effective management; increased employment and foreign exchange earnings; ecosystem sustainability through forest conservation and enhanced national capacity to manage forest sector” (URT, 1998:14). The Forest Policy recognizes that investment or development in forest areas may cause adverse environmental impacts. The policy recommends environmental assessment as mandatory requirement in order to ensure damage to the environment is avoided and possible mitigation measures are provided. The proposed hydropower project is neither located in national forest reserve nor community forest reserve. Thus, there shall be no impact of the project to the forest resources. However, Uvinza district council reported that they are planning to initiate MasitoUgalla forest reserve along the Malagarasi River in the near future for conservation of riverine 39 forests. Therefore, implementation of this power project will ensure sustainability of the intended power project. 3.1.7 Wildlife and Wetland Policy of Tanzania, 2007 The Wildlife and Wetland Policy of Tanzania promotes the conservation of wildlife as natural resources of great biological, economical, and nutritional values (URT, 2007). It also promotes a clean environmental, climate amelioration, and water and soil conservation. The long-term goal of the policy is to maintain great biological diversity, which contributes to a healthy environment and to the national economy. The policy recognizes the implication of human and development activities on wildlife resources inside and outside protected areas, and calls for environmental assessments for proposed development in order to minimize negative impacts. 3.1.8 The Agriculture and Livestock Policy (1997) The Agriculture and Livestock Policy of 1997 addresses changes that affect the agricultural sector in Tanzania, specifically restrictions to agricultural practices stemming from the national Land Use Policy of 1995. The Agriculture and Livestock Policy also addresses the needs of women in agriculture and the needs for agricultural practices to evolve in order to ensure protection of the environment. The policy promotes good husbandry and increased agriculture production. According to this policy, water catchment around the power project area shall be highly protected. Neither farming nor settlement is permitted on such land. 3.1.9 Antiquities Policy of 2008 Antiquities Policy of 2008 defines Physical Cultural Resources (PCRs) as any tangible material that represent contemporary, historic, and pre-historic human life ways. Antiquities Policy (2008) section 2.1 points out that already discovered PCRs shall be preserved and conserved in the National Museum of Tanzania as stipulated in Museum Act of 1980. In addition, the Antiquities Policy of 2008, sections 4.2.1 to 6, elaborates on how other stakeholders including government institutions, private sectors and public as a whole should be involved in all activities of conservation and management of PCRs. 3.1.10 Land Acquisition and Resettlement Policy There is no Resettlement Policy in Tanzania. The resettlement process at TANESCO is guided by the Land Acquisition Act of 1967, Land Act of 1999 and Land Regulations of 2001. The draft National Resettlement Policy Framework which was prepared in 2003 based on the World Bank’s OP 4.12 on Involuntary Resettlement and African Development Bank Safeguard policy #2 Involuntary Resettlement requires that: • Involuntary resettlement should be avoided or minimized where feasible by seeking viable alternative designs; 40 • • • If not feasible, resettlement activities should be conceived and executed as sustainable development programs to benefit the PAPs; Displaced persons should be fully consulted and participate in planning and implementing resettlement programs; and Displaced persons should be assisted in improving their livelihoods and standards of living to at least pre-displacement. 3.1.11 National Energy Policy (URT 2015) This policy provides comprehensive legal, regulatory and institutional frameworks for petroleum, electricity, renewable energies, energy efficiency as well as local content issues including safety, health and environment. Objective of the policy on renewable energy is to enhance utilization of renewable energy resources so as to increase its contribution in diversifying resources for electricity generation. However, the policy in the section of cross-cutting issues particularly section 4.3 considered importance of public safety, occupational health and environment. It stated that energy activities such as exploration and production of petroleum; coal and uranium mining; extraction of hydropower plants, uncontrolled use of wood fuel; combustion of fossil fuels; construction of hydropower dams and pipeline can negatively impact on ecological and environmental systems. This has been observed closely with even views from the stakeholder especially on the mitigation of adverse impacts on human health, human properties and natural environment. The execution of the proposed 44.8MW project shall adhere to provisions of this policy. 3.1.12 Fisheries Policy, 1997 The fisheries policy emphasizes on the need to promote sustainable development that will safeguard fisheries resources to provide the in-tended national social economic objectives and achieve effective protection of the aquatic environment to sustain development. It particularly recognizes the role of stakeholders in the development, management and sustainable utilization of the fisheries resources. This policy shall be complied with during project implementation. 3.1.13 National Investment Policy, 1996 The National Investment Promotion Policy among other things also seeks to promote development of different infrastructure electricity included as a means to attract potential investors. The policy recognizes the significant contribution of infrastructure such as electricity and roads in the development stimuli of the country. One of the key policy objectives is maximum promotion of export orientation on domestic production of goods and services to enhance the development of a dynamic and competitive export sector. 41 3.1.14 National Employment Policy, 1997 The major aim of this policy is to promote employment mainly of Tanzania Nationals. Relevant sections of this policy are (i) 10, which lays down strategies for promoting employment and section (ii) 10.6, which deals with employment of special groups i.e. women, youth, persons with disabilities and sections (iii) 10.8, which deals with the tendencies of foreign investors to employ expatriates even where there are equally competent nationals. The contractor and operator for the proposed HEP would be encouraged to take into account employment privileges afforded to nationals. 3.1.15 National Transport Policy, 2003 The transport policy advocates for sustainable development of the road sector by ensuring that environmental protection and management is given emphasis during the design, development and operational stages. The policy recognises the need to coordinate with energy sector to establish energy facilities at village proximity. The road sector also seeks to meet the following objectives; • • • • • To facilitate the movement of goods and services in rural areas. To make the life of rural inhabitants relatively easier and enable them to spare more time and energy for productive works. The important issues of the environment have been highlighted as follows; To improve the supply of road transport services without compromising customer safety. To minimize wasteful exploitation of natural resources. In addition, the policy is seeking reduction of poverty in rural areas through improvement of rural transport and infrastructure to minimise travel related hardships. 3.1.16 National Mining Policy, 2009 The Mineral Policy covers all activities regarding extraction from the ground. This includes minerals and material such as that for construction. The policy however, promotes private sector led mineral development relegating the role of the government to regulation, promotion and facilitation. The responsibilities of the government include monitoring of mining activities, collection and maintenance of geo-technical data for promotional purposes and administration and inspection 42 of mining activities, and environmental management with regards to mining. The requirements of this policy shall be adhering to particularly during collection of construction materials. 3.2 National Development Strategies 3.2.1 Tanzania Development Vision 2025 The Tanzania Vision 2025 was developed in the mid-1980s. It was developed when the government realized that past development policies and strategies were not adequately responding to changing market and technological conditions in the regional and world economy and were also not adapting to changes in the domestic socio-economic conditions. Consistent with this vision, Tanzania of 2025 should be a nation imbued with five main attributes:• • • • • High quality livelihood; Peace, stability and unity; Good governance; A well-educated and learning society; and A competitive economy capable of producing sustainable growth and shared benefits. 3.2.2 National Strategy for Growth and Reduction of Poverty II (2010) This is the second National Strategy for Growth and Reduction of Poverty II (NSGRP II) to be implemented between 2010/11 and 2014/15 and is a continuation of MKUKUTA I that was implemented between 2005 and 2010. The focus of the strategy is to accelerate economic growth, reducing poverty and improving the standard of living and social welfare of the people of Tanzania as well as good governance and accountability. MKUKUTA II is a vehicle, like MKUKUTA I, for realizing Tanzania’s Development Vision 2025, the Millennium Development Goals (MDGs) to be achieved by 2015 and the aspirations of the ruling Party’s election manifesto. It evaluates achievements and challenges of MKUKUTA I in each aspect of shared growth, high quality livelihood, peace, stability, unity, quality education and international competitiveness in order to address them in the course of MKUKUTA II implementation. 43 The proposed project will contributes to the goals of NSGRP II by providing reliable, high quality energy source for economic activities that will result into economic growth, employment, quality education and improved livelihood. 3.2.3 Tanzania Industrialization Initiatives The Tanzanian government has recently initiated the industrialization campaign. This campaign is leaded by the president to ensure that the country establishes various industries depending on type of raw materials produced in respective parts of the country. The campaign also emphases the investors that are hosting number of industries without developing them should be returned to government or given to other investors who have ability to develop them. With regard to this, it is obvious that industrial activities require reliable and sustainable electricity. Hence, establishment of the proposed project shall transmit 44.8MW electricity to be generated from Malagarasi Hydropower plant to the Kigoma substation. The completion of this project would successfully promote establishment of industrial sector in Kigom and neighbouring regions. For instance, it is expected that availability of reliable power in Kigoma would attract more investors to invest in salt, gypsum and lime processing. 3.2.4 Rural Development Strategy (2001) The strategies have the primary objectives of stimulating growth in the rural economy by building on gains in the national economy and by empowering rural poor people to overcome poverty through better access to land, water, energy, financial resources and markets. There is a large population still lacking electricity in Tanzania and the proposed project will create an enabling environment for more rural electrification projects particularly in the North-western regions. 3.3 Principal legislations and Regulations 3.3.1 The Constitution of the United Republic of Tanzania of 1977 The Constitution of the United Republic of Tanzania of 1977 (Revised in 1998) recognizes the basic rights for its people to the protection of their life by the society in accordance with the law. Article 24 stipulates that every person is entitled to own property and has a right to the protection of his/her property held in accordance with the law. 44 Article 30(2) states that “freedom and duties do not invalidate existing legislation or prohibit the enactment of any legislation or the doing of any lawful act in accordance with such legislation for the purpose of – among others ‐ ensuring the defence, public safety, public order, public morality, public health, rural and urban development and utilisation of minerals or the increase and development of property or any other interest for the purpose of enhancing the public benefit”. The proposed power project would adhere to the basic right of citizen of Tanzania in terms of resource utilization, right for employment, right to the land and right to the clean environment. 3.3.2 Environmental Management Act (2004) (or CAP 191) The Environmental Management Act Cap 191 is the principal legislation governing environmental management in the country. The Environmental Management Act (EMA) recognizes “…the right of every citizen to a clean, safe and healthy environment, and the right of access to environmental resources for recreational, educational, health, spiritual, cultural and economic purposes.” Thus, the EMA “provides a legal framework for coordinating harmonious and conflicting activities by integrating those activities into overall sustainable environmental management systems by providing key technical support to Sector Ministries.” For effective implementation of the NEP objectives, the EMA has identified and outlined specific roles, responsibilities and functions of various key players. It provides for a comprehensive administrative and institutional arrangement, comprised of: • National Advisory Committee; • Minister Responsible for Environment; • Director of Environment; • National Environment Management Council (NEMC); • Sector Ministries; • Regional Secretariat; and • Local Government Authorities (City, Municipal, District and Town Councils). Section 81, subsection 1 in Part VI of the EMA requires a project proponent or developer to undertake an Environmental Impact Assessment (EIA) at his/her own cost prior to commencement or financing of a project or undertaking. The types of projects requiring EIA are listed in the third schedule of the Act. The EMA prohibits any development to be initiated without an Environmental Impact Assessment (EIA) Certificate. 45 Section 86, subsection 1, stipulates that ”the NEMC shall upon examination of a project brief, require the proponent of a project or undertaking to carry out an Environmental Impact Assessment study and prepare an Environmental Impact Statement”. According to the EMA (Subsection 1‐4) the EIS should be submitted to NEMC, which carries out a review through its Technical Advisory Committee (TAC). The NEMC is also required to make a site visit during the review process for inspection and verification at the proponent’s cost. The present EIA process in Tanzania with insistence on public involvement can be divided into four main steps: • • • Registration: The proponent registers the proposed Project with NEMC after submitting a project brief. Screening: Based on the information (project brief) provided by the proponent in the EIA Registration Form, NEMC decides if a full EIA is required, or if no EIA is required or if only a short preliminary EIA is required. Impact Assessment: If a full EIA is required, an EIA Scoping Report has to be prepared by the proponent together with an ESIA TOR, which is submitted to NEMC for approval. Upon approval of the ESIA ToR, the EIA is prepared and submitted to NEMC for review by cross‐ sectoral Technical Advisory Committee (TAC) experts, which draws experts from relevant authorities, ministries, institutions and the general public. NEMC may arrange for on‐site visits with the project proponent for the purposes of inspecting the project, which is under review. When deemed necessary, a public hearing may be called as a process of reviewing the environmental impact statement (EIS). • Environmental Certificate: Upon completion of the review process of EIS, if it is found to be satisfactory and the environmental impacts of the proposed Project can be mitigated to the acceptable levels, NEMC recommends to the Minister responsible for the environment to issue an Environmental Certificate pursuant to which the Project can be implemented. 3.3.3 National Regulations 3.3.3.1 The Environmental Impact Assessment and Audit Regulations (2005) The Environmental Impact Assessment and Audit Regulations No. 349 of 2005 were made pursuant to the Environmental Management Act No. 20 of 2004. The regulations provide the basis for undertaking Environmental Impact Assessments and Environmental Audits for various 46 types of development projects with significant environmental impacts. The following text provides a brief description of some of the provisions that are relevant to this project. Part III of the Regulations deals with project registration and screening procedures. Regulation 5 requires the applicant for an Environmental Impact Assessment Certificate to submit a project brief to NEMC in the format set out in the Third Schedule of the EMA (2005) and First Schedule of the Regulations. The Third Schedule also provides the format for project registration. Regulation 6(1) specifies the content of the project brief. NEMC subsequently undertakes a screening of the project based on the submitted project brief and registration form and decides if the developer will have to carry out environmental assessment. Regulation 11(1) deals with the EIA process. If there are uncertainties as to the need for a full EIA, NEMC will require the developer to undertake a Preliminary Environmental Assessment as a first step to determine the extent of the likely negative impacts. If those impacts are small and insignificant, an Environmental Impact Assessment Certificate can be awarded on the basis of the Preliminary Environmental Assessment Report. However, if the preliminary report concludes that a project is likely to entail significant negative impacts a full environmental impact assessment will be required. The steps that need to be taken to conduct a full EIA are indicated in the Fourth Schedule while Regulation 16 specifies that the EIA study in addition to environmental impacts must also address social, cultural and economic impacts. Regulation 46(1) classifies projects into two types: • Type A – projects requiring a mandatory Environmental Impact Assessment; and. • Type B – projects requiring a Preliminary Environmental Assessment (PEA) The First Schedule lists typical examples of Type A and B projects. The proposed project is grouped in energy production and distribution of electricity, gas steam and geo‐thermal energy as type A project thus requiring the full EIA. 3.3.3.2 The Environmental management (solid waste management) regulations, 2009 These regulations provides for the implementation of the EMA (2004). The regulations are guided by three principles; the precautionary principle, the polluter pays principle and the producer extended responsibility principle. The regulations are enforced by local governments and schedule 1 of the regulations highlights the types of waste and recommended modes of treatment for the same. The contractor and 47 proponent for the proposed TL will be expected to comply with these regulations when dealing with solid waste. 3.3.3.3 The Environmental management (hazardous waste management) regulations, 2009 Similar to the regulations for management of solid waste, these regulations also subscribe to the three principles of precaution, polluter pays and producer extended responsibility. These regulations however are enforced by the Director of the environment and schedules 1 and 4 indicate the main types of wastes and disposal mechanisms respectively. 3.3.3.4 The Land (Assessment of the Value of Land for Compensation) Regulations, 2001 These regulations provide criteria for the assessment of compensation on land, as per market value for real property; disturbance allowance is calculated as a percentage of market value of the acquired assets over twelve months; and transport allowance calculated at the cost of 12 tons hauled over a distance not exceeding 20 km. 3.3.4 The Land Acquisition Act, Cap 118 Under the Land Acquisition Act, 1967 or Cap 118, the President may, subject to the provisions of the Act, acquire any land or any estate or term where such land is required for any public purpose. Land shall be deemed to be acquired for a public purpose where it is required for example, for exclusive Government use, for general public use and for any Government scheme. Also, land shall be deemed acquired for public purpose if the land is for the development of agricultural land or for the provision of sites for industrial, agricultural or commercial development, social services, or for housing. The land may be acquired where the President is satisfied that a corporation requires land for the purposes of construction of any work which in his opinion would be of public utility or in the public interest or in the interest of the national economy. The president may, with the approval, to be signified by resolution of the National Assembly and by order published in the Gazette, declare the purpose for which such land is required to be a public purpose and upon such order being made such purpose shall be deemed to be a public purpose; or in connection with the laying out of any new city, municipality, township or minor settlement or the extension or improvement of any existing city, municipality, township or minor settlement; etc. Upon such acquisition of any Land, the President is compelled on behalf of the Government to pay in respect thereof, out of moneys provided for the purpose by Parliament, such compensation, as may be agreed upon or determined in accordance with the provisions of the Land Acquisition Act, 1967. 48 The President may also revoke a right of occupancy if in his opinion it is in public interest to do so. Accordingly, the land for which a right of occupancy has been revoked reverts to the Government for re‐allocation pursuant to the existing need (s). It should also be noted here that, though the land belong to the government some changes on the land Act has taken place. Land has value to the owner; therefore, any land taken from the user or destroyed property has to be compensated. Based on this Act, any individual person or company who will suffer loss of property due to implementation of this project has a constitutional right to claim compensation for the lost properties. The implementation of this power project shall observe the provisions of this law. 3.3.5 The Land Act, 1999 (Act No. 4/1999) This Act lays down fundamental principles for occupying and using the land. Among them is the principle that any land user shall ensure that land is used productively and that any such use complies with the principles of sustainable development. Tanzanian land falls under three categories, namely: • • • Reserved Land is land set aside for wildlife, forests, marine parks, etc., and the ways these areas are managed is explained in the laws that protect each sector (e.g. Wildlife Conservation Act, National Parks Ordinance, Marine Parks and Reserves Act, etc.). Specific legal regimes govern these lands under the laws used to establish them; Village Land includes all land inside the boundaries of registered villages, where the Village Councils and Village Assemblies are given power to manage. The Village Land Act gives the details of how this is to be done; General Land is land, which is neither reserved land nor village land and is therefore managed by the Commissioner. The Land Act is governing this land. The Land Act of 1999 (Section 34) also states that where a right of occupancy includes land which is occupied by persons under customary law, and those persons are to be moved or relocated, they must be compensated for loss of interest in the land and for other losses. They also have the right to reap crops that are sown before any notice for vacating that land is given. The Land Act (Section 156) requires that with regard to communal right of way in respect of way-leave, compensation shall be paid to any person for use of land, who is in lawful or actual occupation of that land, for any damage caused to crops or buildings and for the land and materials taken or used for the works. Requirements for the assessment of compensation are provided in the Land (Assessment of the Value of Land for Compensation) Regulations of 2001. Valuation must be done by a qualified and authorized valuer. 49 The basic principle governing compensation is that none of the PAP should be made worse off by the project displacements. According to the Tanzanian legislation, market values should be applied when valuing the affected houses and structures. Households losing their residential premises are entitled to an "Accommodation allowance" to cover the cost of renting another premise for up to 36 months, while purchasing or building a new house. In case of no active rental markets, estimation of the monthly renting rates may also need to be done using alternative methods. Compensation is granted to those having annual and perennial crops, including fruit trees. The values are assessed through a market value approach as proposed in the legislation, in particular under Section 179 of the Land (Assessment of the Value of Land for Compensation) Regulations, 2001 and are available at the Government district valuer’s offices. The compensation therefore will include: • Market value of the real property; • Accommodation allowance • Transport allowance; • Loss of profits; • Any other cost, loss or capital expenditure incurred with respect to the development of the subject land; • Interest at market rate; and • Provision of an efficient, effective, economical and transparent system of land administration • Disturbance allowance; In the absence of a formal Resettlement Policy, the following legal instruments provide the legal framework for compensation and resettlement in Tanzania: i. ii. iii. iv. v. vi. vii. viii. ix. The Land Act (1999); The Land Regulations (2001); The Village Land Act (1999); The Local Government (District Authorities) Act; The Local Government (Urban Authorities) Act; The Land Acquisition Act (1967); The Urban Planning Act (2007); The National Energy Policy of Tanzania (2015); The Environment Management Policy (1997) and Act (2004). 50 3.3.6 The Village Land Act, 1999 (Act No.5/1999) The Village Land Act No. 5 of 1999 (URT, 1999) governs village land and all matters related to land tenure under the Village Councils. Section 8 (1), (2) and (3) of the Act empowers the Village Council to manage all village lands in accordance with the principles of a trustee with the villagers being the beneficiaries. In exercising these functions, the Village Council is required to have regard to the following principles:• Sustainable development and the relationship between land use, other natural resources and the environment in and contiguous to the village; • The need to consult with and take account of or comply with the decisions or orders of any public officer or public authority with jurisdiction over any matter in the area where the village is; and • The need to consult with and take into account the views of other local authorities with jurisdiction over the village. Although the Village Land Act recognizes the role of the Village Councils in terms of management, most of the land in the villages is under individuals through the customary land rights. The right of the individuals to the land must be recognized and respected and development should not take more than the land it needs for that particular development. 3.3.7 The Land Regulation (2001) The Land Regulation provides guidance on the issue of compensation. According to Section 10 (1) of the Land (Compensation Claims) Regulation 2001, compensation shall take the form of: • Monetary compensation; • Plot of land of comparable quality, extent and productive potential to the land lost; • A building or buildings of comparable quality, extent and use comparable to the building or buildings lost; • Plants and seedlings; • Regular supplies of grain and other basic foodstuffs for a specified time. The Regulation Assessment of Value for Compensation states “...the basis for assessment of the value of any land shall be the market value of such land”. The market value is arrived at by the use of the comparative method and substantiated by actual recent sales of similar properties or by use of income approach or replacement cost method, in case the property is of special nature and not saleable. The assessment of the value of land and any improvements will be done by a Qualified Valuer and verified by the Chief Government Valuer or his/her representative. 51 In addition, the Regulation defines affected people that are eligible for compensation/resettlement if some of their properties are affected by a proposed development: • Holder of right of occupancy; • Holder of customary right of occupancy whose land has been declared a hazard land; • Holder of customary and who is moved or relocated because his/her land becomes granted to another person; • Holder of land obtained as a consequence of disposition by a holder of granted or customary right of occupancy but which is refused a right of occupancy; • Urban or peri-urban land acquired by the President. If the person does not agree with the amount or method of payment or is dissatisfied with the time taken to pay compensation, he/she may appeal to the High Court for redress. If proved justifiable, the High Court shall determine the amount and method of payment, determine any additional costs for inconveniences incurred, and order the plaintiff to be paid accordingly. The land acquisition process for the switchyard and power house sites shall comply with the national land acquisition Act of 1967 and Land Regulation (2001). 3.3.8 The Land Disputes Courts Act No. 2 of 2002 Every dispute or complaint concerning land shall be instituted in the Court having jurisdiction to determine land dispute in the given area (Section 3). The Courts of jurisdiction include: • The Village Land Council; • The Ward Tribunal; • District Land and Housing Tribunal; • The High Court (Land Division); • The Court of Appeal of Tanzania. The Act gives the Village Land Councils powers to resolve land disputes involving village lands (Section 7). If the Council fails to resolve the dispute, the matter can be referred to the Ward Tribunal as established by the Land Act (1999) and the Village Land Act. If any dispute will arise because of this project, the provision of this Act shall be observed. The project proponent who is hereby referred as TANESCO shall formulate systematic way to resolve all grievances that may raise after compensation of properties this shall include physical verification of the areas will disputes. This process shall integrate resettlement committee formulated during ESIA and RAP studies. 52 3.3.9 Electricity Act, 2008 (Act No.10/2008) The Electricity Act provides the facilitation and regulation of generation, transmission, and transformation, distribution, supply and use of electricity energy, to provide for cross-border trade in electricity and the planning and regulation of rural electrification. Among other things the Act (Part VIII) gives the minister responsible for energy, in consultation with the minister responsible for finance, the authority to restructure the electricity supply industry in order to foster competition for increased efficiency, enhance development of private capital investment and promote regional trading. The 44.8MW project is in hand with the Act as it intends to increase electricity supply in North Western Regions and to promote regional trading of electricity between Burundi, Rwanda and Tanzania. 3.3.10 Rural Energy Act, 2005 The Rural Energy Act establishes the Rural Energy Board, Fund and Agency responsible for promotion of improved access to modern energy services in the rural areas of mainland Tanzania and through a Fund within the Agency Board to provide for grants and subsidies to developers of the rural energy projects and for related and consequential matters. The principles of rural energy development (Rural Energy Act, Part II) are, among other things, that modern energy supply to rural areas promotes growth in economic production and productivity as well as social welfare; that sustainable development shall be archived when modem energy services in rural areas are promoted, facilitated and supported through private and community initiative and involvement. The proposed project will make an enabling environment for rural electrification initiatives in North West regions 3.3.11 Forest Act (2002) The Forest Act (No. 14), 2002, provides for the management of forests in order to enhance the contribution of the forest sector to the development of Tanzania and the conservation and management of natural resources. In addition, the legislation fosters ecosystem stability through conservation of the forest biodiversity, water catchments and soil fertility. Section 18 of the Act requires developers to prepare and submit to the Director of Forestry, an EIA report. The law states that: “any proposed development in a forest reserve, private forest or sensitive forest area including watersheds, whether that development is proposed by or is to be implemented by a person or organization in the public or private sector, the developer shall prepare and submit to the Director an Environmental Impact Assessment of the proposed development”. Section 70 of the Act prohibits any person from burning any vegetation on any land outside the cartilage of his own house or compound without permission. 53 In addition, Section 49 of the Act outlines various permits that are required when certain activities are undertaken. These activities include:• • • • • • • Activities carried out in national and local authority forest reserves; Felling or extraction of timber (for domestic use, export, mining purposes or for prospecting and for exploitation of mineral resources); Gathering and picking parts or extracts of any protected plant for the purposes of research or the production manufacture of any medicine or product; Erection of buildings or other structures; Construction of roads, bridges, paths, waterways or runways; Plant or cultivate trees, crops or other vegetative matter; Enter to hunt or fish. 3.3.12 Wildlife conservation Act no 5 of 2009 Section 35,-(1) requires every significant physical development in a wildlife Protected Area, the Wildlife Management Area, the buffer zone, migratory route or Dispersal area to which this section applies, whether that development is prepared by, or is being implemented by a person or organization in the public or private sector, the prospective developer shall prepare and submit to the satisfaction of the Minister responsible for environment a report on Environmental Impact Assessment of the proposed development. (2) Notwithstanding sub-section (1) or any other law to the contrary, any development to which this section applies shall not commence unless and until an Environmental Impact Assessment certificate has been issued by the Minister responsible for environment. (3) The developments in a wildlife protected area and Wildlife Management Areas to which this section applies shall include:(a) Mining development; (b) Road construction or lying of pipe lines; (c) Semi or permanent establishments; (d) Construction of dams, power stations, electrical and telecommunication installations; and (e) Such other similar developments or activities as the Director may, for good cause, prescribe. 54 3.3.13 Water Resources Management Act, 2009 This law provides for an institutional and legal framework for the management and development of water sources. The Act is premised on promoting the principles of the National Water Policy (http://www.ewura.go.tz/pdf/NationalWaterPolicy.pdf) and also deals with ownership and management of water sources. The Act vests ownership of water sources in the President as trustee and puts in place mechanisms for harvesting and using water. It also establishes a National Water Board and provides for its functions. Among these, is the power to regulate water catchment areas, putting in place water management plans, classification of water resources and restricting the use of water during certain periods The Act also establishes Basin Water Boards and charges them with the duty of undertaking various works. In the course of discharging their functions, these Boards may, under section 84 (2), acquire lands under the Land Acquisition Act. The Minister may also, under section 112 (2) (f) of the Act, transfer easements registered in water rights (LEAT, 2010). The proposed project has complied with this Act as during stakeholders consultations among the relevant stakeholders consulted were Lake Tanganyika Water Basin Office of which their views were integrated in this ESIA study. 3.3.14 Legal Provisions on Pollution Several environmental standards are relevant to the proposed development. The legal provisions for these standards are provided in the EMA No. 20 Cap 191, which provides directives on environmental standards and compels the National Environmental Standards Committee of the Tanzania Bureau of Standards to develop, review and submit to the Minister (responsible for Environment) for approval standards and criteria covering: • • • • • • • • • Water quality; Discharge of effluent into water; Air quality; Control of noise and vibration pollution; Sub sonic vibrations; Soil quality; Control of noxious smells; Light pollution, electromagnetic waves and microwaves; and Any other environmental quality standards. 55 The Regulations for Soil Quality Standards are made under Sections 144, 145 and 230 (s) of the EMA Cap 191 and sets out minimum standards for soil quality and identifies contaminants of heavy and other metals including liquids, such as oils. It compels all developers to ensure they do not emit any substances that may contaminate the soil beyond levels that are provided in the laws. The Regulations for Water Quality Standards are made under Sections 143, 144 and 230 (2) (s) of the EMA Cap.191 to provide for minimum standards of water quality and sets mechanism for the protection of water sources and groundwater. It prohibits discharging hazardous substances, chemicals and materials or oil into water bodies and outlines procedures that have to be followed in sampling and assessing water. In addition to provisions in the EMA Cap 191 and subsequent Regulations, the Local Government Act of 1982 also empowers the local governments to enact by-laws to protect public health and regulate pollution problems. 3.3.15 Occupational Health and Safety Act (2003) This Act makes provisions for the safety, health and welfare of people at work. In addition, it provides for the protection of people against hazards to health and safety arising from a work environment. Relevant sections of the Act are Part IV Section 43 (1) - Safe means of access and safe working place ; Prevention of fire ; and Part V on health and welfare provisions, which includes supply of clean and safe sanitary convenience, washing facilities and first aid facility to the workers. Section 15 gives powers to the Registrar of factories and workplace to enter any factory or workplace to perform his duties as provided by the Act. Section 16 requires that factories and workplaces should register with Registrar of factories and workplaces before commencing operations. Part VI deals with special safety provisions for working places involving handling hazardous chemicals, hazardous processes or hazardous equipment. The need to ensure that all workers and workstations adhere to the laws is imperative. Personal protective gear should be worn at all time by workers. As a matter of compliance to the Act, all workers should be provided with safety gear including hard-hat, gloves and special clothes for a particular work. The proposed project will have to adhere to this Act during construction phase of the project. 56 3.3.16 Disclosure Requirements The EMA 2004 of the United Republic of Tanzania has provisions for public consultation and disclosure described in the following Sections:• Section 89: Public Participation in Environmental Impact Assessment; • Section 90: Public Hearing and Information Disclosure. The Environmental Impact Assessment and Audit Regulations 2005 of the United Republic of Tanzania provide rules and regulations for Public Consultation and Disclosure as follows: • • • Part IV, Regulation 17, Public Participation; Part VI, Regulation 23, Invitation of comments from relevant Ministries, Institutions and the general public; Part VI, Regulation 27, Public Hearing. 3.3.17 HIV and AIDS (Prevention and Control) Act, 2008 The HIV and AIDS prevention and control act No. 28 of 2008 section 4 requires every person, institution and organization living, registered or operating in Tanzania shall be under general duty to:• • • • • Promote public awareness on cases, mode of transmission, consequences, prevention and control of HIV and AIDS Reduce the spread of HIV AIDS, prevalence of STI in population and adverse effect of HIV and AIDS Prohibit compulsory HIV test unless provided for, fighting stigma and discrimination Increase access care and support person living with HIVAIDS Prevent tradition and culture subject to increase spread of HIV and promote tradition and culture subject to stop HIV AIDS spread 3.3.18 Land Use Planning Act, 2007 (Act No.6/2007) The Act provides for the procedures for preparation, administration and enforcement of land use plans; to repeal the National Land Use Planning Commission and to provide for related matters. Clearly the Act has distinctive authorities of land use planning in Tanzania laid down with their functions and powers. The power vested to authorities which give them teeth to bite is to enforce approved land use plans including taking defaulters to court of law. The project proponent has to follow the land use plan requirement in the sitting of the project (i.e. industrial zone) and any change on the land uses should seek permit from respective authorities. 57 3.3.19 Urban Planning Act, 2007 (Act No. 8/2007) The Urban Planning Act No 8 of 2007 provides power for creating plans in advance of development and a comprehensive system of development control. It provides for the declaration of planning urban areas by the Minister responsible for Urban Planning in consultation with Local Authorities and constituting area Urban Planning committees and procedures for preparation of schemes and the approval by the Minister. The general planning schemes which came to be known popularly as master plans continued to be the primary planning and management tool for guiding urban development in Tanzania for more than forty years. These provided for overall planning and facilitating preparation of detailed schemes and project plans. Sitting of the project in the urban planning should consult the master plan of the urban areas so as to coincide with urban plans. 3.3.20 Water Supply and Sanitation Act, (No. 12), 2009 The Water Supply and Sanitation Act, (No 12), 2009, is the principal legislation aiming to promote and ensure the right of every person in Tanzania to have access to efficient, effective and sustainable water supply and sanitation services for all purposes by taking into account the following principles; a) Creation of an enabling environment and appropriate incentive delivery of reliable, sustainable and affordable water supply and sanitation services; b) Delegation of management functions of water supply and sanitation to the lowest appropriate levels taking into account the local government administrative systems; c) Ensuring that water sanitation authorities are financially and administrative autonomous and sustainable; d) Transferring ownership of water supply schemes in rural areas the respectively communities and enabling all the beneficiaries and stakeholders to participate in respectively in the management of community water supply schemes; e) Enabling mechanism to ensure that the communities meet the cost of operation and maintenance of their water supply systems and contribute to the cost thereof; f) Promotion of public sector and private sectors partnership in provision of water supply and sanitation service; g) Establishment an enforcement of standard of service in water supply and sanitation service; h) Regulation of suppliers of water supply and sanitation services. i) Protection and conservation of water resources and development and promotion of public health and sanitation; and 58 j) Protection of the interests of customers. 3.3.21 Employment and Labour Relation Act, 2004 In employment and labour Relations Act, section 5‐(2) and (3) provide age classification of children labour and type of work to be employed without prejudice his/her social development. Also section 7 provides details on condition of good and reliable employment environment. Furthermore, in section 11‐91 provides the provision of this Act on wage determination that stipulates a minimum term and condition of employment as shall be the employment standard. Section 11(2) and 14(1) give the details on employment contractual conditions. On the other hand section 19‐(1), (2), (3) and (5) state the working durations and overtime conditions. Moreover, section 31 provides detailed information on the employment leave and section 32‐ (1), (2) and (3) provides the information on the risk and maternity employees on payment status, sick and maternity leave. 3.3.22 Workers Compensation Act, 2008 The Act focuses mainly on; • Provision for adequate and equitable compensation for employees who suffer occupational injuries or contract occupational diseases arising out of, and in the course of their employment, and in the case of death to their dependants; • Provision for the rehabilitation of employees who have suffered occupational injuries or contacted occupational diseases in order to assist in restoring their health in dependence and participation in society; • Provision for a framework for the effective prompt and empathetic consideration, settlement and payment of compensation benefit to employees and their dependants; • Provide for the establishment, control and administration of workers to compensation fund, and the legal frame work for the contribution to the payment from the fund; • Give effective to international obligations with respect to compensation; and • Promote prevention of accidents and occupational disease. The contractors of this proposed project are required to comply with this Act to ensure that workers compensation is equitable to the prevailing national regulations. 3.3.23 Road Act of 2007 The new Road Act No. 13 of 31st August 2007 restricts constructions of utilities inside the road reserve or Right of Way (ROW). It states that ROW is exclusively for the use of road development and expansion or any other road related activities. 59 However, the road authority may issue conditional permit for other utilities such as sewers, drains, electric and telephone poles if requested. The conditions include cost for removal of the structures when the area is needed by the Road Authority. Also important to this project is the restrictions on weight and dimensions of the load to be transported from the landing port to the project site using the road transportation network. The maximum limits are: • The maximum allowed tare weight limit is 56 tons including the truck, • The width limit is 2.6m wide, and • The height limit is 4.6m high from the ground. There is a penalty for overloading. Special permit will be required for the goods exceeding the allowed limits (abnormal). Hence transportation of all abnormal goods must seek permit early on to avoid embarrassment and delay. When the permit is obtained, it should be made public (i.e. advertised to the public through news media such as newspapers and radio) to indicate the date, and time for which the goods will be transported. The time for transportation is between 6.00 a.m. and 6.00 p.m. For the abnormal vehicle exceeding 2.8m but less the 3m wide, only one escort vehicle is required at the front. For the vehicle exceeding 3m wide two escort vehicles will be required. The proposed power project shall abide with this Act during transportation of construction and operation materials. 3.3.24 Local Government (Urban Authority) Act (1982) The Act establishes and regulates district councils and township authorities. It provides detailed responsibility for urban and district councils in the administration of their day to day activities. Important provisions are the subdivision of districts into divisions and wards and the establishment of ward development committees along with procedures for implementation of schemes and programs at ward level. Part V of the Act describes the functions of local government authorities. Important provisions in the context of resettlement are section 111 and 114. Section 111, subsection b, states that the local government authorities shall: “promote the social welfare and economic well‐being of all persons within its area of jurisdiction”. Furthermore, subsection (c) obliges the local authorities to: “further the social and economic development…”. Another important provision in the Act with regard to resettlement is Section 114 which allows the local authorities to acquire land for the purposes of any of its functions with the prior approval of the central level authorities. 60 Section 118 deals with protection and management of the environment. The District Councils are required to take necessary measures to control soil erosion and desertification; to regulate the use of poisonous and noxious plants, drugs or poisons, regulate and control the number of livestock; maintain forests, manage wildlife, ensure public health, and provide effective solid and liquid waste management. The Local Government Act of 1982 empowers the local governments to enact by‐laws to protect public health and regulate land pollution problems. 3.3.24 Industrial and Consumer Chemicals (Management and Control) Act, 2003 This is an Act to provide for the management and control of the production, importation, transportation, exportation, storage, dealing, and disposal of chemicals and for matters connected therewith. It is prohibited to import, use and disposal of prohibited chemicals. Imported chemicals authorized for importation should not be used for different activities other than those authorized for. The project proponent is required to declare and obtain authorization from relevant authorities over any chemicals imported. In addition, equipment in use should be free from banned substances such as PCB in electrical transformers and switch gears. Upon authorization to import and use of any hazardous materials, the storage and disposal of those chemicals and their wastes should be managed properly. 3.3.25 Mining Act, 2010 This Act provides for prospecting of minerals, mining and dealing in minerals. It also provides for building materials including all forms of rock, stones, gravel, sand, clay, volcanic ash or cinder or other minerals being used for the construction of buildings, roads, dams, and aerodromes or similar works. The proposed project will need to construct powerhouse, dam access roads and switchyard and buildings facilities. These structures will need minerals such as stones, gravel and sand. These materials may be easily available from authorized dealers in the project area but are subject to certain fees payable to the respective district councils and or Government agents stationed at collection points along the roads. In case the contractor will need to open up his own borrow pit or quarry, this Act will apply and need to apply for the license. 61 3.3.26 Energy and Water Utilities Regulatory Authority Cap 414, (2001) This Act consolidates the laws in relation to energy and water utilities in Tanzania Mainland. Under this Act, the EWURA with prior approval of the Minister, make rules in respect of the regulated goods and services (being the electricity, petroleum, natural gas, water and sewerage sectors). The Act gives EWURA the legal mandates to issue renew and cancel licenses of service providers in the regulated sectors. Existing license holders and potential license applicants may submit their applications to EWURA for a new license or license renewal. EWURA considers license applications and decides whether to grant a license renewal by using fair and nondiscriminatory procedures. Cap 414 further makes it mandatory for EWURA to conduct public inquiry before exercising its powers to issue, renew or cancel a license. 3.3.27 The Engineers Registration Act, No 15 of 1997 and Engineers Registration (amendment in 2007) This Act regulates the conduct of engineers, to provide for their registration and for related matters. In Part III section 13.-(1) No person other than a registered engineer or firm shall engage in professional engineering work or services. All engineering firms to be hired for the construction or supervision of the project facilities should be the one registered as required by the law. 3.3.28 Public Health Act, No. 1 of 2009 This is an Act to provide for the promotion, preservation and maintenance of public health with a view to ensuring the provisions of comprehensive, functional and sustainable public health services to the general public and to provide for other related matters. Important to this project include: Part III section 37.-(1) A person shall not discharge into waters of the seaport, lake, or river port, any oil, grease, ballast, waste, sewage or any other to pollute substance likely to pollute the water or the coastline which may be of detrimental to navigation or cause any inconvenience to the shipping industry, aquatic life and recreational activities which may create any health hazard to the public. Section 54 states that a person shall not cause or suffer from a nuisance, likely to be of nuisance injurious or dangerous to health, existing on any land, premises, air or water and section 88 62 where it states that a person shall not import hazardous wastes or any other wastes into Mainland Tanzania. In general, the proposed project should not endanger public health. Any impact that is likely to impact the public health must be mitigated or avoided. 3.3.29 Environmental Management (Fees and Charges) Regulations, 2008 According to this regulation which is based on Environmental Management Act Cap 191 empowers the National Environment Management Council (NEMC) among other things to undertake enforcement, compliance, review and monitoring of environmental impact assessments for the projects undertaken in Tanzania Mainland. Sections 99 (1) (b) and 101 (1) of the EMA and Regulations 46 (4) and 57 (1) of the EIA and Audit Regulations, 2005 mandate the Council to monitor operations of any industry, project or undertaking with a view to determining its immediate and long term effects on the environment. In order to enforce this requirement, the Environmental Management (Fees and Charges) Regulations, 2008 stipulates, “annual charges for environmental compliance monitoring and audit”, payable to the Council by all proponents whose projects have been issued with environmental certificates. In addition the regulation requires Environmental and Audit practitioners to pay annual fees to the council. 3.3.30 Graves Removal Act, Cap 73 The Graves Removal Act gives the Minister responsible the power to remove the graves for public purposes. The act states that"… where any land for which a grave is situated is required for public purposes, the Minister may cause such grave and any dead body buried therein to be removed from the land and in such case shall take all such steps as they may be requisite or convenient for reinstatement of the grave and the refinement of the dead body in a place approved by him for the purpose". This Act is relevant to the proposed 44.8MW power project as one grave was found within the dam site which must be compensated accordingly and relocated. 3.3.31 Fire and Rescue Act, Cap 427 This is an Act to provide for the better organization, administration, discipline and operation of Fire and Rescue Force. It was enacted in June 2008. The Act sets fire safety requirements for 63 buildings, residential, industrial, work places, etc. in order to secure adequate safety from fire hazards by ensuring adequate passages in case of fire, to ensure fire detection, and to provide means in which fire can be extinguished in shortest time possible such as fire extinguishers, automatic fire sprinklers, etc. According to Act section 22 – (3) it is an offence to the premises owner if fails to provide means of escape or automatic fire sprinklers in accordance with the provision of the law and who fails to maintain and keep such means of escape or automatic fire sprinklers so provided in good conditions, order and repair. He/ She shall be liable on summary conviction to a fine not exceeding one million Shillings. In addition to the Act there is the Fire and Rescue Force (Safety Inspections and Certificates) Amendment Regulations, 2012 which shall be read as one with the Fire and Rescue Force (Safety Inspections and Certificate) Regulations, 2008. In these regulations, premises owners and property owners are liable to the annual contribution of prescribed properties depending on their categories. The proposed project will have permanent powerhouse, switch yard, buildings, switchyard, workshops and temporary sites such as material storage sites. Thus, this Act will provide for fire safety hazard in those properties. In addition, the project proponent will need to pay for the applicable annual fees. 3.3.32 Explosives Act, 1963 This Act requires all persons wanting to use explosives in their activities to hold an explosive license. For the proposed 44.8MW project facilities applies to use of material from any quarries and borrow pits where blasting is to be employed. 3.4 International Agreements and Conventions Tanzania is a party to several international agreements and conventions relating to the environment. The proposed power project is required to comply with these international agreements for which Tanzania has ratified. Agreements of potential importance are briefly described below. 64 3.4.1 World Heritage Convention 1972 Tanzania has ratified the UNESCO Convention concerning the Protection of the World Cultural and Natural Heritage (World Heritage Convention 1972). Project proponent has the obligation as well to preserve any cultural heritage found in the project site. 3.4.2 United Nations Framework Convention on Climate Change (UNFCCC) 1992 The objective of UNFCCC is to stabilize the concentration of Greenhouse Gases (GHG) in the atmosphere at a level that allows ecosystems to adapt naturally and protects food production and economic development. Article 4 commits parties to develop periodically updates, publish and make available national inventories of anthropogenic emissions of all greenhouse gases not controlled by the Montreal Protocol (by source) and inventories of their removal by sinks, using agreed methodologies. It commits parties to mitigate GHG as far as practicable. Avoid unnecessary vegetation clearance which may sink the GHG. The project proponent has the obligation of reducing the level of greenhouse gas in his locality. 3.4.3 Kyoto Protocol on the reduction of Greenhouse Gas Emissions, 2003 The project proponent has the obligation of reducing the greenhouse gas emissions through the application of all possible measures to reduce emissions. 3.4.4 Basel Convention on Trans‐boundary Movement of Hazardous Wastes, 1989 The Basel Convention on Trans‐boundary Movement of Hazardous Wastes and environmentally sound management of hazardous wastes was acceded to Tanzania in 1993. The objective of the convention is to control illegal disposal of wastes from one country to another. This implies that contractor or project proponent is not allowed to dispose off in the country any hazardous waste from outside the country or vice versa. 3.4.5 Convention on Biological Diversity, Rio de Janeiro, 1992 Tanzania signed the CBD in 1992 and ratified it in March 1996, thereby committing to the conservation and sustainable use of biological diversity. The objective of the Convention on Biological Diversity (CBD; 1992) is to conserve biological diversity, promote the sustainable use of its components, and encourage equitable sharing of the benefits arising from the utilization of genetic resources including by appropriate access to genetic resources and by the appropriate transfer of relevant technologies, taking into account all rights over those resources and to technologies, and by appropriate funding (see www.biodiv.org). Relevant to this project is Article 6 of the CBD, which provides general measures for conservation and sustainable use of 65 biodiversity. Furthermore, the provisions of two treaties resulted from this convention (Nagoya and Katagena Treaties) are adhered to in Tanzania. 3.4.6 Convention on Wetlands, of 1971 in Ramsar, Iran The United Nations established convention on wetlands in 1971 in Ramsar Iran, for the sustainable utilization and control of all human activities which are likely to cause the deterioration and filling of the wetlands. The conventions strictly control human activities such as landfills allocation, over-cultivation, deforestations and any addition of pollutants within all natural and manmade wetlands. The Convention covers the following objectives:(1) Regulation of activities undertaken in areas designated as wetlands; (2) Acquisition of wetlands through purchase or protective easements that prevent certain activities, such as draining and filling; (3) Restoration of damaged wetlands or the creation of new wetlands; and (4) Disincentives to altering wetlands or incentives to protect them in their natural states. Wetland regulation and enforcement will continue to play an important role in the overall wetland strategy of the United States as improvements in programme effectiveness continue to reduce losses. Achieving a net increase in wetlands will require working cooperatively with landowners and communities to encourage and support the restoration and enhancement of wetlands, while at the same time ensuring that the regulatory programme results in no overall net losses. The Article 2 (1):- Each Contracting Party shall designate suitable wetlands within its territory for inclusion in a List of Wetlands of International Importance, hereinafter referred to as "the List" which is maintained by the bureau established under Article 8. The boundaries of each wetland shall be precisely described and also delimited on a map and they may incorporate riparian and coastal zones adjacent to the wetlands, and islands or bodies of marine water deeper than six metres at low tide lying within the wetlands, especially where these have importance as waterfowl habitat. 66 3.4.7 United Nations Convention on International Trade in Endangered Species of Wild Fauna and Flora, 1974. Tanzania ratified this Convention on 29th November 1979. The Convention provides a system of import/export permits to control overexploitation of certain endangered species. Tanzania is also a Party to the Lusaka Agreement, which came into force on 10th December 1996 as a Mechanism for Enforcement of CITES 1995. 3.4.8 International Labour Conventions The Government of Tanzania has ratified the U.N. Convention on the Rights of the Child. Consequently, it has ratified the International Labour Organisation (ILO) Convention No. 59 (Fundamental Conventions, 2002) regarding the minimum age for the admission to employment. The provisions of ILO fundamental rights of workers are; • • • • • Prohibition of child labour, whereby employers are prohibited to employ children below the age of 14 years. Children of 14 years but below 18 years may be employed to do light work which is not harmful to their health and development. The work should not prejudice them from attending school. They are also restricted from work in hazardous conditions. Prohibits all forms of forced labour. Prohibits discrimination at places of work. Supports the right of workers to associate. The Convention about the Prohibition and Immediate Action for the elimination of the Worst Forms of Child Labour, which is known as the” Worst Forms of Child Labour Convention”, was adopted by ILO in 1999 as ILO Convention No 182. The prohibitions include the following:   All forms of slavery or practices such as the trafficking of children and forced labour. Commercial sexual exploitation of children such as use, pro-curing or offering of a child for prostitution. 3.4.9 ILO Conventions on Occupational Safety and Health The ILO Homework conventions Article 4 (1996) speaks about protection of workers in the field of occupational, safety and health. Article 8 is about prohibition of certain substances at work places for safety and health purposes. It asks for measures to protect workers from the risks 67 related to chemical, physical and biological agents at work (Convention, No. 155 of 1981). The convention also speaks about the need to protect the working environment for example air pollution, noise and vibration (Convention No. 148 of, 1977). 3.4.10 Convention on the conservation of migratory species of wild animals (CMS), 1979 The convention on migratory species is a multilateral environmental agreement (MEA), signed 30 years ago and has been in force since 1983.This treaty under the aegis of the United Nations Environment Program (UNEP) aims to facilitate close cooperation on the conservation of migratory species between the countries through which these animals travel on their annual journey. Migratory species in the Malagarasi River system and avifauna that frequent the area fall under this agreement. 3.5 International project Funders Policies, Procedures and Guidelines Basing on the fact that the establishment of the proposed project is to be constructed by TANESCO using funds from Agence Française de Dévelopmement (AFD) and African Development Bank, the World Bank Operation Policies and African Development Bank Environmental and Social Safeguard Polices shall be complied with. The following is the description of the reviewed WB OP and African Development Bank Safeguard Policies in the course of reviewing ESIA study for the proposed 44.8MW HEP project. 3.5.1 African Development Bank (AfDB) Environmental and Social Operational Safeguards The implementation of the proposed project shall comply with requirements of the African Development Bank Operational Safeguards. The Bank has adopted a series of five Operational Safeguards: In compliance with these operational safeguards, the bank requires all borrowers to identify, assess, and manage the potential environmental and social risks and impacts of a project, including climate change issues. Also, it is stated that the borrower or lending institution to set out specific requirements relating to different environmental and social issues, including gender and vulnerability issues, that are triggered if the assessment process reveals that the project may present certain risks. Refer table 7. Table 7: Summary of AfDB Safeguard Policies pertaining to the proposed project Environmental and Social Operational Safeguard Description of the Operational Safeguard 68 Operational safeguard 1: The objective of this overarching Operational Safeguard (OS), along Environmental and social with the OSs that support it, is to mainstream environmental and assessment social considerations including those related to climate change vulnerability into Bank’s operations and thereby contribute to sustainable development in the region. Operational safeguard 2: Involuntary resettlement: land acquisition, Population displacement and compensation This Operational Safeguard (OS) aims to facilitate the operationalization of the Bank’s 2003 Involuntary Resettlement Policy in the context of the requirements of OS1 and thereby mainstream resettlement considerations into Bank operations. It seeks for good planning of resettlement issues in order to avoid long term adverse impacts of the project community livelihoods and their cultural values. This section also emphasizes on consideration of feasible and cost-effective alternatives so as to avoid or minimize adverse impacts of resettlements of project affected people. This project shall comply with this OS because during route selection the residential areas were avoided in order to minimise the effects of resettlement. The OS # 2 objectives are: • Avoid involuntary resettlement where feasible, or minimise resettlement impacts where involuntary resettlement is deemed unavoidable after all alternative project designs have been explored. • Ensure that displaced people are meaningfully consulted and given opportunities to participate in the planning and implementation of resettlement programmes. • Ensure that displaced people receive significant resettlement assistance under the project, so that their standards of living, income-earning capacity, production levels and overall means of livelihood are improved beyond pre-project levels. • Provide explicit guidance to borrowers on the conditions that need to be met regarding involuntary resettlement issues in Bank operations to mitigate the negative impacts of displacement and resettlement, actively facilitate social development and establish a sustainable economy and society. 69 • Guard against poorly prepared and implemented resettlement plans by setting up a mechanism for monitoring the performance of involuntary resettlement programmes in Bank operations and remedying problems as they arise. Also, the OS # 2 on Compensated clearly stipulated that displaced people are provided with targeted resettlement assistance with the aim of ensuring that their standards of living, income-earning capacity, production levels and overall means of livelihood are improved beyond pre-project levels. To this end, a comprehensive livelihood improvement program is formulated and implemented as part of the Resettlement Action Plan. Strategies to improve livelihoods may involve providing access to training through appropriate technologies. The affected populations are offered a range of different compensation package, resettlement assistance, and livelihood improvement options, as well as options for administering these measures at different levels (e.g., family, household and individual), and the affected persons themselves are given the opportunity to express their preferences. This option-based resettlement planning is part of a development approach that aims to ensure that the affected populations are able to reconstruct their production foundations and become self-sustaining producers and wage earners. In addition, this Operational Safeguard stated that land, housing, infrastructure and other compensation should be provided to the adversely affected population, indigenous groups, ethnic minorities, and pastoral people who may have usufruct or customary rights to the land and other resources taken for the project. The proposed project shall ensure that requirements of this OS is complied with during land acquisition and compensation of project affected persons. Operational safeguard 3: Biodiversity, renewable resources and ecosystem services This Operational Safeguard (OS) outlines the requirements for borrowers or clients to: identify and implement opportunities to conserve and sustainably use biodiversity and natural habitats, and 70 Observe, implement, and respond to requirements for the conservation and sustainable management of priority ecosystem services. The OS also seeks to conserve biological diversity and ecosystem integrity by avoiding or, if avoidance is not possible, reducing and minimising potentially harmful impacts on biodiversity Operational safeguard 4: Pollution prevention and control, hazardous materials and resource efficiency This OS aims to manage and reduce pollutants resulting from the project including hazardous and non-hazardous wastes so that they do not pose harmful risks to human health and the environment. For instance in ensuring pollution prevention, the client or borrower at the early project stages shall determine the potential hazardous materials to be used or generated throughout the lifecycle of the project and considers alternatives that use or generate less hazardous materials Operational safeguard 5: This OS outlines the main requirements for borrowers or clients to Labour conditions, health protect the rights of workers and provide for their basic needs. The and safety OS insists on rights of workers, their safety, good relationships and importance of assessing health and safety situations at the working environment Source; AfDB Environmental Safeguard Policy, 2004 3.6 World Bank Safeguard Policies The World Bank environmental and social conservation policies include both Operational Policies (OP) and the Bank’s Procedures (BP). Conservation policies are designed to protect environment and society against potential negative effects of projects, plans, programs and policies. Environmental policies applicable to the project are the following: • • • • • OP 4.01 Environmental Assessment, including public participation; OP 4.04 Natural Habitats; OP 4.36 Forests; OP 4.12 Involuntary Resettlement; OP 4.10 Indigenous People; 71 • • OP 4.11 Physical Cultural Resources; OP 17.50 Public Disclosures. 3.6.1 OP 4.01 Environmental Assessment The purpose of OP 4.01 is to make sure that projects funded by the Bank are environmentally feasible and viable, and that decision making are improved through appropriate analysis of actions and their probable environmental impacts (OP 4.01, para 1). This policy is triggered if the project is likely to cause potential (negative) environmental risks and impacts in its zone of influence. OP 4.01 covers impacts on the physical environment (air, water and land); life environment, health and safety of populations; cultural and physical resources; and environmental concerns at the trans-boundary and world levels. Social aspects (involuntary resettlement, indigenous populations) as well as natural habitats, pest control, forestry and safety of dams are addressed by separate policies with their own requirements and procedures. The Bank undertakes environmental screening to determine the appropriate extent and type of environmental assessment to be conducted. The Bank classifies the proposed projects into categories, depending on the type, location, sensitivity, and scale of the projects and the nature and magnitude of their potential environmental impacts. The categories are:• Category A: Projects with potential significant adverse social or environmental impacts that are diverse, irreversible or unprecedented; • Category B: Projects with potential limited adverse social or environmental impacts that are few in number, generally site-specific, largely reversible and readily addressed through mitigation measures; • Category C: Projects with minimal or no social or environmental impacts. In the present case, the project should be classified in the category A. The environmental assessment will thus have to examine the project's potential negative and positive environmental impacts and recommend any measures needed to prevent, minimize, mitigate, or compensate for adverse impacts and improve environmental performance. For all Category A and B projects, during the environmental assessment process, project-affected groups and local NGOs have to be consulted about the project's environmental aspects and their views must be taken into account. The consultations must be initiated as early as possible. These groups should be consulted shortly after environmental screening and before the terms of reference for the EA are finalized; and once a draft EA report is prepared. Consultations can also be conducted throughout project implementation to address related issues that affect them. For meaningful consultations, all relevant materials have to be provided in a timely manner prior to 72 consultation and in a form and language that are understandable and accessible to the groups being consulted. 3.6.2 OP 4.04 Natural Habitats The conservation policy 4.04 aims at protecting natural habitats and their biodiversity and ensuring sustainability of services and products that natural habitats supply to human societies. In principle, the World Bank refuses to finance what may be perceived as causing significant damages in whatever Critical Natural Habitat (CNH). It seeks as much as possible to avoid financing, through projects, conversions or degradations of natural habitats (non-critical), or at least without reconsidering the project even in its size or its extension, or without putting in place acceptable mitigation measures, such as establishing a protected area or strengthening effective protection of CNHs. Should the project involve the significant conversion or degradation of natural habitats that are not considered as critical, and if there is no alternative solution for the project and its location, and if the complete analysis clearly shows that the project’s overall benefits are significantly higher than the environmental costs, then the WB can finance the project on condition that it includes appropriate mitigation measures. The World Bank defines natural habitats as land or water zones where biological communities sheltered by ecosystems are in majority made of indigenous plant and animal species, and where human activity did not fundamentally modify the zone’s main ecological functions. CNHs are defined as:• • • Existing protected areas and areas officially proposed by governments to be classified among «protected areas», e.g. reserves that meet the criteria of the International Union for Conservation of Nature (IUCN) classifications; Areas traditionally recognized as protected by traditional local communities; Sites maintaining vital conditions for the viability of such protected areas. o The proposed project shall not traverse in the areas with natural habitats as most of the route is cultivated areas and some areas are cleared due to charcoal burning 3.6.3 OP 4.36 Forests The Operational Policy 4.36 is about forest protection. The major objectives of the policy are:    Sustainable management of forests; Conservation of wet forest zones; Respect for rights of communities in using their traditional forest zones in a sustainable manner. 73 The Bank does not finance projects that, according to it, would involve significant conversion or degradation of critical sections of forests or essential (critical) natural habitats attached to them. Should the project involve the significant conversion or degradation of natural forests or associated natural habitats that are not considered as critical, and if there is no alternative solution for the project and its location, and if the complete analysis clearly shows that the project’s overall benefits are significantly higher than the environmental costs, then the Bank can finance the project on condition that it includes appropriate mitigation measures. It is expected that the project will cross the scattered patches of wooden glass land and patches of heavily disturbed miombo woodland. Most land to be affected is cultivated land. Thus the project won’t affect significantly any forested areas. 3.6.4 OP. 4.12 Involuntary Resettlement The World Bank Resettlement Policy (OP 4.12) main objectives are to:• • • • Avoid or minimize involuntary resettlement whenever feasible; Develop resettlement activities as sustainable development programs, providing sufficient investment resources to enable the displaced persons to share in project benefits; Meaningfully consult displaced persons and give them opportunities to participate in planning and implementing resettlement programs; Assist displaced persons in their efforts to improve their livelihoods and standards of living or at least to restore them, in real terms, to pre-displacement levels or to levels prevailing prior to the beginning of project implementation whichever is higher. This policy is usually applied for projects that require international financing. The World Bank OP 4.12, Annex A (Paragraphs 17-31), describes the scope (level of detail) and the elements that a resettlement plan should include. These include objectives, potential impacts, socioeconomic studies, legal and institutional framework, eligibility, valuation and compensation of losses, resettlement measures, relocation planning, community participation, grievance management procedures, implementation schedule, costs and budgets, and monitoring and evaluation. WB OP 4.12.(6a) requires that the resettlement plan includes measures to ensure that displaced persons are (i) informed about their options and rights, (ii) consulted on, offered choices among and provided with technically and economically feasible resettlement alternatives, and (iii) provided prompt and effective compensation at full replacement costs. 74 WB OP 4.12 (8) requires that particular attention should be paid to the needs of vulnerable groups among those displaced such as those below the poverty line, landless, elderly, women and children, as well as indigenous populations and minorities. WB.OP 4.12 (13 a) stipulates that any displaced persons and their communities and any host communities receiving them should be provided with timely and relevant information, consulted on resettlement options and offered opportunities to participate in planning, implementing and monitoring the resettlement. WB OP4.12 (12a) states that payment of cash compensation for lost assets may be appropriate where livelihoods are land-based but the land taken for the project is a small fraction (less than 20%) of the affected asset and the residual is economically viable. WB OP4.12 Para (6 b & c) state that in case of physical relocation, displaced persons should be (i) provided assistance (such as moving allowances) during relocation; and (ii) provided with residential housing, or housing sites, or, as required, agricultural sites for which a combination of productive potential, location advantages, and other factors is at least equivalent to the advantages of the old site. In addition displaced persons should be offered support after displacement, for a transition period, based on a reasonable estimate of the time likely to be needed to restore their livelihood and standards of living; and provided with development assistance in addition to compensation measures such as land preparation, credit facilities, training, or job opportunities. WB OP4.12 Para 13 (a) requires that appropriate and accessible grievance mechanisms are established to sort out any issues arising. 3.6.5 OP/BP 4.10 Indigenous Peoples The objectives of this policy are to ensure that:    The development process fosters full respect for the dignity, human rights, and cultural uniqueness of indigenous peoples; Adverse effects during the development process are avoided, or if not feasible, ensure that these are minimized, mitigated or compensated; and Indigenous peoples receive culturally appropriate and gender and intergenerational inclusive social and economic benefits. 3.6.6 OP/BP 4.11 Physical Cultural Resources This policy assists in preserving PCRs and helps reduce chances of their destruction or damage. The policy considers PCRs to be resources of archaeological, paleontological, historical, architectural, and religious (including graveyards and burial sites), aesthetic or other cultural 75 significance. According to this policy, an investigation and inventory of PCRs likely to be affected by the project, the documentation of the significance of such PCRs and assessment of the nature and extent of potential impacts on these resources have to be conducted. Since many cultural resources are generally not well documented, or protected by law, consultation is an important means of identifying PCRs. Such consultations include meetings with project-affected groups, concerned government authorities and relevant non-governmental organizations. If PCRs are found during the inventory, a management plan must be prepared. This management plan includes measures to avoid or mitigate any adverse impacts on PCR, provisions for managing chance finds, any necessary measures for strengthening institutional capacity for the management of PCR, monitoring system to track the progress of these activities. Finally, whether or not a PCR is found, provisions for managing chance finds must be implemented to ensure that PCR that may be discovered is properly handled. 3.6.7 BP 17.50 Public disclosures According to the World Bank’s policy on disclosure of public information, whenever an environmental assessment is required by the World Bank, an environmental assessment report must be prepared as a separate, free-standing document. This report must then be available at a public place accessible to project-affected groups and local NGOs in accordance with OP/BP 4.01, Environmental Assessment. In addition, whenever a Resettlement Instrument (RI) or Indigenous Peoples’ Development Plan (IPDP) is required by the World Bank, an RI or IPDP must be prepared as a separate, free-standing document. The document must then be available at a place accessible to, and in a form, manner and language understandable to the displaced or affected people and local NGOs. 3.7 Pollution prevention and Abatement Handbook Guidelines The World Bank has also issued pollution prevention and abatement handbook guidelines that deal with various aspects including hydropower plants, thermal power plants, polychlorinated Biphenyls (PCBs) general environmental and environmental monitoring guidelines. The purpose of these guidelines is to ensure that no activity is conducted to pollute the environment and when avoidance is not possible then pollution should be within the tolerable limits. In these guidelines, pollution limits for some aspects have been provided. Those limits will be referenced during the implementation and operation of the proposed project as far as the pollution prevention is concerned. 76 3.8 Climate Change Tanzania has signed the Kyoto accord by which she accepts to participate in this international effort to reduce Greenhouse Gas (GHG) emissions (United Republic of Tanzania, 2003). The power from hydropower can increase power reliability and increased access to electricity can reduce the use of fuel generators particularly private ones thus reduce the amount of air emission. Also improved access to electricity will also reduce the use of kerosene for lighting. Also considering the fact that hydropower is among the clean energies that are environment friendly, the proposed project shall reduce emission of greenhouse gases resulting from diesel power generation plants currently operation in Kigoma region and other north western regions. 3.9 Institutional Framework: Actors in Environment The Environmental Management Act Cap 191 provides an institutional set-up for environmental management with details of responsibilities at national, regional, district, and village levels (including a street, which is the lowest administrative level). The institutional set up involves the following main decision making points: i) National Environment Advisory Committee; ii) Minister Responsible for Environment in the Vice President’s Office; iii) Director of Environment (DOE); iv) National Environment Management Council (NEMC); v) Sector Ministries; vi) Regional Secretariats; and vii) Local Government Authorities (City, Municipal, District, and Town Councils; Township; Hamlet (Kitongoji); Ward; Street (Mtaa); and Village). The Vice President’s Office (VPO) is the main regulatory organ and responsible for coordinating environmental management in Tanzania. Within the VPO, Division of Environment and National Environmental Management Council are responsible for policy development and enforcement respectively. Similarly, other sector ministries and agencies are equally involved in implementing environmental policy objectives. The Environmental Management Act Cap 191 outlines in detail environmental management processes in Tanzania. 3.9.1 National Environmental Advisory Committee The National Environmental Advisory Committee is formed following directives of the Environmental Management Act (Cap 191). The Committee is responsible for among others: 77 i) Examining any matter which may be referred to by the Minister related to the protection and management of the environment and recommend to the Minister of sector actions necessary to be taken to achieve the objective of the Act; ii) Advising the Minister on any matter in connection with restocking and limitation of stock; iii) Making recommendations to the Minister where there is degradation of the environment. 3.9.2 The Minister of Environment The Minister of Environment is the custodian and the main actor with respect to all environmental matters according to the provisions of the Environmental Management Act. The Minister oversees the implementation of the Act and reports to the Cabinet and the parliament on the state of environment and sets out rules, regulations and guidelines for the implementation of the Act. 3.9.3 Director of Environment (VPO) According to the Act (Cap 191), the Director of Environment in the VPO is responsible for policy development and advising the Minister for Environment on environmental issues that have policy implications. The Director is responsible for: i) Coordinating various environmental management activities being undertaken by other agencies and promoting the integration of environment consideration into development policies, plans, programmes, strategies, projects and undertakes strategic environmental assessment in order to promote sustainable development; ii) Advising the Government on legislative and other measures for the management of the environment or the implementation of the relevant international agreements with respect to the environment; iii) Monitoring and assessing activities, being carried out by relevant agencies in order to ensure that the environment is not degraded by such activities; iv) Preparing and issuing a report on the state of the environment in Tanzania; v) Coordinating issues relating to articulating and implementation of the National Environmental Policy. 3.9.4 The National Environment Management Council (NEMC) NEMC was formed by the Act of Parliament No. 19 of 1983 to perform an advisory role to the government on matters related to the environment. This role was changed and the 1983 Act was repealed by the Environmental Management Act Cap 191 (Act 20 of 2004), which drastically and radically changed the role of NEMC. 78 According to the Act (No. 20 of 2004), the Council shall undertake the following activities:i) Enforcement, compliance, review and monitoring of environmental impact assessment, and in that regard, NEMC is also required to facilitate public participation in environmental decision making, exercise supervision and coordination over all matters related to the environment; ii) Prepare and submit to the Minister a bi-annual report concerning how it has implemented the provisions of the act; iii) Carry out environmental audits; iv) Carry out surveys which will assist in the proper management and conservation of the environment; v) Undertake and coordinate research, investigation and surveys in the field of environment; vi) Review and recommend for approval environmental impact statements; vii) Enforce and ensure compliance by the national environmental quality standards; viii) Undertake in collaboration with relevant sector environmental education programmes; ix) Publish and disseminate manuals, codes or guidelines relating to environmental management and prevention or abatement of environmental degradation. x) NEMC is led by a Director General and governed by a Board of Directors, whose Chairman is appointed by the President. 3.9.5 Sector Ministries The Act directs that each Ministry must have Sector Environmental Section which shall have the following functions: i) Ensure compliance by the sector Ministry with the requirement of the Environmental Management Act; ii) Ensure all environmental matters, in other written laws falling under sector ministry, are implemented and report of their implementation is submitted to the Director of Environment; iii) Liaise with Director of Environment and the Council on matters related to the environment. Each sector environmental section is required to:i) Advise on and in collaboration with other bodies, implement the policies on environmental management; ii) Coordinate activities related to the environment within the Ministry; iii) Ensure environmental concerns are integrated into the Ministry or departmental development plans and are implemented to protect the environment; iv) Promote public awareness on environmental issues; 79 v) Refer to the Council any matter related to the enforcement for the purpose of this Act; vi) Oversee the preparation and implementation of EIA required for investment in the sector; vii) Ensure compliance with various regulations, guidelines and procedures; viii) In collaboration with the Ministry responsible for local government, provide environmental advice and technical support to district level staff working in the sector; ix) Prepare and submit to Director of Environment bi-annual report concerning the state of the segment of the environment and the measures taken by that sector to maintain or improve the environment; x) Review environmental laws falling under the sector. xi) Each Sector environmental section is led by the Sector Environmental Coordinator who will be responsible for coordinating sector based environmental issues and reporting to the Director. Other institutions as per the Act include regional secretariat, local government authorities that have responsibilities to manage the environment at local level. The proposed development will touch several institutions and organizations. 3.9.6 Energy Sector The mission of the Ministry of Energy and Minerals in the energy sector is to provide an input into the development process of the country through establishment of a reliable and efficient energy production, procurement, transportation, distribution and end use system in an environmentally sound manner (The Tanzania National Website, 2010). Tanzania’s power sector is dominated by a single vertically integrated national utility; Tanzania Electricity Supply Company Ltd (TANESCO), a parastatal organization established in 1964 and is wholly owned by the Government of Tanzania. The Ministry of Energy and Minerals regulates the operations of TANESCO. The Company's core business is generation, transmission, distribution and sale of electricity to the Tanzania mainland and bulk power supply to the island of Zanzibar. However, the new Energy Policy of Tanzania allows IPPs to generate electricity from different sources including new and renewable sources of energy, particularly for the rural population of Tanzania. 80 CHAPTER FOUR: ENVIRONMENTAL AND SOCIAL BASELINE This chapter provides physical, biological and socio-economic characteristics pertaining to the core project area and area of influence for the construction of the proposed project. Information provided in this chapter will be superimposed in the project concept and components for impact identification, evaluation and development of mitigation measures during the impact assessment. 4.1 Physical Environmental Characteristics 4.1.1 Geographical location Uvinza district council lies between latitude 50 00’ and 60 55’S and longitude 290 35’ to 31030’ E. The district borders with Kasulu district, kibondo in the North, Tabora/Katavi region (Kaliua district and Katavi) in the East, Katavi region (Mpanda district) in the South, kigoma district and the country of Democratic Republic of Congo (DRC) in the West. 4.1.2 Administrative structure The district is divided into three divisions, namely Ilagala, Buhingu and Nguruka. There are also 14 wards, 45 villages and 232 sub-villages (Hamlets). Climatically, the District is divided into three zones – The high land, the low land zones and miombo woodlands. On the other hand, Lake Tanganyika has positive influence on rainfall pattern and distribution. 4.1.3 Weather and climatic conditions. Climatically the district is divided into three zones namely the highland, low land and the miombo woodlands. The rainfall distribution ranges from 600 and 1600 mm seasonally; and the temperatures range from 220 – 320 C. The zones are divided according to the types of soils, crops, and amount of rainfall. 4.1.3.1 Malagarasi River and Catchment The source of the Malagarasi River lies in the mountainous region, north of Kigoma and close to the Burundi border, at an altitude of 1750 m. From its headwaters, it flows in a north-easterly direction through hilly and mountainous landscape, before it turns southwards into the flatter and undulating areas east of the Kasulu-Kibondo road. In this reach, the gradient is gentle and the river flows in large meanders, before entering the Malagarasi swamps in the south-eastern 81 part of the region. The Malagarasi swamps, which lie upstream of Uvinza, are a distinct hydrological feature of the basin, exerting a controlling influence on runoff. The wetlands can swell during the rainy season to as much as 15 000 km 2, about 10 % of the catchment that drains to them. A large portion of the entire catchment drains through the swamps. At this point, the Moyowosi River, which drains the north-east and north regions of the catchment, joins the Malagarasi in the seasonal lake of Nyamagoma. From here the river runs some 50 km south-east to where the Ugalla River converges with the main river. The river then runs directly west, picking up the Ruchugi, a small tributary that drains a minor catchment to the north; before breaking through the Masito Escarpment, to form rapids and waterfalls (Igamba) on its final run to Lake Tanganyika. Much of the drainage basin is flat, and it is not until the river emerges from the floodplains upstream of Uvinza, on its final descent to Lake Tanganyika, that rapids become a major component of the system. This lower section of the river was a headwater tributary of the Congo River, until tectonic movements in the Miocene opened the East African Rift. The main Igamba Falls, the focus of the proposed hydroelectric scheme, is the only major falls along the length of the river. The falls are an unusual habitat for the area and are of scientific interest. 82 Figure 15: Malagarasi catchment, to the proposed hydro-plant scheme, showing location of swamps (Source ESBI Study report) 4.2 Agro-Ecological zones The District can be divided into four Agro economic zones 4.2.1 Lake Shore Zone It is an arrow strips between the mountains of the interior and the Lake Tanganyika. It lies within the western rift valley with an elevation ranges from about 800 – 1,700 m above sea level. Annual rainfall varies from 1000mm – 1,400 mm with dry period of four months (June – September). Soils along the lake shore are shallow, well drained, dark reddish brown sandy loams. In-land the soils vary from deep dark red sandy clay loams to dark grey clay loams and are moderate fertile. Throughout the zone fishing used to be the most important economic activity, but now crop 83 production has taken the leading role. Major crop grown are cassava, oil palms, beans, maize and paddy. Oil palms and paddy are mainly found in the valleys. 4.2.2 Miombo Woodland The zone lies between 1,000mm – 1,200 m above sea level with annual rainfall range from 600mm – 1,000 mm. Soils on the upper slopes and crests are mainly deep, well drained dusky red sand loams to sand clay loams lying over dark clay loams. The lower slope and depressions have imperfectly drained dark grey to black clays. Major crops cultivated are paddy, tobacco, beans, groundnuts, maize, cassava, sweet potatoes and oil palms. Oil palms and paddy are mainly grown in foot valleys. Major livestock kept include goats, cattle and chicken. 4.2.3 Intermediate Zone It lies between the densely populated north highland and the sparsely populated miombo woodland. The elevation is 1200 – 1500 m above sea level with annual rainfall ranging between 850mm – 1500 mm. It has predominant annual streams and rivers. Soils are mainly dusky red to darkish red sandy clay loams which are moderately fertile. Major crops grown are maize, beans, oil palms, bananas, tobacco and fruits e.g. Pineapples. 4.2.4 Southern Highland It is a hilly zone steeply dissected by streams that drains into Lake Tanganyika. Elevation rises from 1500 – 2462 m above sea level. Farming in this zone is very minimal because there are few human settlements i.e there is only one village with about 200 farm families. However this zone has high potential for coffee production. In general, rains start in late October and end in May with dry spell of almost two weeks in January. Generally there is constant and enough rain in the district. Planting of cash and food crops is done simultaneously in October and November. Also in February short term crops (such as beans, sunflower, short varieties of maize and potatoes) can be planted. 84 4.3 Hydrology 4.3.1 Run – off Runoff, and therefore river flow, is highly dependent on the amount of rainfall in the catchment. The principle gauging station used to determine river flow is number 4A9, situated on the Malagarasi at Mbelagule, some 10 km upstream from the dam site. The station has been gauged with an automatic recorder from late 1975 until 2008, providing a more or less continuous discharge series. Discharge measurements from this station can be used for the dam, without transformation, as there is very little runoff between the gauging station and the dam site. 4.3.2 Annual Discharge During Malagarasi Hydropower Project – Kigoma Region Feasibility Report, Norconsult August 1983 the annual discharge at 4A9 was estimated to be 160 m 3/s, and at that time the largest observed flood was 1000 m3/s. In 1998 the river experienced an extreme flood of approximately 3000 m3/s and a correspondingly high annual discharge of almost 800m 3/s. A revision of the hydrological basis was therefore performed as a part of Malagarasi Stage II. At that time, however, the low flow part of the rating curve was considered unreliable, and an alternative calculation of low flows was made. Therefore, as a part of Malagarasi Stage III, a revised rating curve was calculated by use of surveyed river profiles (according to Stage III Feasibility Study). The conclusion is that average flow at the Malagarasi Stage III is 144m 3/s. The design flood with a return period of 1000 years is estimated to be around 11 000 m 3/s, but the uncertainty of the estimate is large. As an indication of low flow, the 90 % firm flow has been calculated to 24.5 m3/s (it had been calculated at 16.4m3/s during the Stage II Feasibility Study). 4.4 Water quality Two water Samples were taken to assess water chemistry along the length of the lowermost to the uppermost sections of the Malagarasi River. The results indicated that pH was slightly acidic at the uppermost sections of the river. The remainder of the river was more basic. This change in pH was attributed to high respiration rates and leaching of organic acids in the Malagarasi wetland upstream, while dissolution of carbonates and other buffering of minerals resulted in somewhat alkaline water downstream. Conductivity was moderate for most parts of the river sections, with increasing temperatures towards the downstream direction. Nitrate (NO3) concentrations were moderately low in all the samples. The highest NO 3 values recorded were 0.0mg/L in the upstream sample and 0.05mg/L in the downstream sample. All samples could be considered to have abundant dissolved nitrogen available to the biota. In the 85 mid-fall area, the RBA team suspected that low concentrations due to rapid uptake of nitrogen to support plant growth is the result of abundant and rapidly growing algal mats on shallow rock surfaces. More result are shown on figure 16 Figure 16: Water samples analysis result 4.5 Air Quality, Noise, Dust and Vibration at Proposed project areas. 4.5.1 Measurement of Baseline Sound and Vibration Data for Malagarasi stage III HPP Baseline Sound and vibration data were measured at identified three locations which are the powerhouse proposed location, switch yard proposed location and Residential area proposed location 4.5.1.1 Noise level Noise level measurement was done by using a digital sound level meter with measurement range of 30dBA to 130dBA and an accuracy of ±1.5. Measurement points were chosen so that the maximum levels of the noise source are obtained. The instrument was held between 1.2m and 1.5m above the ground and about 3.5m from acoustically reflecting surface whenever they were present. Three (3) points were selected and a minimum of three (3) readings were recorded at each location. A mean value was calculated for the three readings taken and the results were 86 then presented in tabular form. TBS limit and WHO/IFC guideline table was presented in discussion of results. • Results and Discussion The results are shown in Table 8. The maximum recorded noise level was 38.9dBA at proposed power house site which is close to the Igamba III water falls, while the minimum recorded noise levels was 31.2dBA at proposed location of residential houses (Accommodation). Currently the main contributors of the recorded noise levels were the river flows. Noise levels recorded at every location selected were below the limit of TBS as shown in Table 3. Location P04 had noise level just above WHO/IFC limit (shown in Table 3) with a mean of 70.7dBA, but all the other points were within allowable limits. However, all five points are with in allowable limits of TBS. Table 8: Tabulated Noise Level Measurement Results POINT/LOCATION READING 1 READING2 READING 3 (dBA) (dBA) (dBA) P01 38.1 39.5 39.2 Power house location. P02 34.5 33.6 34.8 Switch yard proposed location P03 30.6 31.4 31.8 Residential houses Proposed location. (Source: Field Visit, August 2017) MEAN (dBA) 38.9 34.3 31.2 Table 9: Tabulated Noise Level Standards STANDARD VALUE DURATION (dBA) TBS: 85 8.00 hours Maximum Permissible Noise level WHO\IFC: Noise level guideline 70 Daytime (07:00-22:00) 70 Nighttime (22:00-07:00) (Source: TBS, 2007 and WHO/IFC, 2007) 87 4.5.1.2 Vibration Levels Measurements Measurement for vibration levels were taken by using VM-6380 3-Axis 3D Digital Vibration Meter Tester with serial number N725955 which provides readings for vibration acceleration (A), vibration velocity (V) and vibration displacement (DISP) to ensure precision of the measured values. It has the following Measurement Range: • • • • • Velocity:0.01-400.0 mm/s 0.000-16.00 inch/s true RMS Acceleration:0.1-400.0 m/s² 0.3-1312 ft/s² 0.0-40g equivalent peak Displacement:0.001-4.000mm 0.04-160.0 mil equivalent peak-peak Frequency Range for Measuring:10Hz to 10kHz Accuracy 5% of reading + 2 digits Units set were in m/s2, mm/s and mm for acceleration, velocity and displacement respectively. The instrument was set to measure directly in XYZ in order to get peak-to-peak values. An average value is calculated from each of the three readings measured at each point/location selected. The average value of the readings is then compared with TBS and WHO\IFC standards. • Results and Discussion Five measuring points were selected for measuring vibration levels at the bottling plant. There were no vibrations levels detected at all three measured points since the proposed site interior with few human activities, all locations where measurements were done are within the standard limits shown in Table 10. Table 10: Tabulated Noise Level Measurement Results POINT/LOCATION Parameters READING 1 READING2 READING 3 (dBA) (dBA) (dBA) 2 P01 A (m/s ) 0.00 0.00 0.00 Power house V (mm/s) 0.00 0.00 0.00 location. DISP (mm) 0.00 0.00 0.00 2 P02 A (m/s ) 0.00 0.00 0.00 Switch yard V (mm/s) 0.00 0.00 0.00 proposed location DISP (mm) 0.00 0.00 0.00 2 P03 A (m/s ) 0.00 0.00 0.00 Residential houses V (mm/s) 0.00 0.00 0.00 Proposed location. DISP (mm) 0.00 0.00 0.00 (Source: Field Visit, August 2017) 88 MEAN (dBA) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 STANDARD Table 11: Vibration Standards (Whole body vibration) DAILY EXPOSURE DAILY EXPOSURE DAILY EXPOSURE LIMIT VALUE ACTION VALUE LIMIT PERIOD TBS 1.15m/s2 4.6 0.5m/s2 (Source: TBS, 2007) 8 hours Geology and Soil 4.6.1 Geology The rocks in the Kigoma Region are Bukoban series, consisting of sandstones, mudstone and volcanic rocks. The bedrock in the proposed Malagarasi hydroelectric power project area is part of the Precambrian Bukoban System that comprises the sedimentary groups deposited over a wide area in western Tanzania. The bedrock is made up of a various types of sedimentary rocks, including conglomerates, sandstone, shale, limestone and greywacke. Basalts and Andesites are also found to the west and north of the project area. The Bukoban sedimentary rocks have been subdivided into groups according to type and appearance. One of these groups is the Malagarasi Sandstone Series. This group is considered to be one stratigraphical unit with general similarities between formations. It has been divided in the following formations: the Upper Malagarasi Sandstone, Nyanza Shale, Middle Malagarasi Sandstone, Kosio Shale, Lower Malagarasi Sandstone and Kondwe Shale. The sandstones are mainly coarse to medium grained orthoquartzites and occasional arkose and feltspatic sandstone are also present. The sandstones are thick bedded and cross-bedding is mainly found in the Middle and the Upper Malagarasi Sandstone layers. The project area is located on the Upper Malagarasi Sandstone formation. The southern boundary of the formation is observed to lie between the Masangwe Hills and the Magunga area. The formation then stretches northwards to beyond the Igamba Falls on the Malagarasi River. The Upper Malagarasi Sandstone is generally medium to coarse grained friable sandstone, occasionally with pebble bands of quartz and/or quartzite pebbles. Bedding and jointing is prominent in the formation and because of weathering, rectangular blocks are often found in the uppermost section close to the surface. Potholes, circular erosion formations mainly formed in floods and high water flows, are found on the surface of the riverbed (Figure 17) Porous and fractured river bed at the Main Igamba Falls). Potholes, in geology, are cylindrical pit formed in the rocky channel of a turbulent stream. It is formed and enlarged by the abrading action of pebbles and cobbles that are carried by eddies, or circular water currents that move against the 89 main current of a stream. Potholes are most commonly found at the bottoms of eddies in rivers and in plunge pools below cataracts; sometimes potholes in a rock outcrop indicate the former site of a rapid or cataract. Due to potholes and permeable vertical and horizontal cracks the rock mass is expected to be highly permeable close to the surface. The sandstones observed at the project site can basically be divided into two types with respect to colour and grain size. Red, pinkish sandstone interlaced with white sandstone and more coarse grained white sandstone and red/pinkish sandstone (arkose/feltspatic sandstone). The most prominent type is red/pinkish sandstone, probably arkose and/or feltspatic sandstone. The degree of fracturing and rock porosity may vary between different sections of the cascade. This can be seen when comparing the main Igamba Falls with the Lower Igamba Falls. During the low flow period the river that flows down the lower rapids and Lower Igamba Falls appears as a normal river and flows over the river bed. In contrast, at the Main falls the river literally disappears into the river bed and is discharged 200 m later back into the river (See Figure 18 which illustrates this phenomenon). The differences in river bed/rock porosity may explain differences in mollusc distribution and densities. Figure 17: Porous and fractured river bed at the Main Igamba Falls 90 Figure 18: Characteristic potholes found in sandstones within the project area (source: site visit, august 2017) 4.6.2 Soil Soil is divided into four types namely sandy, clay, sandy loam, and clay loam. Due to frequent cultivation of land to some areas, there is soil infertility. In order to overcome the problem of soil infertility, farmers are using composite manure as well as industrial fertilizers. The topsoil comprises neogen and quaternary soils. The soils in the river basin of the project area are dominated by deep, well drained soils with dark reddish brown fine sandy loams, especially close to the shore of Lake Tanganyika. In waterlogged areas, the soils are black and clayey, with a high proportion of sand in the swampy fringes. The soils in this area are fertile due to the high proportion of sand and silt. At higher altitudes, the soils are dark reddish clay loams with fairly good internal drainage. Most of the major villages are located in the area covered with good fertile soils. These soils (haplic nitisols, dystric calcisol, and ferralic cambisols) are perhaps the most inherently fertile of the tropical soils because of their high nutrient content. They are exploited widely for plantation agriculture. The ferralic cambisols have favourable aggregate structure and high content of 91 weatherable minerals therefore they are usually exploited for agriculture subject to the limitations of terrain and climate. The most perceived environmental problems in the Malagarasi Catchment include the loss of soil fertility, soil erosion and reduced crop yield. The hillsides on both sides of Malagarasi River cause weatherable minerals in the ferralic cambisols to be susceptible to soil erosion thus causing deposition downstream. Nitisols are found mainly in eastern Africa at higher altitudes and are technically defined by a significant accumulation of clay. The Malagarasi River catchment altitude ranges between 800 and 1600 m above mean sea level with an average of 1200 m.a.s.l. The fine sediments of clay sandy particles of nitisols can be eroded from these high altitudes of the hills and deposited downstream. Agriculture and deforestation in the catchment area results in an increase in sediment loads in the river because of soil erosion Figure 19: Malagarasi Basin soil map (Source: FAO) 92 4.7 Land Cover and Use The catchment is dominated by woodland (48.8 %). During the last decade and a half, there has been considerable settlement into the basin and expansion of arable agriculture and natural resource harvesting such as charcoal production (based on Google imagery). This indicates a high degree of pressure on the basin resources and the likelihood of high erosion rates in the upper basin, the protection of the mid basin wetlands as a silt/sediment/nutrient trap is essential. Arable land area is estimated to be more than 10,150 km2 of which only 18 percent is developed. Total area under agricultural farming is estimated to 1,900 Km 2, national parks of Mahale are 5,113.354 Km2 and natural forest reserves occupy 494,835.4 ha. 4.7.1 Land Cover and Use at Igamba Falls Stage III and the Direct Impact Zone The woodland is sparse along the river banks, at Stage III and downstream. All vegetation types, particularly on the right bank, are relatively disturbed due to recent past arable agriculture 4.8 Biological baseline Preliminary findings of the biodiversity survey of the project area and surroundings indicate that the area potentially very rich in biodiversity. This is not surprising finding since the area is located in the Albertine Rift System which a centre of endemism. However, the area is highly disturbed by human settlements and activities such as farming, livestock herding, tree cutting for timber and poaching. Initial data suggest that there are many species of conservation concern though most will probably not be directly affected by the project activities. Species of special concern including the Igamba goby Cichlid, Orthochromis sp. and Igamba Suckermouth, Chiloglanis sp. were consistently observed in site while the Igamba snail (Gastropod mollusc) was not observed in site. 4.8.1 Flora The vegetation of the project area is strongly influenced by the river and alluvial soils. The proposed project area is mainly covered by Riparian woodland, Mixed Miombo woodland and Miombo Woodland on flat terrains • Riparian Woodland 93 Riparian woodland habitat (riverine forest) is relatively small in coverage of the project area when compared to other habitats. ). Riparian woodland is dominated (in descending order of relative dominance) by Diplorrhynchus condylocarpon, Cyanometra cf. alexandri, Combretum molle, Brachystegia spiciformis, Annona senegalensis, Combretum adenogonium, Baphia panctulata, and Pterocarpus tinctorius. Given its location on very steep and rocky slopes and/or cliffs overhanging the main river, this habitat is the least disturbed Figure 20: Riverine forest along River Malagarasi (Source: Site visit, August 2017) • Mixed Miombo woodland The proposed project area is covered mainly by the wet Miombo woodland except along the Malagarasi River and its permanent tributaries where Riverine forest dominates. These woodlands are dominated by trees of the subfamily Caesalpinioideae, particularly species belonging to the Brachystegia, Julbernardia and Isoberlinia genera, which seldom occur outside miombo. 94 Figure 21: Miombo woodlands most without leaves (Source: Site visit, August 2017) • Miombo woodland on flat terrain In the project area, this habitat is mainly confined to the left bank of the Malagarasi River. Miombo flat habitat is dominated by the following species (in descending order of relative frequency) Brachystegia spiciformis, Diplorrhynchus condylocarpon, Pterocarpus angolensis, Pseudolachnostylis maprouneifolia and Strychnos sp. Of less importance are: Bussea massaiensis, Pterocarpus tinctorius, Albizia sp. and Hexalobus monopetalus. Generally, field observations revealed that this habitat has not been disturbed in the recent past and the present average basal area per hectare is 1780.7 m3. Brachystegia spiciformis with an average basal area of 636.5 m3 is the most dominant species followed (in descending order) by Pterocarpus angolensis, Diplorrhynchus condylocarpon and Pseudolachnostylis maprouneifolia. In terms of diversity this habitat is ranked third after the riparian woodland and miombo mixed. Miombo flat habitat is among the widespread habitats in miombo woodland. Perhaps of great concern are the highly demanded timber species especially Pterocarpus angolensis and P. tinctorius that are highly extracted for their valuable timber, the former being the third most frequent trees species in this habitat. 95 Figure 22: Miombo woodland on flat terrain (left bank of river malagarasi) (Source: Site visit, August 2017) 4.8.2.1 Vegetation and Habitats along the Access Road The area between Kazuramimba and Igamba Falls is surveyed and designated for agricultural development. The dominant species observed along the access road is miombo woodland. Dominant species in the miombo woodland include; Pterocarpus angolensis (Mninga), P. tinctorius (Mkulungu), Brachystegia spiciformis (Mtundu), B. boehmii, Julbenardia jubiflora, Milicia excelsa, Afzelia quanzensis (Mkora), Diplorrhynchus condylocarpon, Khaya anthoceca and Makhamis sp. Others are Bridelia sp., Vitex fischeri (Mpapa), V. doniana (Mitunda Ugoro) Isoberlinia scheffleri and grass species. 96 Figure 23: Mixed Miombo woodland along the access road to Igamba water falls (Source: Site visit, August 2017) 4.8.2 Fauna 4.8.2.1 Aquatic Macro invertebrates and Fish The present work on selected attributes of aquatic biology around the Project area contributes to the effort of collecting relevant environmental baseline data that can be used to assess the biophysical and ecological conditions of the proposed project area, predict significant impacts that could be caused by the Project, and develop mitigation measures for the Project. • Selection of study sites For the aquatic ecology study, sampling sites and points were established, upstream above damsite, proposed damsite inundation area, downstream damsite and below tailing which were representative of the range of water which may be potentially affected by the Project (i.e. downstream impact sites) the upstream represent reference/control site. The sampling sites were designated as follows with their coordinates given in Table below 97 Table 12: Sampling sites Sampling site Description Site 01 upstream outside inundation area (Indirect impact site) Site 02 Damsite within inundation area (impact site) Site 03 Downstream damsite (Jiwe la ndege) - (impact site) Site 04 Power plant area (impact site) Site 05 Site coordinates 0175903, 9426598 0175039 9427380 0173738 9424174 0172783 9426970 Downstream tailing (indirect impact 0171914 site) 9427826 Elevation 854.7m 824.7m 819.8 817 m 800m During the course of sampling, fish species like Igamba goby Cichlid, Orthochromis sp and Igamba Suckermouth, Chiloglanis sp consistently observed in three sites, Site 01, Site 02 as well as Site 03. However, Igamba snail (Gastropod mollusc) was not observed in all five sampling sites. 4.8.2.2 Terrestrial invertebrates A total of 26 butterfly samples were collected. These were identified into seven butterfly families and two moth families (Sphingidae and Arctiidae) as shown on table below. All but seven were identified to species level. Table 13: Butterflies and moths collected from the Malagarasi III Hydro-Power Project area. Families Species No. of Individuals PIERIDAE 13 109 NYMPHALIDAE 19 77 PAPILIONIDAE 6 20 LYCAENIDAE 5 10 HESPERIIDAE 4 6 ARCTIIDAE 1 4 SATYRIDAE 2 4 ACRAEIDAE 4 6 SPHINGIDAE 1 1 Total 54 237 (Source: Site visit, August 2017) The species varied from widespread savanna/woodland species (most of the members of Family Pieridae) to forest-dependent species (some of the Nymphalidae and the Papilionidae). Insects in the latter group were collected in riverine forests along streams that enter the Malagarasi River and at seepage points along the banks of the river. Most of the taxa have not yet been assessed for the IUCN Red List, and two species are listed as species of “least concern 98 Figure 24: Some of the fores-dependent species of butterflies (top left: Papilio dardanus male, bottom left: P. dardanus female; top right: Papilio nireus; bottom right: G. antheus). (Source: Rapid biodiversity report, 2017) 4.8.8.3 Amphibians, Reptiles and Small mammals Seven amphibian species, fourteen reptiles and eight rodents were recorded during the present study. All the amphibian species recorded are widely distributed and they are associated with water bodies for their reproduction (Channing and Howell, 2006). None of the amphibian species recorded is of a conservation concern because they are listed as Least Concern (LC) based on the World Conservation Union (IUCN) criteria for assessing the threat status of animals (IUCN, 2017). The reptiles that occur in the proposed project area include lizards, snakes and crocodiles. All species recorded are widely distributed (Spawls et al., 2004). One of snake species recorded was Banded water cobra Naja annulata (formely Boulengerula annulata). In East Africa, this species had been previously recorded in Lake Tanganyika only (Spawls et al., 2004); by recording it in Malagarasi river means its range has been extended in East Africa. 99 All the rodents recorded are also widely distributed and are listed as Least Concern (LC) species by IUCN (IUCN, 2017). Small vertebrates in the proposed project area have been historically impacted by several factors including human settlement, cultivation, grazing and wild fires. Potential negative impacts of the proposed project to animals may include habitat loss from vegetation clearance and dam construction which may displace some species as well as mortalities which may be related to construction work; poaching and increased pressure on natural resources due to improved access to the site. Positive impacts may include increased density of some animals such as Nile crocodiles that may associate themselves with the constructed dam. Mitigation measures suggested include restricted access to the area, avoidance of unnecessary clearance of vegetation and allowing environmental flows to maintain the ecosystem between the tailrace and the diversion site. (rapid biodiversity report, 2017) 4.8.8.4 Birds At least 111 species of birds were observed. No bird species found in the study area is endemic. Three species: the Bateleur Terrathopius ecaudatus is Near Threatened, Martial Eagle Polemaetus bellicosus and Southern Ground Hornbill Bucorvus leadbeateri are Vulnerable according to IUCN Red List of Threatened Species (www.iucnredlist.org). However, all these are terrestrial species. 4.8.8.5 Large Mammals Large mammals were surveyed using direct observation by running some foot transects but were also studied using interviews and literature review. Areas covered included the landscape where Igamba sub village is located and across river Malagarasi where human habitation and activities are mostly prohibited. Initial observations show that the area is very rich in wildlife with many species seen during the survey either directly or through signs and many others reported to occur by the local residents. However, the area is heavily disturbed by activities such as livestock herding, tree cutting for timber, cultivation and poaching. These activities have driven animals away from the area. Most of the large mammals occurring in the project area are common though some may be of conservation concern. Of particular importance is the Chimpanzee (Pan troglodytes) which is occurring upstream of the project area in Ntanda and Kanjenje areas, places which will not be affected by the project activities. 100 4.9 Social economic status 4.9.1 Social Services Uvinza District Council offers a number of social services to its stakeholders including General community, Business community, Financial Institutions, Development Partners, NGOs, Faith Based Organization, Cooperative societies, Farmers, Agents, Service providers, Central Government and others. A review of these services and their current status is presented per each service as follows: • Education  Primary education In Uvinza District Council, each Village has a Primary School, though some Villages have already built more than one Primary School. There is a total number of 128 Primary Schools (one is privately owned) in the District in year 2013. However, the district has a total number of 68,557 pupils 34,390 are boys and 34,167are girls) and a total of 772 classrooms. The ratio of pupils per room is 1:89 compared to the required ratio of 1:40 at the national level. From the above fact, there is shortage of 942 classrooms in the District. Moreover, there are 13,543 desks which make a ratio of one desk to pupils to be 1:5 instead of recommended national ratio of 1:2. The pupils pit latrines are 839 which make the ratio to be 1:82. School dropout is still a major problem in the District, where by 1,848 pupils (949 boys and 899 girls) dropped in 2012 which is 1.7%. The major reasons are absenteeism, early pregnancy and negative attitude towards education. There are 42,160 people (Female 23,583 Male 18,577) who cannot read and write. The district has a total of 198,255 people (70,112 Male and 128,143 Female) who are attending Adult classes (2013). However, the District expects to enrol 567,429 by 2018. There are 1,128 teachers in the sense that, grade IIIA are 1,046, Diploma/Degree are 47 and IIIB/C are 35. The ratio for one teacher to pupils currently is 1:60. There is very remarkable change in provision of teaching materials like text books, where the ratio of book to pupil is still low for learning environment, the pupil to text book ratio in the district is 1:4 as for the year 2013. The target of the Council is to increase number of books at least to reach a ratio of 1:3 by year 2018.  Secondary Education Uvinza District Council has a total number of 19 secondary schools of which government schools are 17 and 2 privately owned school. There is a total of 110 classrooms (Government schools) 101 and total of 6500 students (3472 are male and 3028 are female). The ratio of students per classroom is 1:59 compared to the ratio 1:40 at national level. There are 5812 students table and 6580 chairs which make a ratio of one table to student to be 1:1 which is equal to the national level. There is 107 students’ pit latrine, which makes a ratio to be 1:60; total pit latrine requirement is 302 pits, thus there is a deficit of 195 pit latrines in the schools. There are 2862 students enrolled 2013 to join form one of whom 1647, are boys and 1215 are girls. There are teachers (95 male and 15 female), total requirement is 221 thus there is a deficit of 111. The ratio of one teacher to students is 1:59. The ratio for one book to student is 1:4. The school dropout is still problem, the major reasons are absenteeism, pregnancies, early marriage, fishing activities and low altitude towards education. (uvinza district profile, 2017) • Health Uvinza District Council does not have a District Hospital, There are 3 Health Centers and 39 Dispensaries (34 Owned by the Government and 5 is private dispensaries). All villages except 4 have a Dispensary as required by the Health Policy, but 14 Wards are lacking health centers as required. However, one New Health Center is under construction in Ilagala ward. The total requirement of health staffs is 353; currently there are only 163 staffs available (46%) and therefore a shortage of 190 health workers. The Council has 2 Medical Doctor as required and 7 members of the CHMT. A Dental Officer is lacking among members of CHMT. Major shortage of staff lies on the following carders; 97 Clinical Officers out of 126, 74 Nurses, 4 Dental therapists, 14 Lab assistant and 3 pharmaceutical Assistant. The common top ten diseases in the Council are; ARI, Malaria, Pneumonia, Diarrhea, skin conditions, eye conditions, oral conditions, cardiovascular disorders, PID and cervical disorders. The children are the most vulnerable group affected by these diseases. Shortage of staff, medicines, medical equipments and better condition of the health facilities are among the major shortfalls of the Health Sector in the council. The improvement of health services and consistent supply of medicine in the Heath Facilities is the Council priority in the period of this strategic plan. (uvinza district profile, 2017) • Water In Uvinza District Council, currently 34..9% of the people have access to safe and clean drinking water from various improved sources of water such as; springs, bore holes, streams, rivers, shallow wells and Lake. District collaborates with other development partners in its effort of 102 providing safe and clean drinking water. There is 7 qualified staff instead of 28 required. (uvinza district profile, 2017) 4.9.2 Economic activities The economy of the Uvinza District Council is mainly depends on agriculture, whereby the land under agricultural farming is estimated to be 1,900 Km 2 (18.72%) of the total arable land. More than 90% of District population largely depends on agriculture activities. However, contribution of the agriculture sector to the District Economy have been affected by unpredictable weather condition, taking into consideration that agriculture sector depends on rainfall. Other economic activities such as livestock production, fisheries and natural resource utilization i.e. forest and Beekeeping also complements agricultural activities of Uvinza district residents 103 CHAPTER FIVE: STAKEHOLDERS IDENTIFICATION AND CONSULTATION As per the EIA and audit regulations of 2005 the stakeholder’s consultation is a very important component of the EIA process. It is one of the key factors that enhance environmental governance. By definition stakeholders are individuals, groups of individuals or institutions that have interest in the proposed project. This includes those positively and negatively affected by the project. Stakeholders’ participation involves processes whereby all those with an interest in the outcome of a project are actively participating in decision making and management of the proposed development. The Guideline on Public Participation further notes that: “The public participation process: • • • • • • Provides an opportunity for Interested and Affected Parties (I&APs) to obtain clear, accurate and comprehensive information about the proposed activity, its alternatives or the decision and the environmental impacts thereof; Provides I&APs with an opportunity to indicate their viewpoints, issues and concerns regarding the activity, alternatives and /or the decision; Provides I&APs with the opportunity of suggesting ways of avoiding, reducing or mitigating negative impacts of an activity and for enhancing positive impacts; Enables the applicant to incorporate the needs, preferences and values of affected parties into the activity; Provides opportunities to avoid and resolve disputes and reconcile conflicting interests; and Enhances transparency and accountability in decision making. Input from public consultation provides the authorities, Interested and Affected Parties (I&APs) and proponent (TANESCO) an opportunity to ensure that decisions made in the course of the project give consideration to concerns and comments raised as part of the consultation. This set a ground for sustainable working relationship between proponent (TANESCO) and I&APs. It also provides an overview of the effectiveness and interagency cooperation that TANESCO can build upon or rely on for mitigation of project impacts. The study involved a participatory approach that entailed seeking information/experience from stakeholders such as ward and village leaderships, local representatives and other institutions who have been involved in one way or another in the implementation of the project. Consultation with PAPs was initiated during scoping exercise and continued through the detailed ESIA process to ensure regular communication between the project proponent and PAPs. This allows for the provision of updates, changes, alteration, and new concerns where necessary from both the project proponent and PAPs such that both parties have a common perception as to what the project entails. 104 To facilitate an open and transparent process, interested and likely to be affected were identified, invited and later informed of the proposed project development and subsequent phases of project operations. Presentation of what is intended by the project; importance of the project to the nation, region and to project area as well as benefit to individuals was presented during the meetings, focus group discussion, Positive and negative impacts of the project and their mitigation measures were also described in details. The participants were then given opportunity to ask questions, give comments, observations and opinions. This allowed the study team to obtain in-depth information on concepts, perceptions and ideas of the community members. 5.2. Consultation Meetings with Regional and District Authorities Consultation meetings with district authorities pointed out specific issues that need to be taken into consideration by the project proponent and contactor. The consulted Region and District council officials of Uvinza highlighted the importance of the proposed development project to the nation, districts and local communities. Officials at Uvinza District supported the project with an expectation that the increase of electricity supply will enable their district to be connected to the national grid. Currently Kigoma region is off grid depending on diesel generators to supply electricity to the population making Kigoma region with least industries. 5.3 Methodologies applied during public and stakeholders consultations The main methodologies applied during public and stakeholders’ consultations were: • • • • Focus group discussion, Interviews formal and informal Administering open ended questionnaires Public meeting Public meeting was conducted in the villages that the proposed Malagarasi Hydroelectric Power Plant (MHEPP) will be located. In this regards, the main village that the proposed project will be located is Mazungwe and Igamba sub-village in Kazuramimba ward. Various methods were used in ensuring that all relevant stakeholders are consulted and their views incorporated in the updated ESIA report. Participatory methods such as focus group discussion, household questionnaires and public meetings were used. The team also visited all critical sites with district experts, conducting discussions with stakeholders on site to show the site and identify their views and concerns. 5.3.1 Notification to Stakeholders It is important to ensure that stakeholders are well informed prior to undertaking any consultation. Introduction letters were written by TANESCO to relevant Region Administrative 105 Secretaries to first inform them about the project as well as seek permission to work in the respective district. These letters were then channelled to District Commissioner and District Executive Director (DED) for the same purpose and to seek appointments to consult the district officials and to undertake the ESIA in the respective villages. Letters from the DED office were then distributed to all relevant ward and villages to arrange appointments with village government officials as well as the local communities. For each consultation meeting, the consultant and TANESCO presented the technical facilities of the proposed MHEPP. Maps and other visual aids were used in the session. The main agenda for the Community consultations included: • • • • • • • Presentation the Project including purpose of the project, what people should expect from the project, the switchyard area and the impacts to be expected Presentation of the proposed MHEPP project area using maps Presentation of Switchyard dimensions and upcoming activities including rights of property owners and compensation process for the project affected persons (PAPs) for the lost land, houses, crops, and other properties ; Identification and defining the local institutional framework and other potential stakeholders; Listening to the questions, views, concerns, opinion and answers from the proponent: so as to obtaining from the local population their environmental and socio-economic concerns and perceptions regarding the proposed MHEPP and TANESCO to respond to those questions and concerns; Identification by the communities of the main land uses and land tenure issues within the project area; and Lessons learned from previous projects in the area and proposing best mitigation measures acceptable by the community 5.3.2 Household Questionnaire Household questionnaires were also administered in the villages; the questionnaire intended to obtain baseline information of the affected population. The information was basically on socioeconomic issues, land related issues as well as to obtain their views regarding the project. The socioeconomic data will be used in future for monitoring purpose. In general the household questionnaire was administered to 34 PAPS at Igamba sub village as the areas shall be occupied by switchyard and MHEPP. 5.3.3 Village Public Meetings To ensure that all villagers are informed of the project, the team conducted public meetings in all affected villages. The team also ensured that women attended and participated in the meetings. The meeting aimed at informing the villagers regarding the project and the impacts 106 that are associated with the project. Villagers were informed of the positive and negative impacts of the project which include loss of land, possibilities of increase new cases of HIV/AIDS especially during the construction phase as well as other environmental and social impacts associated with the project. Villagers were also sensitized on their right to be compensated and what is to be compensated if they will either loose land, crops and houses. Villagers were also given an opportunity to ask questions, raise their concerns and provide information to the team on issues such as availability of land in the village for resettlement purposes. The villagers formed a committee which will help on fall up when it comes to compensation issues and deal with a conflict resolutions with the help of VEO and VC at the village level. Figure 25: Showing EIA expert addressing issues during public meetings at Igamba sub-village (Source field data, August, 2017) 107 Figure 26: public meetings at Mazungwe village. (Source field data, August, 2017) 5.3.4 Official Meetings with Village Leaders Similarly village meetings were conducted in all affected ward/villages; these meetings aimed at collecting specific data at the village, discussing alternative project areas that can minimize impact as well as identifying sensitive sites/areas such as cultural sites that are within the village or its neighborhood. A checklist was also administered during these meetings. This meeting also aimed at sensitizing the village leaders regarding how they can handle compensation matters and also to ensure that they will continue to sensitize and inform other villagers who were unable to attend the village public meetings. 5.3.5 Meetings with District Officials Meetings were held in Uvinza district leaders including DED, DC, Land Officer, Forest Officer, Valuer, Community Development Officer, Legal Officer and Land Surveyor.The aim of the meetings was to discuss the project with the district officials and to obtain relevant data and information from the respective districts. Most of the consulted district council’s officials agreed to the importance of the proposed development project to the national, districts and local communities’ development. • • • Their main concern was on land acquisition, need project owner to educate PAPS on their rights when it comes to compensation, Compensation to be fair and help PAPS to improve their lives rather than deteriorating their lives Project developer (TANESCO) should involve district authorities in every stage of the project to minimize unnecessary conflict and help PAPS to improve their lives. 5.4 Consultations with Other Relevant Stakeholders The team conducted various stakeholders consultations at ministerial and Government Agencies and NGOs to obtain views at policy level. These included the Ministry of Natural Resources and Tourism - the Division of Antiquities, TANROADS Kigoma office, TANESCO Kigoma Office, Janegoodal Institute (JGI), Lake Tanganyika Water Basin, Gombe-Mahale National Park Information Centre and RAHCO Kigoma Office as the project might use railway to transport project consignment to Kigoma. NGO consulted includes Belgium Tecchnical Coperation (BTC), Kigoma AIDS Control Network (KACON) Mandela Paralegal Organisation (MAPAO), Hopes of the Community Foundation (HCF) and Vijana Pamoja Twaweza (2014). 108 5.4.1 Focus Group Discussion The team conducted Focus Group Discussion (FGD) along the wards and villages which will be affected by the project. The meetings aimed at informing the villages about the project and the associated impacts. FGD members were informed of the positive and adverse impacts of the project include loss of land, possibilities of increased spread of HIV/AIDS especially during construction phase, as well as other environmental and social impacts associated with the project. FGD members were also sensitized on their right to be compensated and applicable compensation norms if they will lose land, crops and houses, also introduced the existence of grievances committee for them to channel their claims if encountered problems related to the project. Further they were given an opportunity to ask questions, raise their concerns and provide information to the team on issues such as availability of land in the village for resettlement purposes, cultural ties like ritual areas which they would like to be protected and identification of sensitive sites/areas such as cultural sites like grave yard, water sources natural forest and like that lie within the ward and they also offered information on how to go about protecting this areas. 5.6 Summary of Identified Issues of Concerns Stakeholders consulted for this specific development project had various views and concerns. In brief, most of the views gathered from the stakeholders are positive about the proposed project and expect that the project will have positive impacts to the economy of the nation and shall improve livelihoods of local communities surrounding the project. However, during public meetings and focus group discussions held as part of this ESIA update process, the stakeholders had cautioned on land acquisition and compensation processes. They want transparent, fair and prompt compensation unlike the former. The table 14 summarizes the issues and concerns raised by different stakeholders. 109 Table 14: Stakeholders’ views, concerns, perception on the project and responses Name of Stakeholder Comments/ concerns raised RC – Kigoma  We need this project this we don’t like to take any excuse like the previous one. Kigoma is lagging behind in industrial sector due to lack of reliable power.  Land acquisition should be done according to the relevant national legislations  Avoid delaying of compensations  Make sure sensitization meetings are done to the project affected people before land acquisition processes  During land acquisition process make sure village leaders are involved effectively in order to solve some disputes at village level DED Uvinza District  We are aware of the project as we have been Council receiving some of TANESCO staff for the same project and we are grateful for this project as Kigoma will be connected to the national grid  Land acquisition process should consider national laws  Pay compensation to affected institutions, PAPS and individuals  Compensation should be fair and done timely  All grievance to raise after compensation should be addressed accordingly  Collaborate with ward and village officials to solve all disputes that might raise after land acquisition processes 110          Remarks/ Responses Land acquisition shall be done as per national legislations Compensation shall be effected after being approved by the Chief Government Valuer Meetings are conducted during Resettlement Action Plan and ESIA update study Local leaders shall be involved Noted All relevant laws shall be considered during land acquisition processes TANESCO pays compensation according to approved values by Chief Government Valuer Grievance Resettlement Committee are formed at village level and TANESCO shall have special Unit to address all disputes Consultation is done to public and local organizations  District Commissioner  Uvinza    Jane Goodall Institute  (JGI)     Consult some NGO’s like Jane Goodall which are working on forest conservation and protection of wildlife particularly Chimpanzees The project is of national importance we accept and need it but make sure all project affected people are compensated as per national laws Community is aware of the TANESCO projects. They don’t have problem so long you compensate the PAPs on time. We have made some sensitization meetings on the same project so whenever you are facing any challenge lets be in touch All project affected people should be educated about their rights before land acquisition process is done TANESCO need to protect water catchment areas if you need water to sustain this project for long. There is huge deforestation going on in the catchment. Work hand in hand with Malagarasi River Water Basin to protect the river flow by making sure community does not cultivate and graze in water catchment areas Government should intervene to control water and catchment as people have big paddy farms near to water catchments and river banks We used to have gorillas and other wild animals in your area of interest, but due to human activities the animals are no longer there. Masito Forest Reserve has Chimpanzee totaling about 700 to 900. However, due to human activities in the areas of interest (on your project proposed 111          TANESCO pays compensation according to approved values by Chief Government Valuer Noted Further sensitization meetings shall be done during detailed EIA study and during the project implementation Noted and all affected households are interviewed, administered with questionnaire in order to collect their socio-economic status and sensitized on the project TANESCO will work with Lake Tanganyika Basin Water Office to protect the catchment. The project will collaborate with other stakeholders to reduce deforestation and conservation of Malagarasi catchment. Water conservation program shall be planned and implemented The project will concentrate on side of the river and prevent people to cross to the other side of the river to protect Masito Forest Reserve. TANESCO and the Contractor shall prevent bush fires during the implementation of the proposed project.   Lake Tanganyika  Water Basin Office        area) there are no such animals as they have migrated to other areas. Therefore, assist to protect the habitats for these animals. The project area is covered by miombo woodlands which is abundantly found in many parts of the country. Fire is an environmental problem in the project area; however, for miombo woodland yearly fires are better than when there is no fire for many years. Conduct a detailed study on the impacts of the project to downstream water users Compensation of properties should be fair and transparent to minimize conflicts Make sure households found within the project areas are compensated as per relevant national legislations TANESCO have helped us on construction of Water flow station and build us a workers house, we thanks for that. We ask this project to help us to get the curve liner for measurement of river wideness, the river span is 150 Meter wider, the curve liner we have is shorter. TANESCO needs to harmonize with other water users i.e. Nguruka rural water supply scheme in order to ensure sustainability of the project Pastoralists have invaded Uvinza with a good number of cattle, thus destroy river source and consume a lot of water. Population increase along the river and human activities increased if measures will not be taken Malagarasi river performance will fail. 112  The project team will regularly consult with JGI for advice so as to assist the effort of conservation whenever possible.  Your concern shall be taken into considerations particularly at project operation phase Compensation shall be effected after the same has been approved by the Chief Government Valuer Compensation of properties shall be effected accordingly TANESCO will work on this issue to make sure water catchment area is safe and river flow is at its best. Integrated Water Resources Management shall be enforced TANESCO shall liaise with other water users within the basin Sensitization meetings shall be done to create awareness on conservation Increase of socio-economic activities within the catchment shall be controlled IRA is undertaking bio diversity study which will update current rivers status for         Kigoma Natural Officer Regional  Resources      Gombe –Mahale  Information Centre    TANROADS– Office Kigoma    Maintain the natural environmental water flow TANESCO should conduct detailed study on biodiversity Take care of conservation aspect Camp site should minimize interaction with communities to maintain norms and values of the people Make sure your project does not interfere river flow to minimize conflict with other users at down stream Land acquisition should be confined within the project area and TL RoW Gombe and Mahale National park is too far from your project area. So there is no wildlife animals that will be moving from the protected areas to the project area Mahale is more than 100km southern side from the project area. Therefore, there shall be no wildlife animals travelling from the project area There’s wildlife corridor between Mahale and Katavi National park. But there’s no corridor between project area and the two national parks Take care of monkey and other animals to be found within the project area from electrocutions Valuation of properties at the project area should be done Consider road regulations on transportation of heavy and wide equipment and construction materials The road is permissible throughout the year 113       smooth/sustainable development of the project Noted, we will work our best to maintain river flow Rapid Biodiversity study is conducted Regular studies shall be done All values and norms of the local communities shall be protected TANESCO shall liaise with other water users Land will be acquired within the project area and stretch of buffer zone  Noted  Noted  Noted  Compensation of properties shall be effected accordingly Road regulations shall be adhered to Noted Noted     Tanzania Railway  Authority – RAHCO     Belgium Technical  Cooperation (BTC)     TANESCO Kigoma  Regional Office Respect road reserve of 30 metres from the centre of road The project designing and construction phases should consider railway line especially at crossing points Observe the corridor of the railway line during construction of access road from Mazungwe to Igamba We appreciate the project and we are ready to offer transportation services for hauling construction materials Cargo transportation has equal value except for animals like cattle they get first priority because they have life. Maximum weight is 42 tons, the width of luggage matter but height does not matter much. We praise the project although it does not interfere with our project We are a bit worried about ways that TANESCO shall use to acquire land Questioned on strategies to be used by TANESCO to compensate all properties to be affected by the proposed project Ensure the biodiversity is conserved We are planning to establish rural water supply project so TANESCO should integrate with us in order to improve sensitization and awareness programs to control encroachment of the river particularly at upstream areas The proposed project will influence huge investment in the region 114   Detailed design shall be done prior to construction activities Noted Logistics shall be made in case the project may require to haul construction materials via railway Noted  All logistics shall be arranged accordingly   Noted Land shall be acquired following the national land laws and regulations Compensation of properties shall be effected accordingly Noted Sensitization programs shall be conducted in collaboration with other stakeholders       The situation strengthen the reasons to implement the proposed project.         Mazungwe village in  Kazuramimba Ward  Some huge investment in salt and limestone industries have been halted by shortage of reliable electricity in the region. Therefore the construction of this project will supply the needed power and reliable electricity in the region. The project will stabilize the national grid The project will improve socio-economic services such as health, education, infrastructural and industrial services in the region Currently, the region is generating about 10MW from diesel plants of which 6.25MW are located in Kigoma and 2.5MW are in Kasulu and 2.5MW are located in Kibondo. Diesel thermal power generation is not environmental friendly and is expensive. Thus, the completion of Malagarasi Hydropower project will reduce the environmental impacts and improve environmental conservation. The Kigoma town peak demand is about 5.5MW. When one machine is out of service due of delay of spare parts of fuel the load shedding is inevitable The project will increase taxes and council levy collection as the project will pump money in the region. Water supply projects in the region will benefit from the project. The construction of 33kV distribution line from Kidahwe substation to Kigoma will at the moment is sufficient to bring power to Kigoma town Compensation should be fair and done timely Educate/create people awareness on the project impacts 115     The project offers many advantages to the Kigoma Region than having not the project. The project benefits exceed the environmental and social costs of the project. Noted Compensation process shall be done transparently following the laid down      Igamba Sub-village         procedures as per Land Act and Land Regulations The contractor will be advised to hire local people for specific tasks e.g. labours need to be hired from the village Compensation will be paid following the approval by Chief Government Valuer. All grievances will be addressed including those people who were not paid. The project will prepare a livelihood restoration programme on which agreed projects will be implemented (dispensary, school classrooms, water, etc.) depending on the availability of funds. Noted   Compensation shall be effected fairly Compensation shall be effected fairly  During valuation process all PAPs shall be involved in the whole process  It shall be relocated according to the relevant national legislations  There shall be livelihood restoration programmed to be implemented by TANESCO  The contractor shall liaise with village leaders to recruit labours required The issue of providing employment to local labours is of paramount importance  The project should electrify the villages There are several PAPs who were not paid compensation by the previous project. Please  consider them to avoid conflict with land owners The valuer for the previous project used abusive/ inappropriate language so we caution the district council to use another one. We ask the project to help on construction of  secondary school, dispensary, village office and water project as agreed by TANESCO and project financiers We need the project to take on so let the government implement it The valuation process should be fair and transparent The compensation payment should be effected as soon as the valuation process is done Most of us did not satisfied with previous payment during MCC project. So we insist TANESCO to consider our livelihoods this time around There is a grave in the project area so compensation should be made on the same We are asking TANESCO to construct primary school in the village and other social services Contractor should recruit most of labours from this area 116 Local NGO’s and CBO’s  1.Mandela Paralegal Organisation (MAPAO)         2. Kigoma AIDS  Control Network (KACON)  It is local NGO working on human rights, legal services, HIV/AIDS and environmental conservation. The Director stated that he is very impressed by the establishment of the project. Most of their concerns were based on transparent valuation and compensation processes Sensitization and awareness meetings should be given to all communities along the project route TANESCO should collaborate with local leaders to address all issues pertaining the project Contractor should be briefed on the culture and tradition of the local communities We are ready to assist where the contractor or TANESCO would need our service As of recent the land conflicts along the project is less so the project should not bring this problem Provide employment to local people PAPs should open Bank Accounts and all payments should be effected through their accounts not cash in hands  Noted  This will be done  Noted  Noted  This is NGO working on community awareness on  ways to prevent and control HIV/ AIDS The NGO has wide range of experience in working with local and international contractors to provide seminars and workshops to local communities on ways to prevent and control HIV transmission 117 It is how it is done nowadays Noted     3.Hopes of the  Community Foundation (HCF)     4. Vijana Pamoja  Twaweza (2014) We are ready to work with TANESCO during project implementation Contractor should train his working crew on ways to control HIV/ AIDS transmission TANESCO should conduct valuation exercise in a transparent way We praise government to implement this project and thus we are here to work hand in hand with TANESCO to ensure the project will generate as minimum social impacts as possible This is NGO working on the improvement of the lives of local communities through training them with entrepreneurial skills, providing Loans, HIV awareness, water wells drilling and supply of solar panels to the communities that in off grid areas. We appreciate this power project and we promise that HCF is ready to work with TANESCO We advise TANESCO implement the compensation payment in a smart way to avoid many complains that would halt implementation of the project We advise the contractor should hire youths from the respective villages Also local leaders and the general public should be integrated in every stage of the project implementation  Noted   Noted Noted  Noted  TANESCO shall liaise with village leaders to address all issues Noted This is CBO that is training youths in the villages on  strategies to improve their living standards through poultry keeping, business trainings, entrepreneurial activities. 118  We are ready to organise youths to work with  contractor during project construction  We advise TANESCO to liaise all relevant stakeholders and communities to solve issues that might raise in the course of implementation this project  Compensation of should be made/ paid  transparently  Land issues should be addressed accordingly  The villages affected by the project should be given high priority during recruitment of un-skilled labours  Source: Malagarasi Stage III HPP, August 2017 119 Noted Compensation will be paid after it has been approved by the Chief Government Valuer Noted 5.7 • • • • • • • • • • • General Response to the Raised Concerns Compensation; Valuation process will be transparent and compensation will be fair and prompt but following government regulations and financiers safeguard requirements. Government valuers of the respective district or region will execute valuation task. However, TANESCO will supervise the work to ensure the exercise is transparent, inclusive and past mistakes from previous project are addressed properly. Village Electrification: Rural electrification program for the project will focus on electricity densification for the villages that have already been reached by electricity and for those not connected electrification will be extended to the villages Awareness/education; Sensitization programs will be prepared and implemented in collaboration with district experts, wards and local NGOs on the issues of HIV/AIDS, health and safety, utilization of economic opportunities, etc. throughout the project implementation. Special help to vulnerable groups; TANESCO and Valuer with the help of local leaders will identify PAPs who fall under this group and arrange for special assistance where needed. However, this group will be precisely identified during social economic survey in detailed EIA. Graves/Grave yards; In case graves are found in the project area, TANESCO will pay compensation for each grave and relocate those graves as per Grave Relocation Act of 1969. Employment opportunity; TANESCO shall advise contractor to use local people of the respective area for skilled and unskilled works where available. Loss of trees, TANESCO will compensate tree and the respective village/owner should use that cash for planting/ establishing new reserve for the loss Water sources; TANESCO will avoid impacting water sources Compensation payments modalities; TANESCO will pay compensation through cheques and through PAP’s bank account. Those with small amount of compensation, special arrangement will be done. TANESCO will work closely with banks to assist PAPs in opening the bank accounts. Accident prevention to workers and villagers: Apart from awareness campaign on safety issues, TANESCO in collaboration with contractors will erect warning signs in dangerous areas, provide personal protective equipment, instructing drivers to slow down on pedestrian crossings, enclosing working sites, fencing the substation area and placing security guards in all sensitive installations. Project benefits to the villages: The project will prepare a livelihood restoration programme on which every affected village will advise on the type of project to be implemented (dispensary, school classrooms, water, etc.) depending on the availability of funds. 120 CHAPTER SIX: ASSESSMENT OF IMPACTS AND IDENTIFICATION OF ALTERNATIVES The project will comprise of the following phases: pre-mobilization, mobilization, construction, operation and decommissioning. These phases will have some impacts on certain aspects of the biophysical and social-economic environment either positively or negatively and sometimes neutral. The assessment is based on the effects of the project on the topics grouped into landform, water resources, ecological resources, aesthetic values, cultural environment, public health and safety and socio-economic factors. These impacts are substantiated during consultations. The impacts can be local, regional or international nature, thus boundaries need to be defined. 6.1 Project Boundaries Determining the boundaries within which the EIA to be undertaken is an important step in the identification of impacts since this will also determine the extent in which the impacts will be experienced. Three types of boundaries that are considered in this ESIA are: institutional, spatial and temporal boundaries. 6.1.1 Institutional boundaries These are institutions sectoral boundaries in which the project lies or interacts. These can be determined from political boundaries, acts, regulations and institutional mandates. The proposed development is about construction of Malagarasi stage III hydropower plant and will be implemented in rural areas. The development is expected to touch the interest of several institutions and organizations and is in relation to several policies, laws and regulations in Tanzania. 6.1.2 Impacts Spatial boundary The spatial dimension encompasses the geographical spread of the impacts i.e. local, regional, national or international regardless of whether they are short term or long term. The spatial scale considers the receptor environmental components. Spatial boundaries are crucial to decide on whether impacts are likely to occur at local, regional, national or international level. The proposed of Malagarasi stage III hydropower plant in Kigoma Region will have wide ranging implications that could be felt locally, regionally, and probably nationally thus, causing impacts as far as to those areas. In the case of this project, the core impact area consists of communities and institutions around Igamba sub village. This core impact area is surrounded by an immediate 121 impact area, an area that is outside but plays important role or bears relatively some of the impacts (positively or negatively). 7.1.3 Impacts temporal boundaries Temporal boundaries refer to the lifespan and reversibility of impacts. The temporal impacts can be either short term or long term. The short-term impacts are considered to be those which will be apparent only for a short period and as such will include mainly construction activities related impacts. The long-term impacts are considered to be those which will be apparent after construction has been completed (but may include also impacts which may become apparent during the construction phase). Consideration will also be given to what happens when the project ends, where there is a need for site restoration and decommissioning. Short-term impacts include noise, dust and vehicle movements, spillage of hazardous materials and pollution of water bodies that will disappear as soon as construction is finished but existence of the power plant will last for many years to come. Long-term impacts include reduced biotic viability and existence of sensitive plants and impact on public health and spread of HIV, AIDS and other STDs, impact on vegetation, boost to the local economy through employment and other benefits to the local communities in relation to accessibility to the electricity. 7.2 Possible Impacts Identification Power generating project usually involves pre-mobilization, mobilization, construction, operation and decommissioning. These phases are likely to have some impacts on certain aspects of the bio-physical and social economic environment either positively or negatively and sometime neutral. Therefore, it is anticipated that there will be environmental and social impacts affecting various groups socially and economically. It is further anticipated that the communities will have to be protected from any negative impacts, while opportunities to be offered by the project need to be made visible to the communities. Those various groups likely to be affected by the project were closely involved in raising their concerns of the project which are addressed in the stakeholder’s consultation chapters of this EIA report. 7.2.1 Methodology Used to Assess the Significance of Impacts The approach used to assess the significance of the potential impacts is to apply significant ratings to each impact based on objective criteria, such as magnitude, extent and duration of that impact. The final evaluation of the significance of impacts is a combination of those parameters and the probability of occurrence of that impact. For the significant impacts mitigation measures are proposed. Based on the experience, available data, measurements and other qualitative 122 attributes the assessor predicts the extent of impact, magnitude, duration and probability of occurrence to determine significance. The determination of those parameters follows the definitions in the table below. Table 15: Assessment criteria for evaluation of impacts First Step Criterion Categories Extent or Spatial influence of Spatial distribution – extent of an area/volume covered or to be Impact affected. Site specific; Local; Regional; National; International High: natural and/or social functions and/or processes are Magnitude of Impact at that severely altered spatial scale or intensity Medium: natural and /or social functions and /or processes are notably altered Low: natural and /or social functions and/or processes are negligibly or minimally altered Intensity – This parameter also assesses the magnitude of the impact or violation of a certain standards Duration of Impact This is whether it is short term/ temporary, medium term or long term/ permanent. This will refer to the life of the impact. For this project The terms to be used include:  Short Term (ST): 0-1 years;  Medium Term (MT) 1-5 years;  Long Term (LT): 5+ years Likelihood Terms in use include likely, unlikely, or certain This will refer to the level of possibility that the impact will occur. Unlikely will mean that the possibility of occurrence is limited or none because of the inherent nature of the project and design to be used; Likely will refer to the possibility that the impact may occur; and Certain will mean that the impact will surely occur irrespective of the preventive measures adopted Nature of the impact This is for both positive and negative impacts; It may mean direct, indirect, cumulative or synergistic. Reversibility This is whether the impact can be reversed or not. Irreversible means the impact is permanent even if mitigation measures are implemented the destruction cannot be reversed 123 Degree of Significance This will incorporate the above mentioned parameters (extent, intensity, magnitude, likelihood, duration and reversibility) to determine how severe the impact will be. The categories of these parameters will be:  Low significance  Medium significance; and  High significance Source: Modified Brownlie and Willemse (1996) Other criteria considered to evaluate whether or not adverse impacts are significant include: • • • environmental loss and deterioration; rate of environmental and social change occurring directly or indirectly; non-conformity with or deviation from required environmental standards, regulations and guidelines; o prescribed limits on waste/emission discharges and/or concentrations; o ambient air and water quality standards established by law or regulations; o prescribed noise levels; o Breach of legal, approved or statutory requirements; Acceptability of risk. • On ecological side other criteria to evaluate adverse impacts on natural resources, ecological functions or designated areas include: • • • • reductions in species diversity; depletion or fragmentation on flora and fauna habitat; loss of threatened, rare or endangered species; Impairment of ecological integrity, resilience or health e.g. o disruption of food chains; o decline in species population; o Alterations in predator-prey relationships. Other criteria used to evaluate the significance of adverse social impacts that result from biophysical or biochemical changes include: • • • • threats to human health and safety e.g. from release of persistent and/or toxic chemicals; decline in commercially valuable or locally important species or resources e.g. fish, forests and farmland; loss of areas or environmental components that have cultural, recreational or aesthetic value; displacement of people caused by e.g. construction of substations, transmission lines and distribution lines; 124 Therefore, depending on the issue the evaluation of the impacts will differ according to evaluation criteria outlined above. 7.3 Positive Impact during Construction and Operation phase 7.3.1 Employment Opportunities Employment opportunities are not usually offered to local communities by construction contractors. However there will be low-skilled employment related to roads, land clearing and site-specific clearing. In addition through some training (Livelihoods Restoration Program/SubPlan) skills can be acquired which can be use in the region also. Any employment opportunities offered will be more than welcome due to the high unemployment status and can directly affect livelihoods. Significance: Unmanaged impact - significance Low positive, managed impact - significance Medium positive 7.3.2 Positive Social impacts The major significant positive benefit of the project will be the provision of clean and sustainable hydropower. This will provide to the region with the needed energy requirements for development. Such development will lead to the spin-off benefits of jobs, improved income and improved educational levels and health services. In other words it is likely that the socialeconomic conditions will be improved and poverty levels will be reduced. Another major benefit is the replacement of energy production sourced from fossil fuels with that produced from a sustainable source. In turn, this will eliminate the CO 2 emissions that would result from the use of fossil fuels. During the construction phase there will be both short-term and long-term employment opportunities as well as training opportunities for local hired workers. Skills development: local labourers - gain skills, knowledge and experience in construction works - masonry, carpentry etc. 7.3.3 Positive Economic Impact Raw materials such cement, gravel, steel etc. to be purchased and used during construction of the proposed power project will all be subjected to the value added tax (VAT) and other applicable taxes. This evenly goes into adding income to the government coffers and local producers of raw materials such as Cement etc. 125 Enterprise development and induced development: from informal to formal business. Service providers gain income, and knowledge of better service provision – changing from vender to erection of permanent structures /shopping centre, e.g. canteens, shops. This will also motivate women and create opportunities for them to start involving themselves in Income Generation Activities (IGAs). Overall, this is a positive impact from the proposed project however the impact is low positive with low significance. 7.4 Negative Impacts during Construction, Operation and Decommission Phase 7.4.1 Impact on Climate Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation All construction related activities Flooding of the reservoir Removal of wall and release of sediments During the construction phase of all components of the project, CO 2 and SO2 emissions associated with transport, excavation, including quarrying, and cement production will be produced. Such emissions contribute to climate change, however, since the construction phase is conducted for a relatively short period the impacts will be of low significance and will be offset by the fact that the project replaces energy that would normally be produced through the burning of fossil fuels. Therefore, overall the impact on the climate will be very small in terms of local or national emissions and temporary in nature during the day, and during construction period only. Operational Phase: The construction of the access road will require the permanent removal of vegetation (approximately 1 km2). Some of this vegetation will be replaced through natural regeneration by grasses and shrubs but will not possess the sequestration capacity that higher vegetation (trees) can provide. The loss of this capacity will be offset by the project’s ability to produce energy without greenhouse gas emissions. The total area of dry land vegetation in eth HPP DIZ is 138 ha of which 11.85 ha is cleared for arable agriculture. Of greater concern in the tropics are the potential greenhouse gas emissions of reservoirs. In this case the largely run-of-river scheme and absence of a storage reservoir together with 67 % of the reservoir area falling into the existing river channel negates concerns about greenhouse gas emissions. The reservoir is limited to 13.5 ha at the 842 masl contour. Approximately 1.1 ha of riparian woodland and an additional 1 ha of miombo (disturbed) woodland will be flooded. Hence the impact is regarded as negative, short term, and low in significance. 126 7.4.2 Soil Erosion and pollution Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation Road construction, Access road Road maintenance clearing of sites, maintenance opening of borrows, construction of canal and coffer dams The construction works associated with the dam and its facilities involve major works to construct the diversion channel, coffer dams, access roads to plant buildings, administration and living quarters. Erosion of exposed red soils is likely to occur during rainy periods, increasing sediment load and siltation of the river. Permanent physical modification along the natural terrain will also occur particularly along contours as a result of cut and fill operations. The potential for erosion of exposed soils during the construction operations exists until such time as permanent cover is established either through hardcore covering, concrete covering or re-vegetation. Site drainage works could also give rise to erosion and landslides if not properly designed, implemented and maintained. This would also increase silt load to watercourses. Implementation of the relevant guidelines during construction will ensure minimal exposure of potentially erodible soils. Geotechnical assessment of works areas will be undertaken prior to any works commencing to ensure minimum landslide risk. This will also be important as it relates to blasting for quarries. The proposed access road will require significant works along the route corridor. Road works may require significant cut and fill activity particularly along the steep banks of Malagarasi River and the escarpment down towards the Malagarasi River Valley. Erosion along the road side, if not adequately controlled, could result in gully formation, particularly during the wet season. If any blasting is required for the road works this action could trigger further erosion and landslides. Activities during decommissioning of worker camps, workshops, dumps and the likely are not seen as erosion threats. Operational Phase continual erosion could occur if effective erosion control (e.g. slope stabilization) and landscaping has not been implemented. Without mitigation the impact could be high. The impact is regarded as negative, short term, and medium significance. 127 7.4.3 Loss of biodiversity 7.4.3.1 Reduction in the population of limited range endemic species Project phase and link to activities/infrastructure Construction Operational Establishment of coffer Flooding up to base of dam stopping flow Igamba Falls Removal of coffer dam, Minimum flow increased sediment reduced from a dry load. season average of 3035 to 10 cumecs Decommissioning/Rehabilitation Removal of dam wall will require use of the diversion canal, establishment of a coffer dam, drying out of the lower rapids for 16 months. About 2.5 ha of riparian will be submerged by the reservoir. Upstream and downstream riparian is expected to recover from past clearing for lands areas while under the management of TANESCO. The maximum proposed reservoir (841.5 m) will submerge approximately 0.5 ha of moderately important snail habitat and a further 2 ha of marginal habitat. A maximum of 24.2% of Igamba Snail habitat lies downstream of the Stage III dam. Loss of important habit downstream is expected to occur when flow is limited to an environmental flow release of 10 cumecs. This is expected to reduce the snail habitat below the reservoir from 4.5 ha moderate habitat and 9 ha prime habitat to 1.3 and 3.1 ha respectively with an EFR of 10 cumecs, the overall prime snail habitat will be reduced by 13.3 % and secondary habitat by 29 %;. This is a maximum overall loss of Igamba Snail habitat of 16.5%. The Igamba Gobe Cichlid would also be reduced by the Stage III scheme. If operated at an EFR of 10 cumecs, primary habitat will be reduced by 17.4 %, secondary habitat by 20.9 % and the total Igamba Gobe Cichlid habitat area will be reduced from approximately 96 ha to 78 ha, a reduction in habitat of 18.8 %. Specialist studies of the biodiversity and presence of fish and other aquatic species have been conducted in the stretch of the Malagarasi River that would be affected by the project. These studies have resulted in the discovery of the presence of a new cichlid species which was recorded only at Igamba Falls. This unusual new species of Orthochromis resembles the genus Gobiocichla. This species was found to be very common throughout the project area but was not found further up river, either in the gorge immediately above the project area or at Uvinza. The distribution of this species is limited and most of its natural range falls within the river reaches affected by the three phases of the project. 128 Three new species of Chiloglanis catfish occur in the project area. All three species are widely distributed in the river and occur upstream at least as far as Uvinza. As suitable habitat exists for many kilometers above the area impacted by the project, it is probable that, while the project will have an impact on the populations, the species will continue to exist outside the project zone. The impact is regarded as negative, long term, and high significance. 7.4.3.2 Reduction of fish population Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation Establishment of coffer Physical barrier Removal of wall and reestablishing dam Stopping/reducing of the dam wall. movements term flow. Removal of coffer Short in dam, increased sediment fluctuations river levels. load. The Stage III dam will have negative impacts on the river ecosystem. The construction of this dam will cut off access by migratory Lake Tanganyika fishes to the long deep run below the main Igamba Falls. Not all Tanganyika riverine fishes negotiate the rapids and falls below the deep run, for instance endemic Tanganyika cichlids and Tanganyika Lates spp do not appear to ascend further than the bottom waterfall. Labeo cf. coubie appears to be the major species that could possibly be eliminated from this short stretch of river. Sampling during the low water period in 2009 and observations using mask and snorkel in 2010, however, revealed that it is resident and is not purely a migratory species during the rains from the lower reaches of the river. Other species that are also present above Igamba Falls, e.g. the two species of Labeobarbus, are also important in the gillnet catches below the falls. Thus the loss of the Lake Tanganyika species from this stretch will not have a major negative ecological or economic impact. The daily fluctuations in water levels may impact on breeding success of fish migrating from the lake up to the pool below the bottom waterfall. Species that breed in shallow water face having their eggs exposed by drops in a level when the dam is being used to build up a head during offpeak periods. African riverine fish species, particularly those that breed during floods are, however, adapted to strongly fluctuating environments, and thus impacts on breeding success of added man-induced level changes may not be severe. The run-of –river design of the project will limit river fluctuations to the dry season when most fish are not breeding. (Most of the fish breed 129 during the rains, and the larger valuable species such as the Labeo and Labeobarbus certainly do. Some may breed throughout the year with the possible exception of the coldest months, e.g. Opsaridium species, but these still have most activity in the rains). Further downstream, the damping effect of the long deep pools and shallow stretches will mean that there is less impact on breeding. Thus, although there is likely to be an impact on breeding success of the hydroelectric scheme, it is very difficult to quantify and is most likely to be low. At the Malagarasi delta in Lake Tanganyika and at the present lake level, the entire ~13 km stretch of river below the lowermost rapids is at lake level with little observable flow. This stretch will therefore not be impacted by fluctuations in level caused by the daily manipulation of flow rates for hydroelectricity generation. In consequence, while every effort should be made to minimize fluctuations and ensure there is no extremely sudden change in flow rate, the effect on the downstream fishery will be very low. The impact is regarded as negative, long term of medium significance. 7.4.3.3 Loss of Terrestrial Wildlife Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation All construction Presence of permanent activities and housing staff of temporary workers in the area There is evidence of a small hippo population in the gorge above the dam site and this population likely represents the lower most distribution point above the Igamba Falls, and possibly connecting populations in the Malagarasi-Moyowosi wetland with those in the delta region of Lake Tanganyika. It is probable that hippos will become resident in the Stage III reservoir. All mammals species recorded have a wide geographic distribution in eastern and southern Africa and are neither rare nor threatened with extinction. Hunting of animals in the area has been high with the past presence of refugee camps and establishment of settlements on the left bank of the river. It is important to ensure that construction crews do not participate in illegal hunting nor purchase bush meat. Some amphibian species observed at the site e.g. the groove-crowned bullfrog and the African clawed frog are dependent on stagnant pools of permanent water for their breeding and survival while some species like the guttural toad and the red toad depend on seasonal water pools for 130 breeding. The diversion of water to produce hydroelectric power may affect the amphibian population that is found between the proposed dam site and tailrace area. Habitat requirements for reptiles appear to be less specific than for amphibians, but it is expected that they too would be impacted from project development activities including habitat loss. The left bank falls under the proposed Masito-Ugalla Conservation area. This area represents one of the more important areas for conservation of globally important species including chimpanzees (Pan troglodytes). Other species of interest in the Masito-Ugalla Conservation area which are listed on CITES appendices include leopards, lions, pangolins, red colobus monkey, bushbaby and African elephant. The evidence that the ecosystem is a home of chimpanzees and several other species of conservation importance makes the area a high priority for conservation. A study by the Jane Goodall Institute, 2008 indicated that chimpanzee nests in MUE were located in riverine vegetation, on rugged hill slopes and woodland habitats. It is possible that with protection, chimpanzees will move back into the riverine woodlands in the Igamba area. Only two species of birds observed during the faunal survey are regarded as threatened. These are the pallid harrier and southern ground-hornbill and neither of these will lose habitat to the project. The impact is considered short term of low significance 7.4.3.4 Vegetation and Habitat Degradation Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation Clearing of sites and lay Flooding of reservoir. down areas, Improved access road. establishment of rock dumps, construction of access road, borrows and quarries. Vegetation of the project area is not particularly unique or pristine. Most of the riverine woodland has been cleared or disturbed for subsistence agriculture and timber trees and the surrounding miombo woodlands have been logged for timber products. The study area is generally interesting in that it contains species with high affinity to Guinea-Congolian phytochorion that extends to Western Africa as exemplified by presence of such species as Monathotaxis poggei, Oldfieldia sp, etc. However, most of such species locally are wide spread and therefore they might not be of conservation concern. 131 Clearing of vegetation for buildings, roads, parking areas and other uses are likely to have the biggest impact on butterflies and moths, as their larva depends on plants for food. However, since most of the species have a wide distribution the impact will be local in nature. The riverine forest patches need to be considered for conservation, as they harbor several forest-dependent species. Most of the species has not been assessed yet for the status on IUCN Red list, (RBA – 2017). The impact is considered short term of medium significance. 7.4.3.5 Impact on Protected Areas and Tourism Project phase and link to activities/infrastructure Construction Operational Construction of the Improved road access dam. to the Igamba area Decommissioning/Rehabilitation Removal of wall and reestablishing fiver flow Upstream are the protected wetlands of the Malagarasi-Moyowosi Ramsar Site. The site is a vast and complex riverine floodplain wetland in the basin of the Malagarasi River in North West Tanzania. Ramsar considers it to be one of the largest and most important wetlands in East Africa. The Site covers an estimated area of 3.25 million ha. The core area comprises lakes and open water in the dry season covering about 250,000 ha, together with a permanent papyrus swamp of about 200,000 ha with large peripheral flood plains that fluctuate widely on a yearly basis depending on the amount of rainfall but cover up to 1.5 million ha. The wetland habitats are surrounded by extensive miombo woodlands and wooded grasslands. These wetlands lie between the upper catchment, which has been developed for agriculture and the lower catchment which tends to remain as forest, grassland or wetland systems. It is thus, a vital wetland system to the preservation of dry season water flow and maintenance of water quality. Approximately 20 km upstream of the HPP there is the Ugalla Forestry Area and not directly affected by the project. The left bank of the Malagarasi River, adjacent to the project area falls into the Masito-Ugalla Conservation area (MUE). Since 2009 the district officials have been moving people out of the area, burning huts and confiscating fishing equipment. The Masito-Ugalla Ecosystem (MUE) is of significant importance with regards Biological Diversity particularly due to its’ resident chimpanzee populations and associated flora and fauna. The Jane Goodall Institute-Tanzania has embarked on a Community Centred Conservation Program for the MUE with the objective to establish mechanisms for the long-term conservation of biodiversity and their habitat, and to increase community’s engagement in sustainable natural 132 resource management. In developing conservation strategies a biodiversity assessment was conducted in 2007 which identified several threats to the biodiversity of the area that would pose challenges for conservation. The threats to Biodiversity in the MUE include: 1. Uncontrolled fire - uncontrolled fire is the highest threat indicator. Causes of fire are reported to include fire set for poaching purposes, honey collection, scaring animals and escaping fire from adjacent villages during farm preparation. 2. Illegal lumbering – this is the second most important threat after fire. Most of the harvested trees include Pterocarpus angolensis (Mninga), Milicia excelsa (Mvule), Pterocarpus tinctorius (Mkulungu) and Brachystegia spp (Miombo). The harvested timber is used for beehives and construction. 3. Illegal hunting – Hunting using different techniques such as snares and organised groups with dogs is evident in the MUE. 4. Honey hunting – beehives, honey camps and debarking for making traditional beehives is generally indicative of honey collecting activities. Human settlements and population increase –The greatest threat to biodiversity in western Tanzania is the loss of habitat which has been propelled mainly by the increasing human population and their needs for farmland, settlements 5. Fishing – The availability of streams in MUE allows fishing activities in the surrounding villages, although some people come from different villages and districts. Fishing is generally illegal. During construction river flow in the lower rapids will be minimal (0.2 cumecs). During the stage 1 diversion and dam wall construction (about 9 months) the lower rapids will be easily crossed and MUE could be exposed to increased illegal use. Tourism is important within the Tanzanian economy and is one of the major drivers of growth. Between 2005 and 2008 tourism increased on an average of 18 % per annum. It was then affected by the global financial crisis as most of the country’s visitors are from developed countries which were hardest hit by the crisis (USA, Europe) (2009 Tourism Sector Survey). There is little doubt that tourism, particularly wildlife and wilderness based tourism, will continue to grow and that in the long term the MUE will become an integral part of the Lake Tanganyika tourism circuit. From a tourism perspective the area has a number of attractions, • the MUE; 133 • the Igamba Falls; • Igamba Rock (Heritage site); • The unique geology of the area creating the potholes; • The uniqueness of the overall Igamba area in evolutionary terms and the endemic species of the area. None of these attributes are presently used for tourism due to the isolated nature of the area, high levels of habitat disturbance and low wildlife densities. The hydropower scheme will be influenced by the implementation of the Malagarasi-Moyowosi Ramsar site particularly its water quality and dry season water flows. The presence of the MUE to on the left bank has important implications for the scheme as the left bank must be respected and disturbance kept to the minimum. There are potential benefits arising from the construction of an access road to the Igamba Falls area to increase tourist access and use of the MUE. In the following assessment the impact of upstream changes are not assessed, rather the impact of the hydropower scheme on the MUE in terms of disturbance is considered. , there will be earthworks and construction occurring and increased access to the left bank both during construction and operation. The impact is considered short term of low significance 7.4.4 Decline in Surface Water Quality 7.4.4.1 Water Quality and Sedimentation of the Ponding Dam Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation Establishment of Operation of scouring camps, construction mechanisms, vehicle maintenance, construction activities, coffer dams, waste management The Malagarasi River and several tributaries provide the source of domestic water (drinking/cooking, washing, bathing, cleaning) for households situated along the river banks and for migrant fishers and timber harvesters. Currently river water quality is good and dry season silt levels low. Most impacts to water quality will come from the construction phase. During construction a number of activities have the potential for affecting the water quality of the river. These activities 134 can include improper handling of fuel, oil, lubricants and other toxic chemicals, improper machinery maintenance resulting in spillage and leakage, and haphazard disposal of construction and operations waste. Improper sanitary facilities for the workforce can contribute to water quality degradation. These contamination sources can affect local users of river water including the introduction of water borne diseases and the ingestion of toxic substances. As well, contaminated water could affect the river’s fishery upon which fishers depend. During construction of the coffer dams there is a high likelihood that soils used in the dam construction will be washed into the lower rapids area. Large volumes under low flow conditions will have a significant effect on the biota and habitats of the lower rapids. Under operation the dam will release a compensation flow into the river. As the system is a runof-river scheme, this water should be of a high quality. Generally residence time of river water in the live storage will be less than one hour for 4 months of the year, two hours for the next 3.5 months and less than three hours 20 minutes for the rest on run-of-river operation. During peaking residence time could be between 10 and 18 hours (Figure 6-1 for residence time of water in live storage). If and when sediments are to be scoured from the diversion canal, this will occur during the low flow period when the water is clear and sediment loads low. Fortunately the scouring will bypass most of the downstream highly sensitive areas where the Igamba snail and Igamba Goby cichlid habitat occurs, but will have an effect of increasing turbidity downstream of the lower falls. Although the quality of the water (particularly turbidity) may change during the HPP construction phase, the increase in turbidity should cause little or no permanent alteration to the physiochemical parameters, and hence, to water quality. The impact is considered short term of low significance 7.4.4.2 Fluctuations in river flows immediately downstream of the dam wall Project phase and link to activities/infrastructure Construction Operational Establishment of coffer Diversion of low dam Stopping/reducing flow water to the flow during construction hydropower station of the main wall during normal operation 135 Decommissioning/Rehabilitation Diversion of the full river flow will be required to facilitate construction of the permanent concrete diversion dam. The river will be diverted, using coffer dams, through a temporary culvert around the construction area location. The new dam will be constructed between upstream and downstream coffer dams. The diversion water will be discharge to the Kabuchweri tributary and then flow via the northern Kabuchweri/Malagarasi channel to the lower falls just above the deep pool. Flow in the river will be disrupted at the location of the dam only and the overall flow of the Malagarasi will not be affected. After construction the diversion culvert will only be used for scouring of sediments when necessary. During this period (Diversion Stage 1) the lower rapids will dry out unless an EFR is pumped around the diversion. The Feasibility Study identifies 0.2 cumecs as the maximum volume that can be effectively pumped. This will keep biota in the main channel alive but the rest of the system will dry out. Following construction of the permanent dam and to facilitate construction of the concrete culvert power canal the diversion channel itself will be dammed. During this phase of the construction operation the dam spillway will come into operation following filling of the dam inundation area of about 13.5 ha thereby allowing normal river flow levels. There may be reduced flow in the river for a brief period during reservoir filling. The main impact area which will experience reduced or no flow will be the area between the two coffer dams where the permanent dam will be constructed and the downstream rapids where a reduced EFR will occur. Flow will continue over the spillway of the dam when it is complete and before it becomes operational. Operational Phase: During the operational phase a maximum of 171 m3/s of river flow will be diverted to enable full power generation. Remaining river flow will be spilled over the dam into the main river channel. Once river flow falls below 171 (for power) +10 (EFR) m3/s then all water will be directed through the turbines and only the EFR of 10m 3/s will be released into the lower rapids. Below 33m3/s the reservoir will operate as storage for daily. The impact is considered of short term with medium significance 7.4.4.3 Fluctuations in river flow downstream of the DIZ Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation Filling of ponding dam Storage for peaking power and release of stored water 136 The proposed optimization of the hydropower potential at the Stage III site will result in the need to temporarily pond water for periods up to 10 hours a day over the three month dry season. During ponding, only the EFR is released (10m3/s). This situation would continue for up to 10 hours or until the reservoir is full, whichever occurs soonest. Then the water will be released through the turbines at approximately 23m3/s, thus together with the EFR, the flow rate will jump from 10 to 33 m3/s. This change in flows will be felt downstream reducing as one move downstream due to the attenuation effect of the river pools until the river drops into the low gradient channel section influenced by the Lake waters just upstream of the Ilanga Ferry. The variation in water level is roughly estimated to be in the order of 2-12 cm (ESBI Study Hydrologist pers. Com). Such variations on a daily basis were observed by the hydrologist during project field work. This impact is considered short term of low significance 137 7.4.5 Noise and Vibration Project phase and link to activities/infrastructure Construction Operational All construction activities, quarrying and excavations Construction traffic Decommissioning/Rehabilitation Turbine operation and traffic Noise and vibration are nuisances but could be considered health issues. Most noise will emanate from working construction equipment, road building equipment and from quarry blasting. Noise and vibration is usually a product of blasting and vehicular traffic although the batching plant will also produce a significant amount of dust. The levels of noise to be expected are unknown and it is not known whether vibration and noise will affect wildlife, particularly the chimpanzees of the Masito Conservation Area. Dust and noise are short-term due to it being mainly from the construction plant operation and therefore limited to the construction phase. Noise is most likely to affect on-site workers if they are not wearing hearing protection. Mostly a nuisance to the local population but could be a serious health issue to workers who do not wear appropriate safety equipment. Because the impact on workers could be quite significant, the impact is rated as moderate. The operation of the hydropower plant may result in a variety of low level noises (turbines) and infrequent noises (vehicles). With the exception of workers in close proximity to the turbines noise will not be a serious impact in this phase. The impact is considere short term of medium significance 7.4.6 Deterioration of Landscape Aesthetic Value Project phase and link to activities/infrastructure Construction Operational Decommissioning/Rehabilitation Construction All physical Removal of all physical structures activities, clearing of developments vegetation, exposure and rock dumps of soil surfaces Landscape is important to consider as it relates to land cover and aesthetics. Construction phase: The landscape at the civil works site will be greatly altered and during the actual construction the altered landscape will be extensive to accommodate the various activities 138 and structures associated with the development of the project. Site rehabilitation following construction will considerably reduce this extensive changed landscape. Coffer dams, the temporary diversion channel, the concrete power canal and the concrete dam will greatly alter the river morphology and the southern bank of the river will be physically modified to accommodate the ancillary buildings, power plant and road infrastructure. Approximately 430,000 m3 of spoil from the construction of the diversion channel will be deposited in an area close to the southern bank of the river. The new access road will alter the landscape, requiring clearance of a corridor 27 km in length and 37 m in width. The route will traverse woodland and farmland. Cut and fill operations will alter the local topography and expose the underlying red soil of the road ROW. The ROW will be void of woodland cover. Road drainage will require modifications to natural drainage systems. The new bridge will change a natural river and shoreline landscape. Since the altered landscape does not involve the significant loss of important resources or the loss of species at risk, the trade-off of the lightly modified landscape for the social and economic gains from the project is acceptable. The impact of the above landscape changes is of low significance. Operational Phase: During the operational phase residual landscape changes will include the concrete dam (300 m wide and up to 8 m high) visible across the Malagarasi some 200 m upstream of the Igamba Falls. A concrete power canal 600 m in length will be located on the southern bank from the dam intake to the power generation building and roads and buildings will occupy the landscape. The river flow system will be changed at the location of the project and the river area upstream of the dam will be impounded creating a small reservoir 13.5 ha extending about 1.5 km upstream of the dam, presenting a large footprint on an undisturbed landscape. River flow over the lower falls will be reduced for about 9.25 months per year. The impact is considered long term of high significance 7.4.7 Social and culture impact of the proposed project 7.4.7.1 Potential loss of Archaeological and Cultural Heritage Sites No places of archaeological importance have been identified in the access road impact area (DIZ) and SIZ. It is possible that during excavations in the DIZ, objects of archaeological values may be located. In such cases the construction work has to be stopped immediately and the archaeological authorities notified. The final access road alignments may affect graves in the DIZ which were said to belong to one family, although the age of these is not known. 139 The construction phase of the project can have an effect on archaeological sites if not kept checked. The operation phase will have minimum effect on such sites. The degree of impact, if sites are present, cannot be determined at present. The Igamba Rock at Igamba Falls is said to be the source for the "Igamba" name. Originally the Tongwe ethnic group which inhabited the area in the long past met at the rock for rituals and ceremonies. There is no recent practice at the rock although the rock has a historical significance related to its past use. Local communities say that little is known today of Tongwe visits to the area for worshipping purposes. The construction and operation phase of the project will have an effect on Igamba Rock site and may hinder worshipping, if it occurs, although there has been no notice of this in the recent years by local communities. The impact is considered short term of low significance 7.4.7.2 Increased threat to Safety, Health and Mobility due to road traffic Some improvements of sections of roads may need to be done for transporting equipment. This will not change access for commercial, health and education services and would have an overall positive impact due some road improvements increase mobility and access. Although the latter will also open up forested areas increasing their vulnerability to exploitation. The proposed 27 km access road to the dam site will improve tremendously the accessibility of villages in the project impact zone. Construction Phase: Road safety is a concern to the communities, due to the possible busier, faster roads going through these villages that can cause accidents. Children are often seen on the roads playing or going to school. Women and youth are responsible for many common property and natural resource gathering activities such as tending farms, medicinal herb collection, fire and construction wood collection, all of which are reliant on paths and roads. Similarly domestic animals and livestock herders are common along roads. The HPP site will have a large number of heavy transport movements for transporting building and excavation materials, and vehicle movements will be required to haul road construction materials (estimated seven ton truck movements per week during peak construction activity). There will also be localized heavy vehicle movements, excavators, and diggers during cut, fill and grading operations along the road. With this number of vehicle movements a local population that is not accustomed to road traffic, particularly children, will be vulnerable to road accidents. Construction vehicles usually travel at a speed suited to road conditions and are not always on the watch for pedestrians. With the amount of traffic anticipated the potential for collision between construction vehicles and with private vehicles is high as with pedestrians, potential for injury and death through road accidents is high. 140 Operational Phase: A small amount of traffic will be experienced during the operational phase and most of this will be associated with the fewer permanent workers living on site and deliveries of supplies and materials. There will be a small volume of traffic associated with the HPP plant. A general increase in traffic can be expected as a result of the new access road. The impact can be considered of long time of medium significance 7.4.7.3 Affected People, and Loss of Assets and Natural Resources Field work revealed that there were several farms with vegetations and also there is one grave found along the planned reservoir area in the Igamba stage III water falls close to the low flow stretch, (more elaboration concern the affected persons will be included on the RAP report). Reducing agricultural land has a big impact to livelihood as was reported during public consultations. The crops detailed in the baseline provide an indication of types of crops and trees that will need to be compensated. The construction of the dam will definitely hinder or reduce the fish catch in this section of river. It was also observed that in this stretch some women fetch water for domestic use; therefore the presence of the project will limit the use of water by women and create inconvenience to water users particularly during the construction phase. There is also a ‘hiding rock’ where women hide when taking a bath. The accessibility to this rock will be limited during construction. This impact is considered long term of high significance 7.4.8 Impacts related to the downstream users due to operation of HPP The World Bank, in their discussion on environmental flows (Environmental flows in water resources, policies, plans and projects: Findings and recommendations – R. Hirji and R. Davis 2009) outline issues relating to water requirements downstream of the reservoir and downstream of the project area (below the tailrace). Most of the emphasis is on the impact of changes in water flow on downstream users, while there is little discussion on the environmental impacts in the zone between the reservoir and the tailrace. This section is therefore separated into two sections, one on the environment and users downstream of the project area and the other on the project area between the reservoir and the powerhouse tailrace. 7.4.8.1 The impact of HPP on river flow The engineering design for the hydropower plant is for full optimization and the building of a 44.8 MW plant that will operate as run-of-river together with dry season daily peaking. The consequence of this is that for flows in excess of 171m 3/s (maximum power production) + 10 m3/s (EFR) water will spill over the dam wall. This will occur on average for 2 months and 3 weeks per year. Below this flow level all water apart from the EFR will be directed through the HPP. Once river flows are less than 33m3/s, then the HPP will act as a peaking plant with the upper three meters of the reservoir being used as live storage. During peaking (and storage) an EFR of 10m3/s will continue to be released and 0 or 23 m3/s directed through the turbines (Refer to 141 Figure 6-2). During peaking the HPP will produce 5 MW power when operating. Power production could be reduced to 8 hours a day. Once river flow is less than 10m 3/s, the entire flow will be released as environmental flow. During flushing of sediments (if they accumulate) the operation will require full release of river flow down the diversion during inflows of between 133 – 215 m3/s and throttled release of flows below this volume (down to a minimum of 80m3/s) . This may result in the environmental flow organ being unable to operate effectively during flushing (up to three hour’s duration). The frequency of flushing of the diversion is not certain. It could occur annually but is likely to be far less frequent. 7.4.8.2 Impacts Downstream of the DIZ EFR requirements will relate to potential impacts on communities using the river system and impacts on the natural environment. The proposed design of the river pond and diversion to be a run-of-river with dry season peaking capacity will result in no change to downstream flows in the wet season, but variations in flows (between 10 – 33 m3/s) below the project area will occur. There are no hard and fast calculations for downstream EFR but there are a number of approaches such as expert panel or the system used in Lesotho Highlands DRIFT (Downstream Response to Imposed Flow Transformations). These approaches are appropriate when there are significant changes to downstream river flows. In the case of the Malagarasi which does not have a storage reservoir (only a daily peaking pond will exist) there are no changes to total volumes and very little fluctuation in flow except for the 2.4 month period when daily peaking will occur 7.5 Cumulative impact The combined, incremental effects of human activity pose a threat to the environment. Although these effects may be insignificant by themselves, they may accumulate over time, from one or more sources, and can result in significant impacts. Thus the cumulative impacts of an action can be viewed as the total effects on a resource, ecosystem, or human community of that action and all other activities affecting that resource. In this assessment the cumulative impacts are identified and assessed using a expert observation and knowledge together with a description of the probable future developments/environment 7.5.1 Likely Socio-Economic Developments within the River basin The future situation will be changed, regardless if the project goes ahead, by the following future developments/events: 142 1. Increased land pressure adjacent to the project area, along the access route with expansion of arable agriculture throughout the right bank. Water quality will decrease steadily. 2. Increasing land pressure may increase political pressure for the de-zoning of the Protected Area (Masito-Ugalla Ecosystem) on the left bank particularly if tourism and tourism related revenues do not increase. 3. Demand for electricity will increase exponentially as power supply becomes available and the residents of the area become more sophisticated in their needs. 4. TANESCO will connect the west of Tanzania to the East through a transmission line linking the regions. 5. Power from hydro will be a limiting factor during the dry season and there will be pressure to improve reliability of supply. 6. Land pressure for arable agriculture will continue to increase in the upper catchment of the Malagarasi. Irrigated agriculture particularly dry season irrigation will increase as will cultivation of wetlands for rice production. 7. The Malagarasi-Moyowosi Ramsar Site will come under increasing pressure for its resources (grazing, arable land and water). 8. Global warming is predicted to affect Tanzania by reducing dry season flows in the central areas of Tanzania and increasing silt loads in river water. The above will result in reduced dry season water flow, increased wet season flooding, degradation of the basin catchment and put pressure on protected areas to be made available for arable agriculture and livestock production. 7.5.2 Predicted Cumulative Impacts Based on the above predicted (no project) situation, the cumulative impacts for the various geographic scales and time periods are outlined in (Table 16). 143 Table 16: Cumulative Impacts Assessment Scale Time Pressure Short term (5 year) Short to Medium (10 years) Impacts Long term (50 years) Mitigation Pressure Impacts Mitigation Pressure Increase the presence of resource management authorities Increased resource use due to improved road access Non sustainable timber abstraction and overfishing. EFR Reduced leading to loss of biodiversity habitat TANESCO to As for 10 years work with district authorities/Jane Goodall Institute within the Igamba Falls area. No fishing in the downstream rapids Increased settlement and resource use due to improved road access. Pressure to extend hydropower to stage II site. Increase in tourism and Stage II developed. land degradation, increased timber harvesting, increase fishing, excursions into MUE. Loss of most of the critical Wider distribution of species of biodiversity concern must be proven. Increase support for policing and tourism development in the MUE Impacts Long term (100 years) Mitigation Pressure Direct Hydropower Impact Zone Increased resource use due to creation of jobs and improved road access Non sustainable timber abstraction and overfishing As for 10 years Igamba Rapids and Surroundings Increased settlement and resource use due to creation of jobs and improved road access. Steady increase in tourism land degradation, nonsustainable timber abstraction and overfishing, excursions into MUE, social disruption Increase presence of resource management authorities in the Igamba area Pressure to extend hydropower to stage I site to provide reliable dry season power generation. Pressure to rezone the MUE for agriculture 144 Stage I developed. Additional biodiversity impacts. Loss of the MUE conservation area, loss of chimpanzee habitat Support for tourism development and policing of the MUE As for 50 years Impacts Mitigation Scale Time Short term (5 year) Short to Medium (10 years) Long term (50 years) Long term (100 years) return of aquatic chimpanzees habitat River Basin and District Power optimisation will result in up to 41.5 kW power generation New transmission line corridor, probably greater land take and different social impacts Full power transmission study required together with ESIA on route alignment and impacts. RAP probably required. Rapid demand for electricity in western Tanzania. Increase in irrigated arable agriculture, Reduced dry season flows, dry season power supply erratic, increased livestock and arable farming into the Ramsar Site New power generation facility required. EFR reduced to increase dry season power, loss of biodiversity habitat below Stage III and in the Stage II area Development of alternative sources of power such as renewable energy. Research into the EFR to ascertain if it can be reduced. Biodiversity surveys to see if species of concern have a wider distribution. TANESCO to have institutional representation at the National Ramsar secretariat Increase in irrigated arable agriculture, drying out of wetlands, significant reduced dry season flows due to irrigation and climate change, increased levels of silt in river, dry season power supply very erratic, settlement into the MalagarasiMuyovozi Ramsar Site. 145 New power generation facility required. No EFR , loss of biodiversity habitat below Stage II area. Loss of habitat in the Stage I area. Downstream impacts due to construction of a storage reservoir, increased rate of flushing out of sediments required in Stage III and II reservoirs. Development of alternative sources of power such as renewable energy. Establish effective regional transmission line interconnectors. TANESCO to maintain institutional representation at the National Ramsar secretariat As for 50 years but problems of dry season water supply for hydropower compounded by global warming. Scale Time Short term (5 year) Short to Medium (10 years) Long term (50 years) Long term (100 years) National/Regional Excess power production during the wet season and just sufficient for the dry season Loss of Establish a revenue suitable due to transmission wastage of line excess interconnector power linking capacity western Tanzania to the east Rapid increase in demand for electricity throughout Tanzania makes dry season water supply erratic Pressure at the district level to expand the Malagarasi cascade to Stage II and reduce EFR Alternative dry season power sources established Increase in population, power demand and irrigated agriculture. National power shortages particularly in the dry season. Dry season river flows reduced. Diversification of the national power sector to other power sources for base load electricity. National programs on river basin and catchment management Sig. Red. Dry season flows, water for irrigation and reduced crop output Global warming impact on biodiversity, Social conflict over water, reduced economic returns from hydropower and irrigated agriculture Long term power supply policy in place, diversification of the economy, effective river catchment management However the impact synergy or cumulative impacts are still within acceptable limits and the available mitigation measures will reduce the significance of impacts. However, regular monitoring of the impacts will ensure the impacts are within the acceptable levels. 146 7.6 Mitigation measures The mitigations outlined in this section should be considered within the context of the proposed three stage cascade hydropower scheme. Stage I was to be a storage reservoir which would store sufficient water during the wet season for a steady release of dry season water to power the hydropower stations. The impact of the large reservoir and the flooding of the gorge upstream of the Igamba area were considered to be of high biodiversity concern and were rejected after the initial Norplan assessment (2009). As mitigation to the entire cascade scheme, Stage II was assessed as a run-of-river scheme which would produce up to 8 MW power. During the environmental evaluation and subsequent Rapid Biodiversity Assessment (RBA 2009) it was found that the reservoir would flood most of the prime habitat for endemic rage limited species of fish (Igamba goby cichlid- Orthochromis sp) and a snail (Igamba Snail - Pila ovate). The potential of endangering these species and the enormous EFR led to the need to protect their downstream habitat, and therefore made the scheme non-viable and resulted in a rejection of the Stage II Reservoir. The earlier studies highlighted that the Stage III hydropower scheme would flood very little critical habitat and leave the habitat of the main snail and cichlid populations undisturbed. These mitigations therefore relate to the development of the Stage III scheme only and do not consider either Stage I or Stage II. 7.6.1 Mitigations for Biophysical Impacts 7.6.1.1 Climate and Greenhouse Gas Emissions Construction: Ensure full rehabilitation of vegetation in all disturbed areas. Limit ROW clearing to width required. Decommission and rehabilitate works areas and camps at the end of construction. Innovative ways to reduce fuel consumption e.g. use of rail to transport equipment and resources to site. Carry out efficient storage of fuel and prevention of leakage. Maintain record of fuel use and all fuel savings. 7.6.1.2 Soils Erosion Construction: Contractor to provide detailed plans for cut and fill areas, establishment of embankments and management of cut material. Plan to include landscaping and rehabilitation of all the embankments. Closure and rehabilitation of all cleared working areas and temporary tracks. During construction ensure that vehicles use approved roads and tracks only. Ensure that the road access is the most suitable in terms of using the natural contours. Drainage management and bank side stabilization during the construction phase will be critical to the prevention of erosion and landslides. 147 Operation: Regular maintenance of the access road, ensure drainages are clear and all erosion gullies immediately rehabilitated. Monitor stability of all embankments annually. Rehabilitate where necessary 7.6.2 Biodiversity 7.6.2.1 Loss of habitat of limited range endemic species Pre-construction: Although there has been scientific focus on the Igamba Falls area, further work would greatly improve the approach to species reintroduction activities, reduce threats to the existing populations and add to our understanding on the range limited endemic species biology and distribution. At a minimum the following research is required during the pre-construction period: • A 6-8 week field research program at low water each year, which allows good access to the river, with an invertebrate specialist, a fish specialist, an aquatic plant specialist and a hydrologist/ hydro chemist to look at flows and water quality in more detail. Some funding to be put aside for taxonomic work (genetic study as well as morphometrics). There is no real need for more general collecting. • Further investigation to verify that the “new mollusc” snail is the same as the Uvinza specimens. In addition, a new species of Potadomoides with a sculptured shell was found living sympatrically with the smaller, smooth-shelled P. pelseneeri at the same site in the lower rapids as the Igamba snail. This is probably the same species as that reported by RBA (2009) from upstream near Uvinza. • The following recommendations from the Independent Panel Report should be covered during research: Dry season mapping of the flows, including the mapping of permeability of the rock strata at the project site. • The field program needs to be specific about its objectives. It must focuses on specific biodiversity issues and the ecology and distribution of the key species of concern. The results should be used to guide the restocking activities, protection of the aquatic environment and outline the long-term and robust biodiversity monitoring program. Construction: Cessation of flow for more than a few days even during the dry season will probably result in loss of the Igamba snail population in the river section between the proposed dam wall and the deep pool where the tailrace will be discharged. Increased fine sediment loads during the low flow period will also impact on the snail population’s food resources. There should therefore, be no reduction of flow below the prescribed EFR for more than three hours in duration within a 24 hour period. In the case of longer periods of water flow stoppages, reduced EFRs or moderate to high dry season silt levels, there will be need to monitor survival of the snail population (6-10 months later) and reintroduce snails into the downstream rapids from the 148 upstream areas. These should be released in groups of five onto vertical or overhanging surfaces in shaded underwater areas on the lee side of rocks in the main channel. Preferred release sites are indicated (Fig 27). If excursions occur, a minimum of 50 snails should be reintroduced at the end of the construction period. Reintroduction of Igamba Snails to the EFR section of the river • Snail: Specimens will be collected by hand using mask and snorkel from the population in the unaffected reaches above the main Igamba waterfall. They will be introduced in suitable habitats at, and very close to, the site where the species was observed in the sampling in 2010 (Fig 27). Unless further aquatic research indicates otherwise, it is suggested that 50 specimens are translocated in the first instance. The reintroduction cost would simply be the time for George Kazumbe (a diver with experience in locating Igamba Snails) to go and collect the snails and carry them downstream and release them. The site to translocate to is the rapids below the long deep stretch below the main falls. The location where snails were found in the lower rapids is 5°10’42”S, 30°03’33”E. Monitoring of the success of reintroductions would be best done by snorkeling at low water over the following three years, mainly in the area of release but also ranging more widely over that rapids section. Follow-up supplementation from upstream should also be done over three years post construction. It may be feasible to mark trans located ones with painted numbers on the shell and therefore use standard fish-style mark-recapture experiments. This may draw attention to them and put them at greater risk of predation and this approach could be tested during the field program that will be carried out prior to and during construction. • The cichlid should be able to recolonise naturally from both up and downstream. Success should be monitored by snorkelling at low water each year and documenting densities. • All monitoring results to be reported to TANESCO, a copy kept at the HPP office and copies sent to NEMC and the LTBWO. The pumped EFR of 0.2 cumecs proposed for the duration of the stage 1 diversion (main dam wall construction) in the feasibility study is well below the prescribed EFR and will require monitoring and species reintroductions after the specified EFR is restored. The pumping operation must be installed prior to river closure so that there is no total drying out of the lower rapids. Options to reach the desired target EFR of 10 cumecs during the stage 1 diversion should be explored. Pumping of 0.2m3/s must be considered the minimum requirement. 149 The Mott MacDonald (2009) report concentrates specifically on one of the three Chiloglanis species, the one referred to as the Igamba suckermouth catfish (referred to in Tables in this report as Chiloglanis sp. 2), but the recommendations made therein are applicable to all three species. These recommendations are specific to the potential impact of the Stage II scheme, are endorsed in this report: “In order to minimize loss of habitat for the Igamba suckermouth catfish, [it is recommended] that a sufficient minimum flow be agreed upon and maintained during the dry season to flood a reasonable portion of the rocky scour pool habitat at (main) Igamba Falls. For this species and the other rapid specialists, maintaining a relatively constant high velocity of flow even in a relatively smaller portion of the river is likely to be more important than having a larger water volume that flows more slowly and is not constant throughout the dry season period. However, insufficient information is available at present to determine the amount of environmental flow required to mitigate impacts on the Igamba suckermouth catfish population within the Igamba Falls area. Furthermore in the years subsequent to the dam becoming operational, follow-up assessments of populations both upstream and downstream of the reservoir are strongly recommended.” 150 Figure 27: Approximate distribution of the Igamba Snail showing the area of habitat downstream of the dam that will be preserved under a 10m3/s EF release Operation and Closure: As stated above additional information and analysis is required to amount of environmental flow required to mitigate impacts on the Igamba sucker mouth catfish and other sensitive species within the Igamba Falls area. Initial studies indicate that the EFR should be, at a minimum, 10 cumec. No future development of stages II and I that fall within the Igamba area is recommended unless the range limited species are located in other areas and or other river systems and development would not harm the species. The ERF should be concentrated towards the main channel and not spread. This is to ensure “normal” flow velocity and deeper water in the main snail habitat areas. The desire to protect endangered and range restricted species, as described in this document, is an expression of international good practice. The Performance Standards of the International Finance Corporation (IFC) provide a useful reference point, codifying many of these good practices. Evidence presented in this document indicated that the Malagarasi River is important for endangered endemic or range-restricted species as well as highly threatened or unique ecosystems. Using the IFC Performance Standards, as a reference, these areas would be considered “critical habitats.” Development is only recommended when: (a) no viable alternatives exist in the region to develop the project on areas that are not critical habitat; (b) the project does not lead to measurable adverse impacts on those biodiversity values for which the critical habitat was designated or on the ecological processes supporting those values; (c) the project does not lead to a net reduction in the population of any Critically Endangered or Endangered species over a reasonable period of time; and (d) a robust appropriate long-term biodiversity monitoring program is integrated into the Environmental Management System. Where these conditions are met, the project’s mitigation strategy should be designed to achieve net gains of the biodiversity values associated with the critical habitat. It is recommended that Stages I and II are to remain as environmental offsets to protect the upstream biodiversity. To meet international good practice additional analysis and measures would need to be taken. To ensure that the offsets are kept in place unless research indicates that the range limited endemic populations will not be threatened by further hydropower developments, the following is required: • Establishment of an oversight committee by the LTBWO to provide independent opinion. The sub-committee should include key stakeholders such as the University of Dar es Salaam and the Jane Goodall Institute (JGI), together with district and NEMC. 151 • The oversight committee should also ensure that and integrated land use plan for the upper Igamba area is prepared and conservation measures implemented. Strict enforcement of “no go” areas upstream of the dam wall and in the MUE Protected area adjacent to the DIZ, Entry into such areas must be approved by the ESO. 7.6.2.2 Loss of fish migration During Construction and later during Operation and Closure, follow-up assessments of populations both upstream and downstream of the reservoir will be required. During periods when there is no flow between the dam and the tail race (e.g. during sediment scouring) or when there is only EFR in this section of the river, fishing, clothes washing and natural resource abstraction should be prohibited. Operational procedures in place to phase river flow changes during peaking. 7.6.2.3 Loss of Terrestrial Wildlife Construction: Limit clearing of areas to the minimum and ensure that limits of areas to be cleared are effectively marked. Importance of the left bank for chimpanzees should be emphasized during induction training. Severe penalties established for illegal hunting, trapping or purchase of bush meat. Establish links with MUE authorities and Jane Goodall Institute to increase their presence in the area. Operation and Closure: Severe penalties established for illegal hunting, trapping or purchase of bush meat. Support for district conservation activities should be provided. The riverine forest patches need to be considered for conservation, as they harbor several forest-dependent species. 7.6.2.4 Loss of Vegetation and Habitat Construction: Construction teams to be induced on issues of habitat protection, minimum clearing of areas, fire control and to be made aware of the orchid species of concern. A wet season survey of vegetation will be required to locate rare plant species within the proposed reservoir. All orchids identified within the 843 m.a.s.l flood line of the reservoir should be moved onto similar habitats on the left bank in the MUE. Operation and Closure: During operation: No cultivation around the reservoir, total ban on timber abstraction within the project area under TANESCO control and no movement of timber out of the Masito Conservation Area via the access road. 152 7.6.2.5 Disturbance of Protected Areas and Tourism Construction: During construction all measures to minimize permanent or long term damage to habitats on the left bank to be undertaken. Construction staff to be fully inducted on the importance of the MUE and penalties for unnecessary damage imposed. TANESCO to work with the local authorities and the Jane Goodall Institute to prevent the exploitation of natural resources within the ecosystem during construction, the funding and housing of MUE rangers during the construction phase will be necessary. The project must manage all major threats to the MUE i.e. control, within its mandate, fire, lumber abstraction, hunting, debarking of trees, and settlement. Access across the lower rapids should be restricted and the local community involved in enforcing the protection of the MUE. Aesthetics and the value of the landscape must be taken into consideration when designing all structures associated with the hydropower facility. Every effort should be made to limit visual impact on the main Igamba Falls, the Igamba Rock and the MUE. The Malagarasi River, from the base of the Main Igamba Falls upstream is to be out of bounds for any form of construction activity. Access roads are not to be established into the upper Igamba area. Operation and Closure: Permanent staff based at the hydropower plant to be fully aware of the conservation importance of the MUE and to operate the TANESCO managed area as if part of the MUE. Tourism into the Igamba Rock and waterfalls areas should not be hindered and formal inclusion of the main Igamba Falls into the MUE should be actively considered. TANESCO has direct interest in the successful implementation of the Malagarasi-Moyowosi Ramsar Site and should have some form of active involvement by, at a minimum sitting on the committee of the Ramsar site and registering their interests with the appropriate authority. Involvement in river basin catchment programs – managing land use upstream of hydropower dams would be a cost-effective measure. This would include TANESCO becoming a prominent institutional member of Ramsar wetland management initiatives and other basin catchment programs. Activities would include river basin management planning, improvements in agricultural extension activities to increase water management efficiency in irrigated agriculture, improved land management and sustainable livestock densities in important river basin areas. 153 7.6.3 Surface Water 7.6.3.1 Water Quality and Sedimentation of the Ponding Dam Pollutants reducing water quality: Procedures must be in place prior to establishment of the site for the handling of fuel, oil, lubricants and other toxic chemicals, machinery maintenance and emergency procedures. Materials and spillages from the diversion working areas are to be actively prevented from washing into the downstream rapids. At a minimum the following fuel/oil transport, handling and management are required: All transport of fuels and oils should only be conducted by transporters who are licensed to handle hazardous substances; Storage containers to be locate at least 100m from surface water; Fuel tanks and drums should be stored above ground and fuels tanks should be located within a secondary containment. The concrete bunded area or impermeable liner should be able to hold 110% of the total tank capacity; Workshops and vehicle service areas and fuelling points should have a concrete floor that reticulates water run-off into a soak away with in-line oil trap; Fuel transfer from storage to equipment to be supervised; Use a drip tray in fuel transfer areas. Emergency Response An emergency response plan must be provided for the storage of 1000 litres of fuel or more. Disposal Contaminated soils should be treated or rehabilitated on a geo-membrane lining (preferably Polyvinylchloride). Hydrocarbons are not to be discarded on the ground nor placed with nor disposed of with other refuse in solid waste containers; All oil filters to be completely drained to ensure that they do not contain hazardous substances; Old and used oil should be safely stored on-site in sealed containers at a central point and should be collectively taken to a recycling area. Disposal procedures for solid waste to be established and proper sanitary facilities provided. Due to the importance of water quality to biota, a water monitoring program to be implemented which collects and analysis water samples upstream at the Stage II dam site and downstream at 154 the pool where the tailrace will discharge. Apart from the standard parameters of temperature, total dissolved solids (TDS), suspended load, conductivity and total, pH, Total suspended solids (TSS), Turbidity, additional parameters to include are dissolved oxygen (DO), Nitrate (N), Iron (Fe) and Manganese (Mn). Sediments washing into the downstream rapids: Detailed procedure for the establishment of the coffer dam showing how sediments will be prevented from entering the river will be required. In the case of an excursion (accidental release of sediments), restocking of the lower rapids will have to occur after the next high flow period has cleared out the sediments from the downstream habitat. Sedimentation of the reservoir and inlet canal is not considered to be a problem. 7.6.3.2 Fluctuations in river flows immediately downstream of the dam wall Construction: The environmental flow organ will be operating immediately after completion of the main dam construction. This will mean a no flow period of at least 12 months. A mechanism to allow EFR during construction of the dam must be identified. If not, then restocking of species of concern to the lower rapids will be required. These species will be sourced from the upper rapids. The Feasibility Study has identified that an EFR of 0.2 cumecs will be pumped over the stage 1 diversion weir during construction of the dam wall. This water is to be released back into the main channel. No fishing or other aquatic resource collecting to occur in the lower rapids during construction. At the end of construction of the main dam wall, the health of the aquatic biota in the lower rapids to be assessed and reintroductions of key species to be undertaken if necessary. Operation: An EFR of 10m3/s will be required as a permanent minimum flow in the downstream rapids area. Cessation of EFR limited to a maximum of three hours continuous within a 24 hour period. No fishing or other aquatic resource collecting to occur in the lower rapids when river flows are limited to the EFR or less. 7.6.3.3 Fluctuations in river flow downstream of the DIZ Close off water flows over an extended period of ca half an hour and similarly commence with high flows slowly to reduce surge effect and impact on river banks. Monitor downstream fish populations for signs of impact on breeding. Monitor river bank stability within five kilometres of the tailrace for change in rates of erosion. Based on the findings modify the peaking operations 155 7.6.3.4 Generating Noise and Vibration Construction: Although the impact is low, it must be mitigated through: • Dampening down of tracks through settlements when heavy traffic volumes expected. Preparation of air quality management plan. Haulage trucking may only operate during daylight hours. No haulage traffic on Sundays. • Establish complaints procedures with local authorities. • Use of safety equipment by employees when exposed to high dust or noise levels. 7.6.3.5 Disturbing Visual and Landscape Construction: The short term impacts during construction can be limited through re-vegetation and rehabilitation of all laydown and construction areas particularly camps borrows and quarry. It is important that the presence of the MUE area is considered during detailed design and the long term potential of tourism is not lost through high visibility structures and excessive night time lighting. It is common around hydropower plants to flood the working areas in light. This practice should be avoided and lighting limited to essential areas only with all lighting to be directed downwards. An audit of visual impacts should be undertaken of the design prior to approval and again at the end of construction. All potential tourism sites are to be preserved. Operation: The hydropower station and related facilities to be managed with the understanding of its impact on the MUE. Regular liaison with the MUE district authorities and the Jane Goodall Institute should be maintained to limit power station impacts on tourism and maximize opportunities. This institutional arrangement should be established during the detailed design phase. 7.7 Mitigation of Socio-Economic and Cultural Impacts 7.7.1 Destruction of Archaeological Sites and Cultural Heritage Construction: During excavation special attention should be paid to the chance occurrence of archaeological artefacts and sites. Drivers of excavating machinery should be made aware of such chance finds and what procedure is to be followed upon the sighting or location. Under Tanzanian law and best practices, construction has to cease in the vicinity of any chance find of an artefact and an archaeologist is required to clear the find site before any further excavation or construction can commence. The Contractor must have a registered archaeologist available should artefacts be located. 156 A Cultural Heritage Plan should be developed to allow for the actions that would need to be taken in case of a chance find. In addition the use of the Igamba Rock for rituals should be monitored, in case there are renewed occurrences of rituals by the Tongwe ethnic group. Stakeholders should be kept informed of chance finds and the Cultural Heritage Plan should it need implementation. See also Physical Cultural Resources (PCR) Safeguard Policy (World Bank: Operation Policy OP 4.11 and Bank Procedures BP 4.11, IFS PS (Cultural Heritage). Operation: There should be minimum impacts during the operation period. Any observations or finds made during the construction period should be followed up during this period. 7.7.2 Public Health and Sanitation Construction: A Public Health and Sanitation Support Plan should be developed which addresses the following issues: local community health status and needs, upgrade the local medical facilities (clinics) to accommodate the increase in the local populations due to project related influx, setup health clinics for workers in the camp sites, run regular health and sanitation awareness campaigns in the local settlements, schools and for project workers. The proponent may benefit by establishing regular health check clinics in the DIZ and SIZ. Partnership establishment with NGOs and Government line agencies will help keep impacts under control. The emergency health needs in the DIZ and SIZ should be improved as at present the options available to the public are almost non-existent. Details of the plan are included in the EMP. Ensure that the requirements of the plan are included in staff induction and training. Operation: The Public Health and Sanitation Plan should be continued into the operation phase but at a lower scale. 7.7.3 Road Safety, Health and Mobility Although traffic volumes during the construction phase will be relatively high these volumes will diminish significantly once construction has been completed. Traffic volumes during the operational phase will be minimal. A Traffic, Road and Construction Plan should be developed and can include: • Heavy traffic and the movement of equipement will occur through hamlets and villages. This can potentially impact local people, domestic animals, and children etc. Drivers and local communities have to be made aware of road safety, warning and emergency systems. Increasing awareness among drivers, workers and communities about road safety and periods of heavy traffic. Night time traffic should be regulated and avoided. Any road upgrading should consider including asphalt surfaces (or other similar techniques) to optimise benefit in improving access, reducing dust and facilitating use all the year round compensation procedures should accidents occur. 157 • Employing (and training, where necessary) affected people in road upgrading. This should be a tendering condition for the Road Construction Contractors. Prepare Health and Safety materials such as ‘Dos and Don’ts’ posters, small books and leaflets with cartoons, many pictures and maps that children can understand. Road signs in key areas warning drivers of potential dangers with children and animals etc. • Train teachers on how to teach children the above safety issues using the materials as part of school program on ‘Malagarasi HPP health and safety for children issues’; Instruct children to share their training materials with other children who don’t go to school in their households and with their parents (children should be allowed a take home Malagarasi Safety Awareness ‘Do’s and Don’ts’ Poster). Child targeted traffic safety campaigns to raise awareness. Consider introducing school buses for children who have to walk long distances on a daily basis. Traffic management plans that are cognizant of times of school • Bus movements and to include appropriate driver training and vehicle maintenance. • Make a Health, Safety and Security Sub-Plan as part of the Traffic and Road Plan and the Construction Management Plan (including precautions for construction related waste, combustibles, explosives, etc.). • Include in the Construction Management Plan a “Good Neighbour” policy. Include in the Public Communication and Disclosure Plan the time-line for the above suggestions. 7.7.4 Affected People, and Loss of Assets and Natural Resources Construction Phase: once the final project design is in place, a detailed land and asset loss mapping and assessment should be carried out as the first step to update the RAP (to World Bank OP 4.12 standards) process for the Stage III scheme • A full RAP should be carried out to cover the new Stage III Hydropower DIZ and any changes to the access road alignment and transmission line corridor. • Communicate process and implementation of a Fair Compensation Strategy. • Effective public communication and disclosure plan should be prepared and executed. • Alignment may be changed to avoid houses, where possible. • An overarching Social Development Plan should include a livelihoods restoration program. An overarching Social Development Plan should be developed to include sub-plans for (i) increasing awareness among communities and project employees of local cultural and livelihoods, and use of natural resources, (ii) general and, in particular, youth and women tailored programs for awareness in relation to health (STDs for example), gambling and alcohol, (iii) 158 livelihoods restoration (agricultural and husbandry sectors in particular) and SME training, where requested (see also affected people impact assessment) (Livelihood Restoration Program/subplan), and (iv) provision of meals and recreation possibilities within camp sites, where possible. The respective sub-plan should include the establishment of clarity in terms of rights over natural resources, to avoid conflicts and help with influx management. A time-line for public engagement, monitoring and evaluation should be established in a Public Communication and Disclosure Plan (PCDP). Note that separate public meetings for men and women will be required. Operation and Closure: Aspects of the Social Development Plan should continue as seen necessary based on the monitoring and evaluation. The SDP will continue through the life of the project. 7.7.5 Employment (Benefit Enhancement) • Make an Employment Policy that prioritizes affected and local people. • Produce labour/skills needs specifications. • Make training programs to include development of longer-term skills for sustainability, to increase employment in the region. • Include the above in a Social Development Plan (e.g., Livelihoods Restoration Program) 7.8 Details of the Social Mitigation Plans Recommended A summary of the plans is presented in Table 17 and detailed in this section 159 Table 17: Social Mitigation Plans Social-Economic and Cultural Plans Programs/Sub-Plans Comments I Cultural Heritage Plan II Public Health and Sanitation Support Plan III Traffic, Road and Construction Plan and To be implemented if there are chance finds IIIa. Health, Safety and Security Sub-Plan IIIb. Construction Management Plan IV Social Development Plan (SDP) V Resettlement Action Plan (RAP) VI Public Communication and Disclosure (PCDP) 7.8.1 Cultural Heritage Plan Rationale: It is possible that during excavations in the DIZ, objects of archaeological value may be located, although no places of archaeological importance have been identified in the access road impact area (DIZ) and SIZ. In case of chance finds the construction work has to be halted and the archaeological authorities notified and due action taken and a contingency Cultural Heritage Plan would be necessary. In addition the use of the Igamba Rock as a ritual site appears to have ceased although when this last occurred is unclear and if it continues to be a cultural site has to be monitored. Content of the proposed Cultural Heritage Plan: A detailed Cultural Heritage Plan covering the construction and operation phases should be developed to allow for the actions that would need to be taken in case of a chance find. See the Physical Cultural Resources (PCR) Safeguard Policy (World Bank: Operation Policy OP 4.11 and Bank Procedures BP 4.11, IFC (PS8-Cultural Heritage) for aid in developing such a Plan. The following aspects must be included in the plan: • Awareness building among workers involved in project area on what may make up a culturally significant site or artefact. Particularly important is that drivers of excavating machinery should be made aware of such chance finds and what procedure is to be followed upon the sighting or location. 160 • Monitoring of the Igamba Rock area to keep an account of the potential use of the rock for ritual and ceremonies. The ‘Tongwe’ ethnic group was once known to use the area. • Stakeholders should be kept informed of chance finds and the Cultural Heritage Plan should it need implementation. • Any observations or finds made during the construction period should be followed up during the operation period. The ESMU team of the developer is responsible for this plan. Its implementation may be done with the appropriate line agency where protocols for cultural sites exist. Both international and national consultants will be necessary for planning and monitoring. 7.8.2 Public Health and Sanitation Support Plan Rationale: There is a general shortage of medical facilities and medication in the DIZ and SIZ villages. At Kazuramimba there is a limited supply of medication. The general health and level of communicable disease in the population and project workers will be within the sphere of influence of the project particularly in the DIZ and SIZ. Malaria constitutes one of the leading causes of deaths in the region. The presence of a large workforce and camp followers can significantly impact the status of general hygiene and STDs. Content of the Public Health and Sanitation Support Plan A Public Health and Sanitation Support Plan should be developed to address the following issues: • Verify local community health status and needs, and upgrade the local medical facilities (clinics) to accommodate the increase in the local populations due to project related influx. • Run regular health and sanitation awareness campaigns in the local settlements, schools and for project workers. Awareness campaigns must include themes such as: (i) stagnant fresh water bodies and rubbish dumps as congenial habitats for mosquitoes and snails, the main vectors of malaria, and bilharzias; (ii) diseases of public concern and cause of higher morbidity and mortality rates that depend on the availability of clean water; (iii) Lack of adequate and safe water supply (exacerbated by inadequate toilets) cause water-borne diseases including typhoid, cholera, diarrhoea, amoeba, blood diarrhoea, intestinal worms, scabies (skin disease), and fungal diseases; (iv) sexually transmitted diseases, and (v) tsetse flies and simulium flies which are the cause of sleeping sickness and river blindness (onchocerciasis) disease, respectively. • Target HIV as part of the awareness campaign as Kazuramimba is already regarded as a HIV transmission area - prevalence of clinical AIDS is now 2 %. There are a number of NGOs working covering the impact zones of the project dealing with HIV/AIDS which may be open for partnerships. 161 • Target awareness campaigns for migrant workers and sex workers from other urban centres, and the local population. Interactions among these groups may give rise to an increase in levels of HIV/AIDS and other STDs amongst both the local population and the worker group/s. This is particular to workers who have a cash income versus the local population that does not. • The proponent may benefit by establishing regular health check clinics in the DIZ and SIZ. Among addressing various health issues mentioned above the health check clinics can also help tackle the substantial migrant work force and camp followers who may act as vectors to carry blood transmitted diseases, including malaria, hepatitis and yellow fever to or from the area. Unsanitary work camps and crowded conditions could provide the basis for plague. • Set-up health clinics for workers in the camp sites • Partnership establishment with NGOs and the Government of Tanzania line agencies will help implementation as well make awareness building streamlined with those already present. • The emergency health needs in the DIZ and SIZ should be improved as at present the options available to the public are almost non-existent. • The Public Health and Sanitation Plan should be continued into the operation phase but at a lower scale. 7.8.3 Traffic, Road and Construction Plan Rationale: Some improvements of sections of roads may be needed to be done for transporting heavy equipment. This will not change access for commercial, health and education services and would have an overall positive impact due some road improvements increase mobility and access; although the latter also opens up forested areas vulnerable to exploitation. The HPP site will have a large number of heavy transport movements for transporting building and excavation materials, and vehicle movements will be required to haul road construction materials. There will also be localized heavy vehicle movements, excavators, diggers etc., during cut, fill and grading operations along the road. With this number of vehicle movements a local population that is not accustomed to road traffic, particularly children, will be vulnerable to road accidents. Road safety is a concern to the communities, due to the possible busier, faster roads going through these villages that can cause accidents. Children are often seen on the roads playing or going to school. Women and youth are responsible for many common property and natural resource gathering activities such as tending farms, medicinal herb collection, fire and construction wood collection, all of which are reliant on paths and roads. Similarly domestic animals and shepherds are common along roads. Dust and noise are nuisances but could be considered health issues. Most noise will emanate from working construction equipment, road building equipment and from quarry blasting. Dust 162 is usually a product of blasting and vehicular traffic. Dust and noise are of a short term nature. Similarly toxic waste material, explosives and combustibles from the construction activities can cause harm. Special precautions must be included in the contractor’s requirements. Content of the Traffic, Road and Construction Plan • Although traffic volumes during the construction phase will be relatively high these volumes will diminish significantly once construction has been completed. Traffic volumes during the operational phase will be minimal. Increasing awareness among drivers, workers and communities about road safety and periods of heavy traffic. Night time traffic should be regulated and avoided. Any road upgrading should consider including asphalt surfaces (or other similar techniques) to optimise benefit in improving access, reducing dust and facilitating use all the year round. Heavy traffic and the movement of equipment will occur through hamlets and villages. This can potentially impact local people, domestic animals, children, and shepherds etc. Drivers and local communities have to be made aware of road safety, warning and emergency systems. • Set-up speed limits. Construction vehicles usually travel at a speed suited to road conditions and are not always on the watch for pedestrians. With the amount of traffic anticipated the potential for collision between construction vehicles and with private vehicles is high as with pedestrians, potential for injury and death through road accidents is high. • Employing (and training, where necessary) affected people in road upgrading. This should be a tendering condition for the Road Construction Contractors. • Prepare Health and Safety materials such as ‘Dos and Don’ts’ posters, small books and leaflets with cartoons, many pictures and maps that children can understand. Road signs in key areas warning drivers of potential dangers with children and animals etc. • Train teachers on how to teach children the above safety issues using the materials as part of school program on ‘Malagarasi HPP health and safety for children issues’; Instruct children to share their training materials with other children who don’t go to school in their households and with their parents (children should be allowed a take home Malagarasi Safety Awareness ‘Do’s and Don’ts’ Poster). Child targeted Traffic Safety campaigns to raise awareness. • Consider Introducing school buses for children who have to walk long distances on a daily basis. Traffic management plans that are cognisant of times of school bus movements and to include appropriate driver training and vehicle maintenance. • Make a Health, Safety and Security Sub-Plan as part of the Traffic and Road Plan and the Construction Management Plan (including precautions for construction related waste, combustibles, explosives, etc.). • Include in the Construction Management Plan a “Good Neighbour” policy. • Include in the Public Communication and Disclosure Plan the time-line for the above suggestions. 163 7.8.4 Social Development Plan (SDP) Rationale: The incoming workforce, particularly from urban/semi-urban areas, from other regions may bring with them different socio-cultural practices that do not match the local norms, and may induce (negative and positive) impacts on the local traditional methods of social control and interaction. Social conflict could arise between the local inhabitants and the migrant workers over such issues as employment opportunities, cultural misunderstandings, sharing of use of local resources, and the desire of migrant workers to mingle with local women/girls. Since there is a relatively high degree of unemployment in the project influence area, the local workforce will be very interested in being engaged in the construction of the Project. However, due to the different skill levels required for the construction of the HPP not all the workforce can be composed of local people. This likelihood, if not managed appropriately, may lead to conflicts between local and external workforce. The arrival of workers and camp followers from other regions may have a number of effects on the local environment, that may include: (i) greater demand for, and pressure on, social services and other facilities (health, education and water supply, sanitation, etc,) (ii) pressure of natural resources and land (fuel-wood, grazing, non-timber and timber products, water, etc.), (iii) increase in incidence of diseases (e.g. alcoholism, sexually transmitted diseases (STD), HIV-AID, and tuberculosis, etc,) (iv) conflicts between the incoming workforce and the local community, civil disturbances, and (v) disturbances to social practices and fabric of the local community. These impacts will depend on the size, timing and composition of the population influx, including the permanent and temporary workforce. The construction of the HPP will cause the disruption of some small settlements in the project impact zone: (i) in the DIZ and SIZ the local population has relatively good access to natural resources (agricultural land and forest), (ii) has built up an important social cultural network. Content of the Social Development Plan An overarching Social Development Plan should be developed prior to the construction period to: • Increase awareness among communities and project employees of local cultural and livelihoods, and use of natural resources, both in general and, in particular, youth and women tailored programs for awareness in relation to health (STDs for example), gambling and alcohol. • Ensure livelihoods restoration (agricultural and husbandry sectors in particular) and SME training, where requested. Include a Livelihood Restoration Sub-Plan. Such a plan should include Vocational Training and gender: This should include the identification of vocational training institutions / methods, and opportunities and funds needed to 164 support development of vocational opportunities for local people, including employment by contract providing services. • Ensure management of natural resources used and maintained by the community or local government agencies, with particular attention to wood-fuel, water and waste management, access to commons (grazing area, for example). Include an Employment Policy that prioritizes local people and where possible provide vocational training to local people Include the establishment of clarity in terms of rights over natural resources, to avoid conflicts and help with influx management (Influx Management Sub-plan). An Influx Management subplan should aim at covering health, vocational training and increasing employment opportunity, community rights, and resource management and ensure that: (a) the local health infrastructure and services will not be burdened by the influx or workers and camp followers. (b) Preventive and information provision concerning STDs etc. done including communities, schools and workers. (c) Increase vocational training and increasing employment opportunities - through accredited training programs linked to job opportunities for local people; vocational training for women in particular; timely information provision about recruitment procedures and job availability through contractually binding procedures; and the promotion of local services particularly food supplies (where local sourcing may be contractually binding. • Ensure provision of meals and recreation possibilities within camp sites, where possible. • Raise awareness on community rights and the proponent’s relations with local people. • Include contract specifications and guidelines. Develop contract specifications concerning recruitment priorities (local people), procedures, and sourcing services / suppliers of local produce to catering firms for example. Incorporation of requirements for local recruitment in tender design is recommended. • Include a time-line for information disclosure, public engagement, monitoring and evaluation should be established in a Public Communication and Disclosure Plan (PCDP). The development of the full-fledged Social Development Plan must be linked to the other plans of the ESMP and must be implemented during the construction period. Aspects of the Social Development Plan will likely be continued during the operation period as seen necessary based on the monitoring and evaluation. 7.8.5 Resettlement Action Plan The Proponent will prepare a Resettlement Action Plan (RAP). A Resettlement Policy Framework (RPF) will be required that establishes the goals, principles, and fundamental structures and 165 procedures that will be employed for all physical and economic displacement required for the Malagarasi Hydropower Project. The framework outlines the goal, principles, the legal framework and Performance Standards, planning and implementation, compensation and all other likely entitlements, livelihood restoration and consultation strategy, organization, monitoring and evaluation, grievance mechanism and time-line (schedule) for the RAP. The RAP is to be prepared consistent with the goals, objectives, principles, and processes of the RPF for all unavoidable displacement and as a critical element in ensuring that displacement measures for all resettlements consistently work toward a fundamental goal and consistently apply the same principles and best practices. The RPF is consistent with IFC Performance Standard 5 (PS 5) and with the IFC Handbook for Preparing a Resettlement Action Plan. The Proponent’s overall resettlement goal is to design and implement resettlement in a manner that gives physically and economically displaced persons the opportunity to at least restore their livelihoods and standards of living. A number of fundamental principles that can facilitate achievement good practices for unavoidable resettlement are: • Avoid and minimize the need for physical/economic displacement through alternative analysis and locating, alignment, and other design modifications; • Conduct consultation processes that achieve free, prior, and informed participation of affected people and communities (including hosts) in decision making related to resettlement and continuing participation during implementation and monitoring/evaluation; • Provide measures to support physical relocation and re-establishment; • Identify and provide special assistance to people who are especially vulnerable to displacement impacts; • Improve or at least maintain the living conditions of physically displaced households, and compensate people affected by land acquisition for loss of assets at full replacement value; • Design and implement in a timely manner culturally sensitive and economically sustainable income restoration measures (or livelihood alternatives); • Carefully monitor and evaluate to ensure that resettlement measures are meeting the needs of affected people and to identify the need for and implement corrective measures. 7.8.6 Public Communication and Disclosure Plan The aim of the communication and disclosure plan (PCDP) is to: 166 • Develop a structured and systematic communication plan that covers disclosure of key information and receipt of feedback and questions about the Proponent’s plans and actions. • Ensure that the PCDP functions as a means of managing the relationship between the project and primary stakeholders with direct interests or impacted directly by the Project. • The PCDP should cover the project’s core activities as well as the main positive and negative impacts underlining the Project’s fundamental aims of keeping people informed and maintaining good relations with its neighbours. • Establish an operational grievance mechanism. Identify with the Developer’s roles and responsibilities, responses and administrative procedures for the grievance procedures to be set up. • Community relations and communication code of conduct should be developed with the • Developer’s ESMU by an advisory team (international consultant) where the overall approach for the development of the PCDP should be collaborative. Based on best practice a PCDP ideally should include the following components: • Identify key stakeholders and ensure there are adequate mechanisms for stakeholder feedback and information sharing; • Carry out meaningful consultation; • Provide brief accounts and reviews of all consultation and engagement activities that have been carried out during the Environmental Study preparation period, and if relevant, including those conducted in previous studies (thus a full account of the history of communication (community/stakeholder contact/communication)); • Provide a framework for consultation of identified stakeholders (local, regional and possibly national levels, where necessary); Provide a program for consultation and disclosure linked to the needs of the ESMP and all safeguard measures (including, social and environmental); 167 7.9 PROJECT ALTERNATIVES The EIA procedure stipulates that an environmental investigation needs to identify main project alternatives for the proposed development. Therefore, it is required under this section that a number of possible proposals and alternatives for accomplishing the same objectives be considered. In principle, these should include an analysis of the location, timing, cost, input and design alternatives as well as the “do nothing” or “without the project” option. The following section describes the alternatives of the proposed project that were considered in obtaining the current proposal. 7.9.1 No (Without) Project Alternative The reference scenario or no project alternative to the project is the situation in which the Malagarasi HPP is not developed and demand for reliable electricity follows the actual demographic and economic development of villages and townships in the Kigoma Region. Currently, a power plant operates in Kigoma and Kasulu Districts. This is a 6.5 MW diesel-fired Thermal Power Plant (TPP) located in Kigoma Town. The existing 11 kV network consists of three feeders originating at the powerhouse. The Town feeder, which is 5.76 km, generally supplies the water supply and other selected in-town loads. The other two feeders are each approximately 30 km long. The Maji feeder supplies the local radio station and transmitting tower located near the village of Mehembe and also provides service to the airport, while the Ujiji feeder provides service to the municipal office and predominately residential area south of the town. With the present power production, power demand in Kigoma-Ujiji Municipality, and Kasulu and Uvinza townships will most likely never be met. Equally, demand for rural electrification in village centres and the need to improve power supply in the national grid will be affected. The consequences of this will be to limit the potential development of the region, impacting on small and large scale businesses, health care, education and social development. This will limit employment opportunities that would be generated from the regions development. The continued use of thermal power production using diesel generators would continue to give rise to air emissions and contribute overall to greenhouse gases. Failure to supply alternative renewable energy would also result in local energy needs continuing to be met from wood products leading to environmental degradation of the area. It is expected that the national grid to be connected to Kigoma once the project is completed. Geita-Nyakanazi-Kigoma-Tunduma-Mbeya will be a 220 kVA line. This may relieve the need for the diesel generators although TANESCO warns that TL load profile weakens with distance, and thus it is important to have generation at end-point that serves to stabilize the grid. 168 The economic consequences for the area include high production of power by use of fossil fuel and poor processing of agriculture and natural resources around Kigoma. Consequently, the no project alternative will hinder the achievement of AFD and AfDB towards economic growth and poverty alleviation. 7.9.2 Alternative Energy Supply from Thermal Power Plant (TPP) The possibility exists to use new diesel generating for energy production. The initial investment costs for a diesel-fired TPP are lower than for the HPP, but it is important to take into account the high annual fuel costs for electricity generation from this technology. Diesel fuel would have to be transported to Kigoma from Dar es Salaam adding a premium to the cost of fuel and resulting in more expensive electricity costs. The reliability of electricity would be dependent on availability of diesel at Kigoma which could lead to periodic outages. There would be resultant environmental pollution from the combustion of fossil fuels and noise. The existing generator is located on the shore of Lake Tanganyika and has been blamed for being a source of hydrocarbon pollution. Normally it generates 1,000 litres of oil waste per month which is disposed of by selling it to people coming from the distant regions of Mwanza and Shinyanga. The running cost is also high in terms of fuel purchases. Kigoma Region is located far from Dar es Salaam making fuel prices excessively high. This was confirmed by the DECON/SWECO Report which showed energy from the HPP plant would be cheaper compared to thermal diesel plant. It is estimated (by TANESCO) that diesel power generation costs are between 500-600TShs per unit whilst sale prices are 110 TShs per unit so it is not cost effective. By contrast the HPP would produce clean reliable electricity supply although it should be noted that TANESCO will maintain the diesel generators so that it can be used as stand-by during the dry season. This is because the MHPP is a run of the river with an install capacity of 44.8 MW but can only provide firm power of 5 MW during the dry season. 7.9.3 Alternative Energy Supply from Wind Energy Renewable wind energy has been studied in Tanzania to determine the feasibility of wind energy. Studies have been sponsored by the Ministry of Energy, TANESCO, TaTEDO (Tanzania Traditional Energy Development and Environment Organization) with technical and financial support from 169 RISO (Denmark National Laboratory), and DANIDA. The DANIDA study involved installation of metering masts and evaluation of potential wind energy and costs at four locations: • Gomvu near Kimbiji, south-west of Dar es Salaam; • Litembe, southwest of Mtwara; • Mkumbura near Mkomazi in the Pare/Usambara mountains; and • Near Karatu. The study concluded that the best wind energy potential was at Mkumbura where it was potentially viable; however it recommended further studies to confirm the location and optimise the equipment selection to match the relatively low wind velocities at the site. A DANIDA funded feasibility study on wind energy has identified that it may be potentially viable in Singida. At present the wind power farm is under consideration via private sector funding. If successful this energy will be sold to TANESCO to feed into the backbone via the Iringa TL network. Wind energy, although environmentally sustainable, is however, not firm and is dependent on wind duration at suitable wind speeds to produce economic energy outputs. It cannot be used to replace conventional forms of energy and is seen as a secondary replacement to be utilized when wind conditions allow. In the context of an alternative to the HPP it would not be a reliable enough source to displace the HPP plant, but could be used in conjunction with the HPP as a supplement. 7.9.4 Alternative Energy Supply from the National Grid The Tanzanian western and north-western regional transmission network plan proposes grid connected 220 kV facilities from the north, through Kigoma and on to Meyer. This is a large scale long-term project requiring significant capital investment for the required grid extension, for which commitment has recently been made. When the 220 kV facilities are introduced into the area, Malagarasi HPP generation can immediately and cost effectively be connected to the grid via a substation at a convenient point along the transmission line from the project. This would allow renewable energy from the Malagarasi to be supplied to a wider region. It is expected that power supply to Kigoma would be stabilised once the National Grid started functioning to its fully installed capacity because the rest of Kigoma would get electricity from the central source through a 220 kV plant at Nyakazi. The link to the national grid will allow for 170 all surplus power to be exported to other areas of Tanzania and allow import when river flows are low. It is therefore expected that the national grid to be connected to Kigoma. TANESCO, though, feels that the power supply at the end of a long transmission line will be limited and possibly erratic. TANESCOs opinion is that the Malagarasi Hydropower scheme is important as it will serve to stabilize power in the interconnector and feed surplus power back into the national grid. 7.9.5 Alternative Hydropower Plant Locations Many studies have been undertaken in Tanzania to identify potential sources of hydropower energy production. These have been summarized in the World Bank /Canadian International Development Agency funded Nile Basin Initiative Report of 1999: “Nile Basin Initiative, Nile Equatorial Lakes, Subsidiary Action Program, Strategic/Sectoral, Social and Environmental Assessment of Power Development Options in The Nile Equatorial Lakes Region, Final Report, Volume 1, and Main Report February 2007”. The report is a Strategic/Sectoral Social and Environmental Assessment (SSEA) intended to produce strategic/sectoral level guidance for decision making in the power sector at the regional and national levels. It included a preliminary assessment of cumulative environmental and social impacts of different regional power development portfolios including those for Tanzania. The report looked at all potential sources of energy production, including hydropower, coal, gas and geothermal. It provided an indicative power development strategy to meet the growing energy demands of the countries in the Nile basin. It considered options for meeting regional demand in all countries in the Nile Basin. Some potential options were screened out because of insufficient information for evaluation (in most cases, conceptual level information) even though these options could meet the other screening criteria (environmental risk, cost and size) The report examined existing studies on alternatives identified and evaluated in the past for the Malagarasi River which were described in reports by the Tanzania Ministry of Water, Energy and Minerals in 1976, by Norconsult in 1983 and by SECSD in their 1999 study. Various options for hydropower development have been considered for the Malagarasi system with up to five schemes being proposed, all three stages at Igamba, a scheme at Uvinza and a further scheme at Illagala. However, the World Bank Report ultimately did not recommend immediate inclusion of the Igamba Falls Stage III in the portfolio to meet power demand as it did not meet the selection criteria used in the report for potential power supply internationally. This was indicated as a 171 minimum of 30 MW outputs (which could be delivered by the Stage III scheme for 25% of the year). The report recommended further study to re-evaluate the Igamba Falls project in the context of full use of the head and flow available and the site. • Luiche river hydropower alternative The Luiche project in west Tanzania, with a capacity of 15 MW, was identified as part of the flood control options for the Luiche Basin, with power as a secondary objective. It was further considered in 1976 and was then evaluated by Norconsult in 1983. The Norconsult report of 1982/83 comprised of two mini hydro studies on the Malagarasi and Luiche Rivers in the Kigoma area. In the latter study, the project was rejected for power supply to Kigoma, in favour of development on the adjacent Malagarasi River. The 1999 SECSD Report confirmed the suitability of the Malagarasi over the Luiche River as it better satisfies the primary objective of power generation. The suitability of the Malagarasi for hydropower was further confirmed by the subsequent studies, (ECON Analysis of Norway in September 2005, DECON/SWECO studies and by Hatch Mott McDonald for the Millennium Challenge Corporation). In general Luiche is considered to have a lower capacity than Malagarasi and is located in a more densely settled area than the Malagarasi 7.9.6 Alternative Locations of the Hydropower Scheme within the Igamba Falls Area of the Malagarasi River The three alternative locations (Stage I, II and III) are discussed hereunder, explaining the reasons behind the Stage III project choice. Stage I scheme at the top of the cascade is designed as a storage reservoir which will flood a narrow channel of river upstream for approximately 9 km. The impacts on biodiversity were identified as high (both plant and animal) and the costs of development also high. The install capacity was low, access to the area difficult and construction costs high (approximations based on topography, type and height of dam) It was found that Scheme II would result in the flooding of a significant portion of critical Igamba Snail habitat and would lead to the drying out of the main Igamba Falls which could lead to the loss of an endemic species. In addition, to maintain important downstream habitats the environmental flow release would have been equivalent to the dry season flow during the height 172 of the dry period. As a result power production would be disrupted during extended periods of the dry season. The Stage III scheme was therefore assessed as the key mitigation for Stage II. Shifting the location from Stage II to Stage III mean that the new location (Stage III) would not flood critical snail habitat and would not dry out sections of the river where significant populations of snail were present, and therefore would be able to sustain the endemic snail species. Stage II and III schemes can operate independently or in tandem with the other schemes. However, Stage I and II schemes are highly undesirable developments that can and should be prevented. From the biological point of view, the current proposed project (Stage III) appears to be the most suitable location and design because of the low density of the population of the area, avoidance of the endemic snail species and habitat. 7.9.7 Technical Design Alternatives The feasibility study considered a number of design alternatives, three of which clarify the options for the Stage III scheme. 1. Run-of-river scheme with the dam at 838 masl options of 12 MW plant suited to the predesigned 33 kV transmission line to Kigoma, Kasulu and Uvinza. These 12 MW schemes could be either a standalone project or 12 MW with expanded waterway from intake to the surge tank with space provision for a powerhouse in the future. All first Stage 12 MW schemes comprise two 6 MW units. 12 MW with waterway expanded for 40.5 MW provides the best solution for full resource utilization. For 12 MW initial stage, this alternative was recommended as the most cost effective 12 MW scheme 2. Run-of-river scheme with optimization. The dam height at El.838.5 raises the water elevation around 2 m in the low flow season. The diversion canal is used as approach canal for the power intake. Total dam length is around 630 m. A substantial portion of the dam length is with dam less than 2.5 m high. The dam height is around 7 m at the river deep section. Close to the intake, in the diversion canal, the dam has sediment flushing gate. The approach canal to the intake is around 400 m long. The intake is placed about 200 m upstream of Kabuchweri crossing. The headrace culvert is about 1000 m long between intake and surge tank. The surge tank is located on the ridge between El. 835 and 840, pending alternative layouts. 173 3. Partial run-of-river scheme with a dam at 841.5 and daily peaking power production of approximately 10 hours per day during the dry season (approximately 3 months) Full resource project in the 40 MW range considering a new scenario with the plan to connect Kigoma to the national grid once it is completed. The scheme encompasses the original Malagarasi Stage III head plus 3 m from the Malagarasi Stage II head. The scheme has a maximum yield of 44.8 MW and delivers 186.8 GWh with a plant factor of 0.48. 174 CHAPTER EIGHT: ENVIRONMENTAL AND SOCIAL MANAGEMENT PLAN The Environmental and Social Management Plan (ESMP) presents the implementation schedule of the proposed mitigation measures to both environmental and social impacts as well as planning for long-term monitoring activities. In order to be effective, Environmental Management Plan must be fully integrated within the overall project management efforts at all levels, which itself should be aimed at providing a high level of quality control, leading to a project which has been properly designed and functions effectively throughout its determined life span. The sited responsible institution should be ready to monitor indicators and fully supervise to completely minimize the impacts level. Essentially, ESMP is an integral part of the environmental project management process. It checks the implementation and success of mitigation measures during construction and operation/ maintenance of the project. It is the monitoring system/tool that will reveal changes and trends brought about by the construction and operation of the project under development. For the proposed Malagarasi stage III HPP project, the ESMP is given in Table 19. The ESMP also includes the associated environmental costs needed to implement the recommended mitigation measures. The recommended ESMP has been made to enable the project implementation to be accommodated in the environmental and social environment. 8.2 Implementation Arrangement of the ESMP The project proponent of the proposed Malagarasi Stage III HPP project is TANESCO in funded by AfDB. To minimize potential environmental and social negative impacts, the project will require the support of various institutions in the project area. Table 19 outlines the actions of the ESMP. The organizational framework for the ESMP is designed to evolve as the project progresses through detailed engineering design, construction and operation phases. 8.3 ESMP Implementation Framework A number of stakeholders will work together to ensure that the mitigation is implemented in an efficient and effective manner. Although the contractor on the various sites will be directly responsible for ensuring that many of the mitigation measures are implemented, the local communities through their authorities and leaders will also have a strong role to perform, particularly regarding mitigation of social issues. The project proponent is TANESCO. TANESCO will have an important role to play as an intermediary between the project implementation and NEMC, the government agency responsible for ensuring that Tanzanian environmental legislation is not compromised. Table 18 indicates the roles and responsibilities of the various stakeholders for management of social and environmental issues emanating from the project during and after the HPP works. The 175 overall responsibility for design and construction of the HPP will be solely under contractors / consultants commissioned by TANESCO will undertake supervision of the construction works and provision of the usual technical support. Roles in bold italics relate to the ESMP implementation. Table 18: Roles and responsibilities for projects implementation Stakeholder Role and Responsibility AfDB NEMC TANESCO Pre-construction and construction Post construction phase phase Project financier Issuing of any required environmental certificate Review of external environmental monitoring reports and response to same Supervision Monitoring Contractor Kigoma District Council / Kazuramimba Ward and Mazungwe village Civil works Labour laws Health & Safety Mitigation of other environmental and social impacts Awareness and education Monitoring Extension services: technical support Awareness and education Ongoing review of monitoring reports during the operational phase Overall management Monitoring Labour laws H&S Support development and approval of: • village land use plans; • village Forest Reserves, Village by-laws; • Allocation of land. Health sensitization activities Disease and vector control Monitoring 176 Village leaders Mobilisation of Community Participation Monitoring Community members Provision of casual labour Independent Monitoring Body/Oversight body as a subcommittee of LTBWO Overall Monitoring Development and implementation of village land use plans, village Forest Reserves and village by-laws. Dam Management Committee Overall Monitoring 8.3.1 Oversight Body, Integrated Water Resource Management and the Malagarasi HPP At the present time the Lake Tanganyika Basin Water Office (LTBWO) based in Kigoma has overall responsibility for water resources in the Basin in Tanzania. According to the proposed institutional structure the Malagarasi HPP would be incorporated as a water use activity. However, due to its relative size and importance it would also need to link directly to the Malagarasi Catchment Management Committee (see Figure 6-6). Although the Malagarasi HPP will have very little influence on the upstream catchment save for some possible reduction in fish movements caused by the dam(s); what happens upstream of the project will to a greater or lesser extent affect the project in either Stages I, II or III. Land use practices in the upstream catchment may affect the quantity and timing of water delivered to the project. Wide-scale clearance of vegetation can lead to increased runoff and decreased natural storage, raising flood level and reducing seasonal low flows. In addition, poor land management upstream is likely to increase the silt loadings and turbidity of the river water at the site through erosion. Although higher silt loads will affect the turbines of all Stages, it is only really Stage I (the Gorge) that runs the risk of siltation behind the dam significantly reducing live storage. During the implementation of the Malagarasi cascade it is recommended that the proponent keep in close contact with the LTBWO and ensure that they form an oversight sub-committee to monitor the environmental offset, upstream land management and long term monitoring. It will not be appropriate for the Malagarasi HPP to take on a role in IWRM as it is merely a sectoral user. However, given that it is dependent on the resource controlled by and LTBWO generates a revenue stream, it may wish to contribute to capacity building of the Office. It would also be natural for the LTBWO to be actively engaged in the monitoring of the Malagarasi HPP; i.e. carrying out water quality sampling above and below the scheme, maintaining gauging 177 stations and collating hydrological records in collaboration with the relevant departments in government. Figure 28: Proposed Institutional Setting for the Malagarasi HPP 8.4 Cost estimates for ESMP The costs for implementing the mitigation measures have been estimated to 255, 000 USD for environmental management plan in all three stages (Construction, Operation and Decommission phase). The actual costs will be as presented by the successful contractors during bidding exercise. The priced bills of quantities for environmental and social impact mitigation measures shall be made part of the contract for these mitigation measures to be effective. In accordance with EMA, (URT, 2004), NEMC will be responsible to ensure implementation and compliance with the proposed environmental management and monitoring plans. 178 Table 19: Environmental and Social Management Plan (ESMP) for the proposed Construction of Malagarasi Stage III HPP project IMPACT MITIGATION MEASURE RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD POSITIVE DURING MOBILIZATION AND CONSTRUCTION PHASE Employment Opportunity • Make an Employment Policy that prioritizes affected and local people. • Produce labour/skills needs specifications. • Make training programs to include development of Contractor and Developer (TANESCO). Throughout construction phases. 20,000 More employment to locals as much as possible longer-term skills for sustainability, to increase employment in the region. • Youth and women shall be given priority • Management of local expectations • Children under 18 years should not be employed. NEGATIVE DURING MOBILIZATION AND CONSTRUCTION PHASE Impact climate on • Soil erosion and • pollution. Ensure full rehabilitation of vegetation in all disturbed areas. Limit ROW clearing to width required. Decommission and rehabilitate works areas and camps at the end of construction. Innovative ways to reduce fuel consumption e.g. use of rail to transport equipment and resources to site. Carry out efficient storage of fuel and prevention of leakage. Maintain record of fuel use and all fuel savings. Soil stability testing should be undertaken prior to any construction, to identify areas at low, medium and high risk of erosion or landslides, which should be indicated on a soil erosion and landslide risk map. Final site designs (of the HPP, access road) will be based in part on this risk map Contractor and Developer (TANESCO) Weekly by the environmental office and Quarterly per year by external officer 6,000 Zero emission. Contractor and Developer (TANESCO) At the start of the project and Quarterly 6,000 Absence erosion of soil Soil erosion controlled. 179 IMPACT MITIGATION MEASURE • • Reduction of • population of limited range of endemic species RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD EPC contractor to provide detailed plans for cut and fill areas, establishment of embankments and management of cut material. Plan to include landscaping and rehabilitation of all the embankments. Closure and rehabilitation of all cleared working areas and temporary tracks. During construction ensure that vehicles use approved roads and tracks only. Ensure that the road access is the most suitable in terms of using the natural contours. Vegetation removal should be kept to a minimum, and bare earth re-vegetated with suitable local native vegetation, as soon as practicable after construction is completed. and Construction should observe the restricted areas if any Contractor Developer (TANESCO) Construction phase 5,000 No species affected is fish • Follow-up assessments of populations both upstream and downstream of the reservoir will be required Contractor and Developer (TANESCO) Construction phase 5,000 No loss of fish Loss of Terrestrial • Wildlife Limit clearing of areas to the minimum and ensure that limits of areas to be cleared are effectively marked. Importance of the left bank for chimpanzees should be emphasized during induction training. Severe penalties established for illegal hunting, trapping or purchase of bush meat. Establish links with MUE authorities and Jane Goodall Institute to increase their presence in the area Contractor and Developer (TANESCO) Construction phase 5,000 No loss of terrestrial wild life of • and Construction teams to be induced on issues of habitat protection, minimum clearing of areas, fire control and to be made aware of the orchid species of concern. Contractor and Developer (TANESCO) Construction phase 5,000 Vegetation species are conserved • A wet season survey of vegetation will be required to locate rare plant species within the proposed reservoir. Loss of migration Loss Vegetation Habitat 180 IMPACT MITIGATION MEASURE RESPONSIBLE PARTY TIME FRAME COST/Year (US$) All orchids identified within the 843 m.a.s.l flood line of the reservoir should be moved onto similar habitats on the left bank in the MUE. • • Procedures must be in place prior to establishment of the site for the handling of fuel, oil, lubricants and other toxic chemicals, machinery maintenance and emergency procedures. Materials and spillages from the diversion working areas are to be actively prevented from washing into the downstream rapids. • Construction of temporary sanitary facilities or mobile toilets for construction workers Fluctuations in • river flows immediately downstream of the dam wall • The environmental flow organ will be operating immediately after completion of the main dam construction. This will mean a no flow period of at least 12 months. Noise, Dust and • Vibration Dampening down of tracks through settlements when heavy traffic volumes expected. Preparation of air quality management plan. Haulage trucking may only operate during daylight hours. No haulage traffic on Sundays. • Vegetation clearance minimum possible. Construction footprint will be kept to a minimum focusing only where land is required for project construction activities. Indigenous vegetation should be re-established following construction of the HPP Pollution of • Water Quality TARGET LEVEL/STANDARD as as Original plant tree species are planted Contractor and Developer (TANESCO) All construction phase 10,000 No contamination to water bodies Contractor and Developer (TANESCO) All construction phase 5,000 Minimum fluctuation in river flow Contractor and Developer (TANESCO) Once per week 2,000 Noise to be within allowable limits of 70dBA for Industrial area. A mechanism to allow EFR during construction of the dam must be identified. If not, then restocking of species of concern to the lower rapids will be required Establish complaints procedures with local authorities. 181 IMPACT MITIGATION MEASURE • Use of safety equipment by employees when exposed to high dust or noise levels. Disturbing visual • and landscape Re-vegetation and rehabilitation of all laydown and construction areas particularly camps borrows and quarry. • It is important that the presence of the MUE area is considered during detailed design and the long term potential of tourism is not lost through high visibility structures and excessive night time lighting. It is common around hydropower plants to flood the working areas in light. This practice should be avoided and lighting limited to essential areas only with all lighting to be directed downwards. An audit of visual impacts should be undertaken of the design prior to approval and again at the end of construction. • All potential tourism sites are to be preserved. RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD Contractor and Developer (TANESCO) Construction phase 15,000 Minimum landscape and visual disturbance Damage of • Archaeological Sites and Cultural Heritage During excavation special attention should be paid to the chance occurrence of archaeological artifacts and sites. Drivers of excavating machinery should be made aware of such chance finds and what procedure is to be followed upon the sighting or location Contractor and Developer (TANESCO) Construction phase 5,000 No damaging archeology sites Impact on • communities health and sanitation (Risks to public health, spread of HIV, AIDS and other STD`s.) A Public Health and Sanitation Support Plan should be developed which addresses the following issues: local community health status and needs, upgrade the local medical facilities (clinics) to accommodate the increase in the local populations due to project related influx, setup health clinics for workers in the camp sites, run regular health and sanitation awareness campaigns in the local settlements, schools and for project workers Contractor and Developer (TANESCO) Construction phase 6,000 Health and sanitation status of the community improved 182 of IMPACT MITIGATION MEASURE and • Speed limit to vehicles hauling construction materials especially in settlements to be 30km/hr and even less when passing through congested areas and introduce speed humps where necessary to force speed reduction. • Only those workers that are trained will be engaged to operate specific machines and equipment. In addition, well-maintained equipment will be used. • Worker’s health and safety will be monitored through an occupational injury and illness reporting program, accident and near‐misses reporting and investigation protocols. • Post proper signs at site to warn workers of safety requirements as regards to machines operation, moving parts, High voltage, sharp edge, deep hole, etc. • provision of proper work instructions and safety measures for each job • First Aid box will be provided and have a trained person to handle site emergencies and incidences. • Safe and clean drinking water will be provided at all worksites. • Personal protective equipment (PPEs) such as safety helmets, safety masks, safety boots, uniforms and hand gloves will be provided to the workers based on hazard exposed. Affected People, • and Loss of Assets and Natural Resources once the final project design is in place, a detailed land and asset loss mapping and assessment should be carried out as the first step to update the RAP (to World Bank OP 4.12 standards) Accidents hazards RESPONSIBLE PARTY TIME FRAME COST/Year (US$) Contractor, Developer Once per Month in some cases with by follow up on consultation with OSHA accident Month Report. 8,000 Developer (Tanesco) 5,000 183 Construction phase TARGET LEVEL/STANDARD Zero accidents No injury at project site Affected persons are compensated according IMPACT MITIGATION MEASURE RESPONSIBLE PARTY TIME FRAME • The grave observed during site survey along igamba III downstream will be relocated following the regulations Developer and district council office Accumulation of • solid waste at the site. Optimize the use of materials (i.e. utilizing methods that minimize and reduce the quantities of waste generation (production) during construction. • Collections of all wastes and appropriately disposal at the designated areas. Contractor and Twice per Week Developer (TANESCO) in collaboration with District council office • Provision of solid waste receptacles and storage containers, particularly for the disposal of plastic bags, boxes, etc. • conduct awareness training on waste management to workers at all working sites • Post appropriate signage such as “DO NOT LITTER” or “USITUPE TAKA” at all strategic sites. Total Costs Mobilization and Construction phase Employment Opportunity • COST/Year (US$) 5,000 TARGET LEVEL/STANDARD No waste at the site. 113,000/= POSITIVE DURING OPERATION PHASE Municipal authority to promote community District council office, Once per year developments through sensitization of people to seize and TANESCO the available opportunities following the availability of proposed project. • Monitoring of labour standards in work areas for newly established and existing enterprises. Improved • livelihoods and chance for economic growth • Sensitization of communities all over Tanzania to connect electricity and utilize it for individual economic prosperity. Developer (TANESCO), Once per year local leaders Promote and encourage local and foreign investments as reliable electricity will be available. MEM and local bank arrangement 184 6,000 Number of direct and indirect employment as high as possible 5,000 Establishment of many enterprises, workshops, industries, etc. IMPACT MITIGATION MEASURE • Impact on climate • • • • Soil erosion • Reduction of • population of limited range of endemic species RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD As many local connection as possible Quarterly 12,000 Within limits Yearly average of 200mg/Nm3 Quarterly 5,000 Absence erossion Annually 5,000 Population of limited endemic species remain intact Enabling people to connect to the electricity NEGATIVE DURING OPERATION PHASE Observe the air quality standards as provided for under Developer (TANESCO) the Second Schedule of the Environmental Management (Air Quality Standards) Regulations, 2007 GN No 237 published on 7th December 2007. Minimize fugitive emissions from valves pump glands through use of mechanical seals, flanges through good design practices and equipment maintenance procedure Use of mechanical seals where appropriate Reduce Nitrogen oxides by using low ‐NOx burners and optimise fuel gas usage. Regular maintenance of the access road, ensure Developer (TANESCO) drainages are clear and all erosion gullies immediately rehabilitated. Monitor stability of all embankments annually. Rehabilitate where necessary and Establishment of an oversight committee by the LTBWO Contractor to provide independent opinion. The sub-committee Developer (TANESCO) should include key stakeholders such as the University of Dar es Salaam and the Jane Goodall Institute (JGI), together with district and NEMC. • The oversight committee should also ensure that and integrated land use plan for the upper Igamba area is prepared and conservation measures implemented. • An appropriate long-term biodiversity monitoring program is developed and integrated into the Environmental Management System 185 of soil IMPACT MITIGATION MEASURE RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD Developer (TANESCO) Annually 6,000 No fish loss • Strict enforcement of “no go” areas upstream of the dam wall and in the MUE Protected area adjacent to the DIZ. Entry into such areas must be approved by the ESO. fish • Follow-up assessments of populations both upstream and downstream of the reservoir will be required. • During periods when there is no flow between the dam and the tail race (e.g. during sediment scouring) or when there is only EFR in this section of the river, fishing, clothes washing and natural resource abstraction should be prohibited. Operational procedures in place to phase river flow changes during peaking. Loss of terrestrial • wild life Severe penalties established for illegal hunting, trapping or purchase of bush meat. Support for district conservation activities should be provided. Developer (TANESCO) Quarterly 5,000 No loss of terrestrial wild life of • and No cultivation around the reservoir, total ban on timber abstraction within the project area under TANESCO control and no movement of timber out of the Masito Conservation Area via the access road. Developer (TANESCO) Operation phase 5,000 Vegetation species are conserved An EFR of 10m3/s will be required as a permanent minimum flow in the downstream rapids area. Cessation of EFR limited to a maximum of three hours continuous within a 24 hour period. Developer (TANESCO) Loss of migration Loss Vegetation Habitat Fluctuations in • river flows immediately downstream of the dam wall • Original plant tree species are planted No fishing or other aquatic resource collecting to occur in the lower rapids when river flows are limited to the EFR or less. 186 All phase Operation 8,000 Minimum fluctuation in river flow IMPACT MITIGATION MEASURE Fluctuations in • river flow downstream of the DIZ • Close off water flows over an extended period of half an hour and similarly commence with high flows slowly to reduce surge effect and impact on river banks. Generation of • solid and liquid • wastes Optimize the use of materials to reduce the wastes Noise Vibration RESPONSIBLE PARTY TIME FRAME Developer (TANESCO) All phase Developer (TANESCO). Developer (TANESCO) Operation COST/Year (US$) TARGET LEVEL/STANDARD 10,000 Minimum fluctuation in downstream of DIZ Once per month 5,000 No or minimal waste at site. Quarterly 10,000 Noise to be within allowable limits of 70BA. Monitor downstream fish populations for signs of impact on breeding. Monitor river bank stability within five kilometers of the tailrace for change in rates of erosion. Based on the findings modify the peaking operations Good plant housekeeping and ensuring the waste is collected at appropriate points before disposal to the municipal land fill or sewerage system. • Consider having centralized facilities such as canteen for staff where all generated wastes can be easily collected for further handling and disposal. • Post appropriate signage such as “DO NOT LITTER” or “USITUPE TAKA” at all strategic sites of the operating plant. • Assign Contractor’s Environmental or Safety Officer the responsibility to ensure that the surroundings are kept clean. • Put waste bins and trash cans at appropriate areas to collect daily wastes and later send to designated dumping area by government. and • The design of flue duct and steam piping need to achieve a reasonable layout and smoothly flows so as to reduce the aerodynamic noises. 187 IMPACT MITIGATION MEASURE • Sound absorbing materials and device with good sound absorption effect will be used in high noise workshop and wall surface. • Maintain the required noise and vibration standard levels as provided for under the National Environmental standards compendium by conducting regular monitoring. • Where noise levels are beyond 70dB (A), ear muffs or plugs to protect workers and visitors. Risks to public • safety, health and spread of • HIV/AIDS and other STDs. Continue with sensitization programs for workers and local community. • Condoms will be distributed and placed in strategic locations for easy access by the workforce. • • Encourage periodic health examination and conduct medical examination for newly recruited employees and ensure proper treatment is obtained for the workers. RESPONSIBLE PARTY TIME FRAME Developer (TANESCO) Quarterly in association with Municipal health authorities. Fire and rescue department Loss employment of • 10,000 TARGET LEVEL/STANDARD Zero illnesses resulting from poor hygienic conditions No new case for HIV/AIDS. No fire incidences Equip the power plant with firefighting equipment comprising of all fire extinguish types (sand, water, foam, Carbon Dioxide, etc. to take care for any type of fire Fire are contained quickly Train workers to be in a position to use firefighting equipment. Total Costs Operation Phase • COST/Year (US$) 95,000 NEGATIVE IMPACTS DURING DECOMMISSIONING PHASE Developer (TANESCO) At the end of Retrench workers according to labour laws. decommissioning Where applicable retrain workers to fit another job with labour office works market. 188 20,000 All payments settled and complied with labour laws. IMPACT MITIGATION MEASURE • Ensure workers join the Social Security Funds such as NSSF, PPF etc. • Provide competence training to workers to make them competent for jobs elsewhere. Generation of • noise and • vibration during demolition works Use equipment with low noise levels. Inform the communities when there will be abnormal noises such as use of explosives or other noisy activity. • The contractor shall work during normal working hours so that the neighboring communities are not disturbed during resting hours. • Provision of PPE for workers working in noisy environment Poor air quality • from dust and emission • Water sprinkling to reduce the dust near the demolition site • Monitor the emission of demolition machines/equipment to be within allowable emission levels. • Debris transported from one location to the other shall be entirely covered with tarpaulins. • Injuries and health problems associated with demolition activities will be reduced through the implementation of the workers’ health, safety and first aid training programs. • Worker’s health and safety will be monitored through an occupational injury and illness reporting program, Risks to health and safety of demolition teams Provide dust masks to operators and those working in the dusty areas and where necessary goggles to protect frying objects. RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD Developer (TANESCO) During and Decommissioning decommissioning Contractor phase 5,000 Noise to be within allowable limits of 70BA. Developer (TANESCO) During and Decommissioning decommissioning Contractor phase 10,000 Air quality within set limits Developer (TANESCO) During and Decommissioning decommissioning Contractor phase 5,000 Zero incident 189 IMPACT MITIGATION MEASURE RESPONSIBLE PARTY TIME FRAME COST/Year (US$) TARGET LEVEL/STANDARD Developer (TANESCO) and Decommissioning Contractor in collaboration with OSHA Decommissioning Contractor and Developer (TANESCO) During decommissioning phase 10,000 Zero incident During decommissioning phase 10,000 No waste left at the site. accident and near‐misses reporting and investigation protocols. Increased potential accidents • for • Sensitization of demolition crew Provision of the proper PPE • Incident examinations to find causes of injuries or accidents in order to prevent recurrence Wastes from • demolished materials • All types of wastes shall be removed from the site for permanent waste disposal. • Hazardous wastes will be sent to specialized dealers as recommended by NEMC • Re-usable materials such as doors, windows, and other items made from steel, aluminium or wood will be shifted to areas where they will be re-used as directed by the Company. Separation of materials shall be made, biodegradable wastes, metals, plastics, etc. While biodegradable wastes may be buried in pits on appropriate area at site or nearby, recyclable materials such as metal and plastics will be sent to recycling facilities. Total cost decommission phase 60,000 190 CHAPTER NINE: ENVORONMENTAL AND SOCIAL MONITORING PLAN 9.1 Monitoring at Three Levels Monitoring of the ESMP will occur at three levels. The first level of monitoring will be by the ESO and as previously described he/she will be on-site daily to ensure that environmental and social guidelines are being adhered to and to ensure that any environmental mishaps, particularly on construction sites, will be attended to swiftly and effectively. The ESO will prepare daily reports based on a format that allows him/her to check off sites visited and environmental /social issues addressed. In some of these instances he/she will have a set of indicators that will allow for the easy assessment of any situation where environmental / social compliance is required. The second level of monitoring will be conducted by the EMO. This individual will visit the construction site and the communities on a monthly basis. He / she will liaise with the ESO on a regular basis and discuss issues to be resolved. The EMO will prepare his/her own monthly monitoring report based on daily reports of the ESO and on his/her own observations and measurements on the critical issues as these have been described in the ESMP. EMO will examine these issues against a set of objectively measurable (where possible) indicators. The third level of monitoring will be that conducted by an external and independent monitor body that will be hired by the funding agency of the project. The body will conduct comprehensive environmental and social monitoring of the project semiannually and the basis of the monitoring reports will be those reports of the EMO and ESO as well as the external monitor’s own observations, discussions, measurements and analysis. 9.2 Monitoring Indicators A set of practical monitoring indicators that can be measured and verified will be developed for each level of monitoring. In some instances these may be the same indicators for more than one level of monitoring. In some instances the indicators will of necessity be qualitative in nature. Monitoring will be conducted against baseline information. For instance, if water quality before the project begins is 5 units of quality, this unit of measure would be used as baseline for measuring quality at various intervals throughout the project life. It is suggested that the external monitor work with the EMO and ESO to develop a set of indicators that can be used, prior to construction. The monitors may be required to collect additional baseline data for these indicators. 9.3 Monitoring Scheduling and Reporting On-site monitoring will be conducted daily by the ESO and he/she will report directly to the supervising engineer of the project. Daily reports will be summarized and forwarded to the EMO on a weekly basis. The EMO will monitor on a monthly basis and will prepare a monitoring report 191 based on the ESO summary reports and the EMOs own monthly or more frequent site monitoring visits. These visits may or may not be announced. The EMOs monthly reports will be submitted to TANESCO and subsequently to NEMC. The external monitor will submit two reports annually, based on his/her semi-annual visits. The basis of these reports will be his/her owns monitoring field visits and analysis as well as other monitoring reports. The external monitor’s reports will be submitted to the project funding agency. All reports will cycle through the institutional mechanism established for project management and where action is recommended in monitoring reports such action will be taken at the appropriate levels in a timely manner. 9.4 Costs Related to Monitoring Monitoring costs include a full time Environmental Management Officer (EMO) during and specific specialist monitoring during the construction and are approximately USD 205,000. 192 Table 20: Environmental Monitoring Plan IMPACT Impact climate MITIGATION MEASURE on • Soil erosion and • pollution. • Monitored Location parameter MOBILIZATION AND CONSTRUCTION PHASE Ensure full rehabilitation of vegetation in all disturbed areas. Limit ROW clearing to width required. Decommission and rehabilitate works areas and camps at the end of construction. Innovative ways to reduce fuel consumption e.g. use of rail to transport equipment and resources to site. Carry out efficient storage of fuel and prevention of leakage. Maintain record of fuel use and all fuel savings. Soil stability testing should be undertaken prior to any construction, to identify areas at low, medium and high risk of erosion or landslides, which should be indicated on a soil erosion and landslide risk map. Final site designs (of the HPP, access road) will be based in part on this risk map EPC contractor to provide detailed plans for cut and fill areas, establishment of embankments and management of cut material. Plan to include landscaping and rehabilitation of all the embankments. Closure and rehabilitation of all cleared working areas and temporary tracks. During construction ensure that vehicles use approved roads and tracks only. Ensure that the road access is the most suitable in terms of using the natural contours. Climate change Within project Yearly area Rehabilitation plan Embankments, outlined and funds camps and lay available down areas 193 Frequency Monthly Responsibility Annually cost (USD) TANESCO and contractor 8,000 TANESCO and contractor 7,000 IMPACT MITIGATION MEASURE • Reduction of • population of limited range of endemic species Monitored parameter Vegetation removal should be kept to a minimum, and bare earth re-vegetated with suitable local native vegetation, as soon as practicable after construction is completed. Construction should observe the restricted Presence species areas if any Location of Frequency key Endemic monthly species habitats (lower rapids) Responsibility Annually cost (USD) TANESCO and contractor 5,000 fish • Follow-up assessments of populations both upstream and downstream of the reservoir will be required Zero use of aquatic Fish habitats resources in lower rapids. Monthly TANESCO and contractor 8,000 Loss of Terrestrial • Wildlife Limit clearing of areas to the minimum and ensure that limits of areas to be cleared are effectively marked. Importance of the left bank for chimpanzees should be emphasized during induction training. Severe penalties established for illegal hunting, trapping or purchase of bush meat. Establish links with MUE authorities and Jane Goodall Institute to increase their presence in the area Preserve identified Within project monthly terrestrial wildlife area TANESCO and contractor 15,000 of • and Construction teams to be induced on issues of habitat protection, minimum clearing of areas, fire control and to be made aware of the orchid species of concern. Preserve vegetation Within project monthly cover area TANESCO and contractor 12,000 • A wet season survey of vegetation will be required to locate rare plant species within the proposed reservoir. All orchids identified within the 843 m.a.s.l flood line of Loss of migration Loss Vegetation Habitat 194 IMPACT MITIGATION MEASURE Monitored parameter Location Frequency Responsibility Annually cost (USD) As per procedures (include Ca and Mg levels upstream and downstream m) These should be provided to the biodiversity research Storage areas, construction accommodatio n, storage areas, working areas within river bed Monthly TANESCO and contractor 6,000 the reservoir should be moved onto similar habitats on the left bank in the MUE. • • Construction footprint will be kept to a minimum focusing only where land is required for project construction activities. Indigenous vegetation should be reestablished following construction of the HPP Pollution of • Water Quality Procedures must be in place prior to establishment of the site for the handling of fuel, oil, lubricants and other toxic chemicals, machinery maintenance and emergency procedures. Materials and spillages from the diversion working areas are to be actively prevented from washing into the downstream rapids. • Construction of temporary sanitary facilities or mobile toilets for construction workers Noise, Dust and • Vibration Dampening down of tracks through settlements when heavy traffic volumes expected. Preparation of air quality management plan. Haulage trucking may only operate during daylight hours. No haulage traffic on Sundays. • Establish complaints procedures with local authorities. • Use of safety equipment by employees when exposed to high dust or noise levels. Monthly during Complaints Settlements registered, condition along access dry season of road surface track 195 CC ESO reporting to EMO 5,000 IMPACT MITIGATION MEASURE Monitored parameter Detailed attention to aesthetic issues and lighting included in design Location Frequency End of design phase End of design and end of construction Disturbing visual • and landscape Re-vegetation and rehabilitation of all laydown and construction areas particularly camps borrows and quarry. • It is important that the presence of the MUE area is considered during detailed design and the long term potential of tourism is not lost through high visibility structures and excessive night time lighting. It is common around hydropower plants to flood the working areas in light. This practice should be avoided and lighting limited to essential areas only with all lighting to be directed downwards. An audit of visual impacts should be undertaken of the design prior to approval and again at the end of construction. • All potential tourism sites are to be preserved. Damage of • Archaeological Sites and Cultural Heritage During excavation special attention should be paid to the chance occurrence of archaeological artifacts and sites. Drivers of excavating machinery should be made aware of such chance finds and what procedure is to be followed upon the sighting or location Condition of sites Cultural and archaeology sites Impact on • communities health and sanitation (Risks to public health, A Public Health and Sanitation Support Plan should be developed which addresses the following issues: local community health status and needs, upgrade the local medical facilities (clinics) to accommodate the Infection rates and condition of employees and local population Local clinics and on-site clinic 196 Responsibility Annually cost (USD) TANESCO 6,000 Annually EMO 5,000 Monthly Medical staff of onsite clinic and Kazuramimba 8,000 IMPACT MITIGATION MEASURE spread of HIV, AIDS and other STD`s.) increase in the local populations due to project related influx, set-up health clinics for workers in the camp sites, run regular health and sanitation awareness campaigns in the local settlements, schools and for project workers Road Accidents, • Health and Safety risks Speed limit to vehicles hauling construction materials especially in settlements to be 30km/hr and even less when passing through congested areas and introduce speed humps where necessary to force speed reduction. • Only those workers that are trained will be engaged to operate specific machines and equipment. In addition, well-maintained equipment will be used. • Worker’s health and safety will be monitored through an occupational injury and illness reporting program, accident and near‐misses reporting and investigation protocols. • Post proper signs at site to warn workers of safety requirements as regards to machines operation, moving parts, High voltage, sharp edge, deep hole, etc. • provision of proper work instructions and safety measures for each job • First Aid box will be provided and have a trained person to handle site emergencies and incidences. Monitored parameter Location Frequency Responsibility Annually cost (USD) to provide figures to EMO Plan implementation 197 Local communities along access road, particularly Igamba sub village Workers working area Once per Month by follow up on accident Month Report. Developer in 5,000 some cases with consultation with OSHA IMPACT MITIGATION MEASURE • Safe and clean drinking water will be provided at all worksites. • Personal protective equipment (PPEs) such as safety helmets, safety masks, safety boots, uniforms and hand gloves will be provided to the workers based on hazard exposed. Affected People, • and Loss of Assets and Natural Resources once the final project design is in place, a detailed land and asset loss mapping and assessment should be carried out as the first step to update the RAP (to World Bank OP 4.12 standards) • The grave observed during site survey along igamba III downstream will be relocated following the regulations Accumulation of • solid waste at the site. Optimize the use of materials (i.e. utilizing methods that minimize and reduce the quantities of waste generation (production) during construction. • Collections of all wastes and appropriately disposal at the designated areas. • Provision of solid waste receptacles and storage containers, particularly for the disposal of plastic bags, boxes, etc. • conduct awareness training on waste management to workers at all working sites • Post appropriate signage such as “DO NOT LITTER” or “USITUPE TAKA” at all strategic sites. Monitored parameter Location Compensation and resettlement Waste collection and disposal plan Number of dust bins present at the site 198 Frequency Responsibility Annually cost (USD) Direct Impact Construction Zone (DIZ) phase Developer (TANESCO) Estimated in RAP report Within project Weekly site Developer and contractor 10,000 IMPACT MITIGATION MEASURE Monitored parameter Location Frequency Responsibility Total Costs Mobilization and Construction phase Impact on climate • • • • Soil erosion • Reduction of • population of limited range of endemic species • OPERATION PHASE Observe the air quality standards as Climate change Within project Yearly provided for under the Second Schedule of area the Environmental Management (Air Quality Standards) Regulations, 2007 GN No 237 published on 7th December 2007. Minimize fugitive emissions from valves pump glands through use of mechanical seals, flanges through good design practices and equipment maintenance procedure Use of mechanical seals where appropriate Reduce Nitrogen oxides by using low ‐NOx burners and optimise fuel gas usage. Regular maintenance of the access road, Rehabilitation plan Embankments, Monthly ensure drainages are clear and all erosion outlined and funds camps and lay gullies immediately rehabilitated. Monitor available down areas stability of all embankments annually. Rehabilitate where necessary Establishment of an oversight committee by Presence of key Endemic monthly species the LTBWO to provide independent species habitats (lower opinion. The sub-committee should include rapids) key stakeholders such as the University of Dar es Salaam and the Jane Goodall Institute (JGI), together with district and NEMC. The oversight committee should also ensure that and integrated land use plan for the upper Igamba area is prepared and conservation measures implemented. 199 Annually cost (USD) 100,000 TANESCO 5,000 TANESCO 4,000 TANESCO 8,000 IMPACT MITIGATION MEASURE • An appropriate long-term biodiversity monitoring program is developed and integrated into the Environmental Management System • Strict enforcement of “no go” areas upstream of the dam wall and in the MUE Protected area adjacent to the DIZ. Entry into such areas must be approved by the ESO. fish • Follow-up assessments of populations both upstream and downstream of the reservoir will be required. • During periods when there is no flow between the dam and the tail race (e.g. during sediment scouring) or when there is only EFR in this section of the river, fishing, clothes washing and natural resource abstraction should be prohibited. Operational procedures in place to phase river flow changes during peaking. Loss of terrestrial • wild life of • and Loss of migration Loss Vegetation Habitat Monitored parameter Location Zero use of aquatic Fish habitats resources in lower rapids. Frequency Responsibility Annually cost (USD) Monthly TANESCO 8,000 Severe penalties established for illegal hunting, trapping or purchase of bush meat. Support for district conservation activities should be provided. Preserve identified Within project monthly terrestrial wildlife area TANESCO 7,000 No cultivation around the reservoir, total ban on timber abstraction within the project area under TANESCO control and no movement of timber out of the Masito Conservation Area via the access road. Preserve vegetation Within project monthly cover area TANESCO 10,000 200 IMPACT MITIGATION MEASURE Fluctuations in • river flows immediately downstream of the dam wall An EFR of 10m3/s will be required as a permanent minimum flow in the downstream rapids area. Cessation of EFR limited to a maximum of three hours continuous within a 24 hour period. • No fishing or other aquatic resource collecting to occur in the lower rapids when river flows are limited to the EFR or less. Fluctuations in • river flow downstream of the DIZ Close off water flows over an extended period of half an hour and similarly commence with high flows slowly to reduce surge effect and impact on river banks. • Monitor downstream fish populations for signs of impact on breeding. Monitor river bank stability within five kilometers of the tailrace for change in rates of erosion. Based on the findings modify the peaking operations Generation of • solid and liquid wastes • Optimize the use of materials to reduce the wastes • Consider having centralized facilities such as canteen for staff where all generated wastes can be easily collected for further handling and disposal. Monitored Location parameter Change in flow Tailrace gradual over 30 minutes Frequency Monthly during peaking operations during first 2 years of operation Solid waste Within project Monthly management plan area Good plant housekeeping and ensuring the waste is collected at appropriate points before disposal to the municipal land fill or sewerage system. 201 Responsibility Annually cost (USD) TANESCO Station Manager 5,000 TANESCO 12,000 IMPACT MITIGATION MEASURE • Post appropriate signage such as “DO NOT LITTER” or “USITUPE TAKA” at all strategic sites of the operating plant. • Assign Contractor’s Environmental or Safety Officer the responsibility to ensure that the surroundings are kept clean. • Put waste bins and trash cans at appropriate areas to collect daily wastes and later send to designated dumping area by government. and • The design of flue duct and steam piping need to achieve a reasonable layout and smoothly flows so as to reduce the aerodynamic noises. • Sound absorbing materials and device with good sound absorption effect will be used in high noise workshop and wall surface. • Maintain the required noise and vibration standard levels as provided for under the National Environmental standards compendium by conducting regular monitoring. • Where noise levels are beyond 70dB (A), ear muffs or plugs to protect workers and visitors. Risks to public • safety, health and spread of • Continue with sensitization programs for workers and local community. Noise Vibration Monitored parameter Location Frequency Monthly during Complaints Offices, dry season registered, condition Residential of road surface premises and settlement along access road Health records Encourage periodic health examination and conduct medical examination for newly 202 Community Every six months Responsibility Annually cost (USD) CC ESO reporting to EMO 5,000 TANESCO 10,000 IMPACT HIV/AIDS other STDs. Loss employment MITIGATION MEASURE and Monitored parameter Location Frequency Responsibility Annually cost (USD) recruited employees and ensure proper treatment is obtained for the workers. • Condoms will be distributed and placed in strategic locations for easy access by the workforce. • Equip the power plant with firefighting equipment comprising of all fire extinguish types (sand, water, foam, Carbon Dioxide, etc. to take care for any type of fire • Train workers to be in a position to use firefighting equipment. of • • Total Costs Operation Phase DECOMMISSIONING PHASE Working places Retrench workers according to labour laws. Employment Where applicable retrain workers to fit Terminal benefits 74,000 End of project the TANESCO 5,000 Decommissionin g TANESCO 5,000 another job market. • Ensure workers join the Social Security Funds such as NSSF, PPF etc. • Provide competence training to workers to make them competent for jobs elsewhere. Generation of • noise and • vibration during demolition works • Use equipment with low noise levels. Inform the communities when there will be abnormal noises such as use of explosives or other noisy activity. Registered complaint Workplace from public on noise and vibration issues The contractor shall work during normal working hours so that the neighboring communities are not disturbed during resting hours. 203 IMPACT MITIGATION MEASURE • Provision of PPE for workers working in noisy environment Poor air quality • from dust and emission • Water sprinkling to reduce the dust near the demolition site • Monitor the emission of demolition machines/equipment to be within allowable emission levels. • Debris transported from one location to the other shall be entirely covered with tarpaulins. • Sensitization of demolition crew Increased potential accidents for • Provide dust masks to operators and those working in the dusty areas and where necessary goggles to protect frying objects. Provision of the proper PPE • Incident examinations to find causes of injuries or accidents in order to prevent recurrence Wastes from • demolished materials • All types of wastes shall be removed from the site for permanent waste disposal. • Hazardous wastes will be sent to specialized dealers as recommended by NEMC Monitored parameter Location Frequency Registered complaint from public/community on air related diseases. Workplace During decommissionin g phase TANESCO 10,000 recording Working site During decommissionin g phase TANESCO 6,000 Presence of waste at Working site the site During decommissionin g phase TANESCO 5,000 Accident systems Separation of materials shall be made, biodegradable wastes, metals, plastics, etc. While biodegradable wastes may be buried in pits on appropriate area at site or nearby, recyclable materials such as metal and plastics will be sent to recycling facilities. 204 Responsibility Annually cost (USD) IMPACT MITIGATION MEASURE • Monitored parameter Location Frequency Responsibility Annually cost (USD) Re-usable materials such as doors, windows, and other items made from steel, Aluminium or wood will be shifted to areas where they will be re-used as directed by the Company. Total cost decommission phase 205 31,000 CHAPTER TEN: COST BENEFIT ANALTYSIS An important advantage of cost-benefit analysis is that it reduces a problem with mult dimensions to one with fewer dimensions. This analysis assigned values to important and influential factors but has omitted smaller and inconsequential factors. All values included in this analysis were converted into real values. Instances where a real value could not be approximated from the data, World Bank Conversion figures were used. The process involves discounting future benefits and costs accrued to give their approximate values at the beginning of the project. A discount rate of 10% was used, consistent with World Bank procedure. In this analysis, we used a project lifespan of 40 years. 10.1 Real Costs 10.1.1 Construction Costs Construction would be carried out in the first 3.5 years of the project, which would include a 44.8 MW power plant (producing 186.8 GWH/annum, a 27 km access road and transmission lines. The initial capital investment for the 44.8 MW power plants was taken from the engineering study to be $ 148.54 million and was spread evenly across the 3.5 years of construction. 10.1.2 Operation and Management Costs Operation and Management costs were approximated to be 1.5% of the accumulated capital expenditure. 10.1.3 Resettlement Costs This value was estimated as the real cost of carrying out the Resettlement Action Plan (RAP). 10.2 Negative Externalities 10.2.1 Social Impact of HIV/AIDS This was measured as the increased prevalence of HIV/AIDS to the surrounding areas as a result of migrant labour used for the construction. The increase in contraction rate was estimated indirectly through another study. This study showed that villages close to Tanzanian borders had a prevalence rate of 13.6 % higher than the national average amongst 15-49 year olds. Because the continuous movement of people at borders resembles the temporary movement of construction workers into the project area, this increased rate was used as a proxy. The population affected included the villages that were situated near to the new 27 km access road. 206 10.2.2 Loss in Bio-Diversity The value of mitigation for Stage III to protect Igamba snail habitat was adopted. Additionally, the real cost of the Rapid Bio-diversity Assessment was also included in the real cost to Biodiversity. The CBA has not been able to incorporate a “biodiversity” value for the loss of habitat for Igamba Snails and Igamba Gobe Cichlids. This analysis assumes that these species will not become extinct and that the remaining habitat will receive better protection than present. 10.3 Real Benefits 10.3.1 Hydroelectric Power The real price per unit of electricity in Tanzania was used to price the value of hydroelectric power. As the plant will be linked to the national grid it was assumed that all surplus power produced will be sold into the national grid at lower rates (assumed 50% of present real value of power). 10.3.2 Employment Generated from Construction A peak of 550 jobs will be produced for a period of 1.75 years and a lower figure of 250 for remaining 1.75 years were used as the estimated number of jobs generated from construction. This was multiplied by the real minimum wage in Tanzania of $ 1,600 per annum to value the benefit to the region. 10.3.3 Net Recreation from Tourism A hypothetical scenario was fabricated to predict the potential effects of establishing a tourism industry in the area. The newly developed 27 km access road would allow for easy access to the area. In the scenario, a 20 bed hotel was created 5 years after construction. This hotel would run at 30 % capacity at $ 80 a night for 5 years. After this it would continue to run at 50 % capacity until the 40 year time line was done. It is assumed that the hotel will run for only half a year because of the seasonal nature of the industry. 10.3.4 Fishery The new 27 km access road would allow for local fisherman to gain better access to markets. Therefore, assuming the number of fisherman and fish caught remain as currently is, a value for the fishery benefit can be calculated. It is assumed that the real price of fish remains at $ 1 per fish. 10.4 Positive externalities 10.4.1 Benefit from the 27 km access road A study in Peru found that a rehabilitated motorized road can potentially increase the per capita income of the area by $ 120 per annum. Because the study was undertaken in rural 207 areas with high poverty rates, it was used as a useful approximation of the real benefit derived by the communities close to the access road in Malagarasi. 10.4.2 Displaced Greenhouse Emissions Assuming 1 MW of power from a diesel generator emits 625 tons of Greenhouse Gases per annum and the price per ton of Carbon is $ 10 an estimate can be calculated using the predicted power demand in the area i.e. thermal diesel power production replaced by hydropower. This was increased from 1.5 MW to 5 MW by year 40. 10.5 Additional Assumptions Made • The loss of vegetation from clearing for the access road is minimal and will be offset by the revenue generated from the charcoal made. • Work related injuries and other negative health implications are incorporated into the capital expenditure and the operations and management of the project. • Assuming the average number of people in each household as 7. • Assume snail population evenly distributed across 100% of its habitat, so that a 29 % loss in habitat also means a 29 % loss in species • Assume the real price of electricity remains constant over 40 years 11.6 Concluding Remarks A cost-benefit analysis can be a useful tool in highlighting significant areas. The hypothetical tourism scenario shows that it is possible to offset some (potentially all) of the bio-diversity loss. Surrounding protected areas could benefit greatly from tourism. The Cost-Benefit analysis shows a clearly positive Net Present Value (NPV) for the project. Although there may be some inaccuracies in the data used and assumptions made, the gap between the benefits and costs is too great to ignore its significance. The positive effect of supplying electricity to rural areas will have profound effects on poverty reduction and development. There is considerable difficulty in valuing these trickledown effects of energy and resources into the rural economy. However, the effect on poverty reduction will be highly significant, implying that the value of NPV is greatly undervalued. This analysis indicates that the Malagarasi Hydropower Plant will provide a net positive benefit to the region. 208 Table 21: Cost-Benefit Analysis of the Malagarasi Hydropower Project Cost-Benefit Analysis of the Malagarasi Hydropower Project Benefits 1. Hydroelectric power $514 141 809.39 2. Employment generated by construction 3. Net recreation - Tourism 4. Fishery $1 369 047.47 $605 001.32 $285 548.28 5. Total positive externalities a) access roads $22 671 751.19 b) Displaced greenhouse emissions $134 097.49 TOTAL REAL BENEFITS $539 207 255.14 209 Costs 1. Construction costs ($135 036 363.64) 2. Operation and management costs 3. Resettlement ($16 247 747.98) ($92 000.00) 4. Externalities a) Social impacts of HIV/AIDS b) Loss in Bio-diversity ($13 444 586.99) ($1 459 211.82) -$166 279 910.43 TOTAL REAL COSTS $372 927 344.71 Net Present Value of the Project 210 CHAPTER ELEVEN: DECCOMMISIONING 11.1 Introduction The project operational phase covers 35 years. It is assumed that the hydro-mechanical equipment is replaced after 20 years and the electro-mechanical equipment after 15 years. No specific information is available about decommissioning. The anticipated regular maintenance and replacement of equipment would obviously ensure a long life span of this project. In the unlikely event of the total closing down of the project an assessment is needed to decide on the feasibility and benefits of removal of the dam structure. In the normal time span of a hydropower reservoir a new (lake) ecosystem will have been established and new ecological and biodiversity values and water use opportunities might have been established. 11.2 Decommissioning of the Construction Phase Following completion of the construction works, appropriate consideration will be given to the deconstruction and decommissioning of the construction sites. It is important to ensure that when the construction works leave the site that they do not result in significant impacts, such as contamination, waste or damage. Such considerations are included in the Environmental Management Plan and must be documented in the Contractor’s procedures. 11.3 Decommissioning of the Project Hydropower Facilities Decommissioning can be expensive and requires detailed engineering and environmental and social assessment. The following would be required: 1. Objectives of decommissioning to be clarified e.g. reinstatement of fish migrations; restoration of habitat; preparing the hydropower facilities for suspension of power production, with a possible option of bringing the facilities back on line after an extended outage. The objectives will determine the extent of decommissioning as discussed below; 2. Decommissioning engineering plan and associated costs; 3. Solid waste management plan and associated costs; 4. Social assessment (impact on existing livelihoods); 5. Environmental plan (impact on biodiversity and ways to maximise biodiversity recovery). 11.3.1 Establishment of Decommissioning Objectives and Preparation for Decommissioning: • Five years before decommissioning (or earlier if closure is identified) the objectives of the decommissioning are to be articulated and agreed with affected parties and 211 an estimate of the cost of decommissioning established. All decommissioning and rehabilitation activities that can be implemented prior to closure are to be undertaken. • Once the objectives of decommissioning are established, an inventory of all components of the hydropower project is to be prepared and the extent of decommissioning of each component established. • Three levels of decommissioning can occur: 1. Mothballing where the plant and facilities are prepared for indefinite suspension of power production and brought back on line after an extended outage; 2. Permanent decommissioning of power plant and associated works whilst allowing the dam to remain as a “natural” water body; 3. Decommissioning of all components including breaching of the dam wall and reestablishment of historic flow patterns. This includes either breaching the dam wall and, by constructing levees, permanently channelling the river around the remaining dam structures, and leaving the dam structures in place; or, breaching the dam wall, temporarily channelling the river around the remaining dam structures, and removing the dam structures from the river. 11.3.2 Decommissioning Costs and Engineering 11.3.2.1 Inventory of Components The inventory of physical components must include all constructed elements e.g. the powerhouse, canals, gates, housing, access roads and transmission lines. 1. Powerhouse systems These will include: generators; circuit breakers; dewatering pumps and sumps; transformers; lubricating systems; diesel and gasoline tanks; compressed air systems; emergency diesel generators; control room; main units (turbines); lighting systems; station batteries; oil storage in the powerhouse; storage (warehouse, paint, etc.); wastewater treatment plant; flushing gate system; gate operating machinery; miscellaneous systems; transportation and collection channel; telephone system; radio base station. 2. Hazardous Materials, Substances, Chemicals, and Wastes The dam site will have numerous items that can be classified as hazardous/dangerous materials, substances, chemicals, or wastes. In the event the hydropower facility is 212 decommissioned, all items that are designated as solid wastes would need to be identified, characterized, and disposed of in accordance with Tanzanian regulations. Examples of hazardous materials, substances, chemicals, and wastes normally found at a hydropower facility that may require disposal actions if not recycled are: Polychlorinated Biphenyls (PCBs); asbestos; paint/abrasive (red lead paint); oil; greases; fuel/diesel (includes product and sludge in tanks); mercury; halogenated and non-halogenated solvents; pesticides (includes herbicides, insecticides, and wood preservatives); chlorinated fluorocarbons (CFCs) Freon/Halon; batteries (includes acid); water treatment sludge (septic tanks/wastewater treatment). 11.3.3 Social Plan The social plan will require an assessment of the best use options for the area and surroundings and identification as to how the decommissioned plant area can contribute to future economic activities and social development. The plan is to be based on public participation and public aspirations clearly identified. 12.3.4 Environmental Plan to include the site clearing activities and rehabilitation activities Environmental assessment of the decommissioning process and the biodiversity implications of decommissioning the reservoir are to be assessed. These aspects are to be included into the engineering plan and decommissioning cost estimates. Decommissioning of the hydropower facility would include removal of the powerhouse and foundation, and the excavation and removal of the intake, tailrace, and buried components. Underground components would be removed to a depth of at least one metre to ensure an unobstructed root zone for re-vegetation. Decommissioning of pipelines would range from the removal of only the aboveground components to removal of the entire pipeline and ancillary components. More deeply buried components might be abandoned in place. Any dam or weir could either be removed or left to maintain the head pond for adapted aquatic biota and for recreational activities. Following removal of site components, site reclamation and re-vegetation would mitigate some impacts, such as soil erosion, habitat fragmentation, and visual impacts. 12.3.5 Funding TANESCO will be required to ensure that there are funds available for decommissioning. 213 CHAPTER TWELVE: CONCLUSION 12.1 Summary and Conclusion This Environmental Study has covered the proposed construction hydropower at the Igamba Falls cascade. During the assessment the upper storage reservoir and HPP (Stage I) was not considered due to both environmental concerns and the high development costs. The middle cascade runof-river ponding dam (Stage II) was assessed and rejected on environmental grounds due to the presence of habitat critically important to the Igamba Snail (a range limited endemic) and to a lesser extent to the Goby cichlid. The lower cascade dam (Stage III), also a run-of-river scheme was identified as the scheme of lowest impact on biodiversity. This scheme is the focus of the Environmental Study study. The Igamba Falls and Rapids are composed of porous and fractured Upper Malagarasi Sandstone formation with extensive circular pothole erosion formations. This rock habitat lies between an upper catchment and Lake Tanganyika. The location and evolutional history of the Igamba Falls area makes it a unique site from an environmental perspective. Its fauna, chemistry, substrate and productivity are different from other sites in the river system. The Stage III scheme will take three years, four months to construct and will produce up to 44.8 MW power when river flows are in excess of 181 m3/s. The dry season firm power will be 5 MW and daily peaking will be required when river flow is below 33m3/s. 12.2 Priority Issues The Igamba area is unique in that it has had a extended stable period (10 million years), extensive hyporheic cryptic habitat and elevated calcium and magnesium levels in the water probably due to the unusual geomorphology which causes the sub-surface water to be in pressured, multisurface contact with the bedrock (Mott MacDonald RBA study 2009). The falls area is also protected from sedimentation by the upstream Malagarasi-Moyowosi swamp and associated lakes. The Igamba area is home to several identified endemic and highly localised animal species. These species are are highly vulnerable to development and changes to water quality and flows resulting from local or upstream changes. The proposed Malagarasi Stage III HPP will involve a trade-off between increased risks to the unique species and production of hydropower. The lower Malagarasi contains a remarkable mollusc fauna with some undescribed species. The Igamba snail is the most iconic, hence the emphasis on conserving this species, but the undescribed Potadomoides mollusc and its uncertain overall distribution also illustrates the importance of taking care to protect the environment during and after dam construction to minimise impacts on the aquatic habitat. 214 Given the biodiversity importance of the Igamba Falls and rapids, the establishment of a cascade scheme that would affect large portions of the cryptic habitat will result in a high risk of species extinctions. As a result the Independent Panel (Mott MacDonald Malagarasi Independent Advisory Panel (MIAP) Recommendations 2009 ) recommended that, should the development go ahead “Foregoing either Stage 1 or Stage 3 must to be explored with a view to selecting one of them as the most appropriate offset to mitigate biodiversity impacts. Using Stage 3 as an offset would protect habitat biodiversity for fish; the offset of Stage 1 would protect gorge aquatic and terrestrial ecosystems and gallery forest biodiversity. Such an offset must be formalized in a covenant prior to Stage 2 going ahead. A clause can be added to relax conditions of the covenant should monitoring show the offset to no longer be necessary.” It is important that the offsetting of Stages I and II and the optimisation of the Stage III scheme, as a run-of-river scheme with dry season peaking, are seen as mitigation and optimal development of the area. The offset approach allows for hydropower to be produced while the main falls and upstream remain available for tourism development and conservation of the core Igamba Snail habitat. A number of issues that were raised as recommendations for the Stage II HPP keep occurring and need addressing here, these are: 1. Grout curtain: The porous nature of the rock below the proposed dam wall will require cement based grout to be pumped into the foundation area up to 30 metres deep. The objective of the grout is to prevent subterranean flow which reduces water available for hydropower production and to protect the dam wall from being undermined. The stage III dam site is in a slow flowing pool and not rapids (as in the case of the Stage II site). The extent of the subterranean flow in the existing pool and its effects on the existing hyporheic flows is not fully understood. Similarly the environmental flow release, which will come from water from the live storage area of the reservoir, and be released at the top of the downstream rapids, should ensure that water quality is not affected by the grout curtain or short residence time in the ponding reservoir. 2. Environmental Flow Release (EFR) during construction: MIAP recommended that the construction scenario of a diversion canal and two coffer dams be modified to maintain a wet area downstream of the diversion weir so as to provide critical natural habitat for aquatic organisms during construction. No suitable engineering options have been identified for this requirement apart from pumping a maximum flow of 0.2 m3/s around the construction area to the top of the rapids so that some of the aquatic habitat of the downstream rapid remains alive. Although this is suboptimal and will result in most of the downstream rapids drying out, the presence of the main population of key species upstream may allow for both natural reintroduction of species as well as reintroduction though programmes. 215 3. Sedimentation: The MIAP requires that the diversion weir be redesigned to include sluice gates to direct the water through the bottom of the weir during high flows to reduce the risk of sedimentation downstream while ensuring that the reservoir above the weir is scoured of accumulated sediment. The findings of the Stage III sedimentation flow studies prepared during the feasibility study are that the live storage of the reservoir will be scoured clean annually and that the sediment flushing gates will be able to clear sediment that accumulates in the diversion canal. Sedimentation is not considered a critical issue for the Stage III HPP. 4. Environmental Flow Release: It is noted that should development proceed for the Stage III HPP, most of the key aquatic habitat is located upstream of developments (approximately 80% of the Igamba Snail habitat). It is recommend that no development occur in the areas of Stages I and II and that an oversight body be assigned to monitor development and future use of the Igamba cascade. As mentioned above, additional work is needed to study environmental flows and associated costs and benefits. The precautionary principle used by the Independent Panel with reference to Stage II requires the EFR to be minimum flow plus 10 m3/s (an EFR of 33m3/s). This would require additional study in the context of Stage III. 5. Captive breeding: The MIAP required design and implementation of a captive breeding program for target species and the development of a plan for reintroduction. The consultant considers that the preservation of the upstream portion of the Igamba Falls and the majority of the key aquatic habitat to be the best form of protection for the target species and that the upstream area could be treated as the reservoir for reintroductions after construction has been completed. Protection of this area would require agreement by relevant officials, stakeholders, and a plan to ensure that the area is managed sustainably. Reintroduction of key species from the upstream areas as well as captive breeding could be useful complimentary strategies, Further work is required to determine the efficacy of captive breeding and reintroduction. Until this is done, it is difficult to determine if these efforts will maintain populations of these species in the lower rapids. The commitment of the Government to connecting Kigoma to the national/regional grid has greatly increased the hydropower value of the Lower Malagarasi as surplice energy can, in the future, be used in other areas of the country while the grid will offer stable power in the case of low river flows. The optimization of the HPP and linkages to the national transmission line grid connection will require a redesign and routing of the initially proposed transmission lines between the Stage III site and consumers. A critical issue, though, is the possible future pressure for development of the cascade upstream. In this regard it will be necessary for an oversight body to monitor the management of the Stage III HPP and control expansion of power production to other stages based on the assessment of risk to endemic species. 216 12.3 Pending Project Definition, Studies, and Analyses Additional project definition and analyses will be required before a full feasibility study and environmental impact assessment can be completed. For example, the Government of Tanzania’s recent commitment to extend the national grid to the Kigoma region offers new opportunities for providing reliable and relatively low-cost power supply and TANESCO has moved forward with a number of interconnecting transmission lines. Thus, the previously proposed transmission line linking the Malagarasi hydropower station to users will be significantly changed, but routing and capacity of the transmission line(s) is still to be defined. As a result of these changes, this report analyzes impacts for Stage III hydropower works and related construction camps, rock dumps and operational facilities and new portions of the access road leading to the Stage III location, but does not address the transmission line(s) and Resettlement Action Plan(s) for all project components. The recommended follow up actions to complete a full ESIA are summarized below: • Analysis of the entire project. This analysis would include the transmission line(s) and an updating of the analysis of the 27 km access route such that the full range of effects, their magnitude, and total effects (including those that are cumulative) are understood. Expanded analysis of alternatives given the presence of rare endemic species and vulnerable habitat at both the main and lower Malagarasi Falls and the interconnector scheme. The analysis of alternatives would deepen the analysis of connection to the grid, other siting locations (e.g. further upstream, on the Luiche), and non-hydro options. Full costing of environmental and social mitigation measures. This report contains an initial estimate of some measures to avoid or mitigate for adverse effects. This analysis should be expanded based on the results of the studies described here and a full accounting of the costs of mitigation measures identified in the process. • • Water Flows • Additional hydrological studies including analysis of river flows, water quality and seasonal mapping of flows. A focus would be the extensive, hypothec, subterranean cryptic habitat and the relationship of elevated calcium and magnesium levels in the water to the endemic species. Considering the observed decrease in flows in the most recent years of hydrological data, efforts should be made to determine the causes of these low flows and to fill in the time series. 217 • Compensation flow during construction. This flow, currently defined as 0.2m3/s, will affect the habitat of endemic, range restricted species. This is considered suboptimal and merits further study, taking into account the costs of other construction scenarios that could avoid the need to translocate and reintroduce the range-restricted species. • Environmental Flow Release (EFR). Based on further detailed hydrological work, additional analysis is needed to determine the amount of environmental flow required to mitigate impacts, including to the Igamba suckermouth catfish population. The analysis should evaluate what would happen if the 95% flow rate (21.0m3/s) were used or if the scheme were full run-of-river. • Additional documentation on permit to abstract water and reduce flow, including the timeline and effect on implementation schedule. Endemic and Sensitive Species Studies of endemic and other sensitive species. This is important given the Malagarasi River is important for endangered, endemic or range-restricted species as well as highly threatened or unique ecosystems (including the new mollusk and a new species of Potadomoides found at the same lower rapids site as the Igamba snail). The studies should seek to determine whether it is possible to build the project in a way that does not lead to measurable adverse impacts on the endemic and range restricted species or a net reduction in the population of any Critically Endangered or Endangered species over a reasonable period of time. Reintroduction /translocation on a trial basis should be carried out before irretrievable losses occur. Impact evaluation ratings require re-analysis and independent review. In addition, impacts of the disturbance to chimpanzees and to endemic vegetation as well as rare orchid species may require additional study. • Additional (wet season) vegetation studies to locate rare plant species within the proposed reservoir as well as data and research to evaluate the significance of Podostemaceae and potential rheophytes (both are cascade plant groups) found in the fast flowing water of the river and the site of the dam. This area could be one of the most important sites for podostems in East Africa. • • Definition of measures to avoid, mitigates, or adequately compensate for effects on biodiversity. The preferred option is to avoid negative effects, particularly those on sensitive resources, such as critical resources. To meet international standards, a biodiversity offset should achieve measurable conservation outcomes that can reasonably 218 be expected to result in no net loss of habitat (for natural habitats) and a net gain if the habitat is critical. Given the complex issues regarding sensitive and potentially critical habitats, the use of independent experts (such as an Independent Advisory Panel) may be warranted to advise on the completion of an ESIA and related measures. Social and Cultural Aspects • • Additional analysis of impacts of potential introduction of schistosomiasis / bilharziasis to evaluate preventive measures that may be appropriate. Expanded analysis and documentation of cultural resources. This could include a literature review, advice from cultural resource professionals, fieldwork (transects or shovel testing, for example), and a discussion of national law, regulations, policies or procedures and to the Convention Concerning the Protection of the World Cultural and Natural Heritage 12.4 Conclusions Major impacts associated with the Stage III scheme are: Construction Phase: • The 27 km access road will result in some displacement of families along the alignment; • Highly disturbed area of the Direct Impact Zone approximately 184 ha; • A ponding dam of approximately 13.5 ha; • Construction period of three years four months with up to 550 workers on site during peak construction period; • Soil erosion and collapse of embankments; • Noise and vibration on site and along the access route (trucking traffic will be high); • Loss of some aquatic habitat important to endemic species (Igamba snail and Goby cichlid); • Temporary reduced water quality; • Short term impact on wildlife and tourism; • Increase in illegal timber abstraction; • Social, health and safety impacts on local communities. 219 Operation Phase: • The HPP is largely a run-of-river scheme. Downstream flows are not affected except during the late dry season when the dam is used as a reservoir for daily peaking. During peaking operations downstream river flows will vary daily from 10 – 33 m3/s. Although there are no social impacts from this there may some impact on river banks and fish populations; • The section of the river between the dam and the tailrace will be affected by reduced flows and an EFR of 10 m3/s is required to maintain biodiversity; • The existing community of Igamba will be affected through loss of arable lands, reduced access to natural resources, limited access to the river and, some loss of homes; • Loss of Labeo cf. coubie, a migratory fish from the reservoir area; o Reduce value of the area for tourism due to light and visual pollution; o Increase in illegal timber abstraction. Cumulative Impacts (should other Stages of the cascade be developed) • Loss of significant area of critical habitat for site specific endemic species • Changes to downstream flows if Stage I (storage reservoir and hydropower plant) is constructed • Loss of the tourism value of the Igamba Falls and area in general. Major Upstream Threats are: • Reduced dry season river flows due to changes in land use upstream and failure of the Malagarasi – Moyowosi Ramsar Site to successfully manage the upstream swamps • Climate change reducing late dry season flows. The mitigations proposed focus on the social impacts and require a number of detailed social development plans be prepared to ensure that local communities are protected and benefit from the hydropower development. The selection of the Stage III scheme is largely due to the potentially higher impacts that the other two Stages would have on biodiversity in the area. Environmental mitigations are around the location of the hydropower site (at the bottom of the rapids and below the main habitat used by the endemic species). The run of river scheme with dry season daily storage does not significantly increase the size of the reservoir area nor greatly increase the environmental impacts. Given the biodiversity importance of the Igamba area, it is necessary to maintain as much of the aquatic ecosystem as possible thus a substantial 220 environmental release flow has been identified of 10m3/s (approximately half of the average peak dry season flow). The remaining area of the cascade, including the main falls and key aquatic habitats should be protected and used to enhance the tourism value of the Masito-Ugalla Ecosystem area situated on the left bank of the Malagarasi river. The findings are that the Stage III scheme at the lower end of the Igamba cascade can provide benefits to the people and development of the Kigoma Region. Additional work is required, however, to complete the design of the proposed project, fully analyze the environmental and social impact and measures to reduce them. The analysis to date suggests that there will be social and environmental impacts that can be reduced through mitigation actions. 221 References/Bibliography Please note that the individual specialist studies contain detailed references that relate to the specific studies. These will not be repeated here; rather these references refer to the general ESIA text. Arthington A.H., J.L.Rall, M.J. Kennard, B.J. Pusey, 2003 Environmental Flow Requirements Of Fish In Lesotho Rivers Using The Drift Methodology. River Research And Applications19: 641–666 Published Online In Wiley Interscience. Bennun, L. & Howell, K.M. 2002. Chapter 7, Birds. Pp. 121-161. In Davies, G. African Forest Biodiversity. Earthwatch, London. Council on Environmental Quality 1997 Considering Cumulative Effects Under the National Environmental Policy Act. Dencon/Sweco 2005 Feasibility Report on SP-5.2 – Malagarasi (Igamba II) Hydropower Subproject Dickens, C.W.S. and Graham, P.M. (2002). The South African Scoring System (SASS) Version 5 Rapid Bio-assessment Method for Rivers. African Journal of Aquatic Science, 27: 1– 10. ESBI 2009 Environmental and Social Impact Assessment for the Malagarasi Stage II Hydropower Project. Final Report. Prepared by Norconsult. ESBI in association with Africare 2009 Preliminary Resettlement Action Plan Prepared for the Development of Malagarasi Hydro Power Plant and Access Infrastructure Component. 24 pp. ESBI 2011 Malagarasi Stage III Project: Final River Hydraulic Calculation Report. Prepared by Norconsult. 20pp. ESBI 2011 Malagarasi Stage III Project (Engineering) Feasibility Study Report – Prepared by Norconsult. 120pp. ECON Analysis 2005, Feasibility Report on SP-5.2 – Malagarasi (Igamba II) Hydropower Subproject. Hacking, J. (1998) An Innovative approach to Structuring Environmental Impact Assessment Reports. International Association for Impact Assessment S.A. National Conference Papers.pp143-155. 222 Hirji R and Davis R 2009 Environmental Flows in Water Resources Policies, Plans and Projects – Findings and Recommendations. Prepared for the World Bank. JGI, 2008. Biological surveys in the Masito-Ugalla Ecosystem. A research report, Jane Goodall Institute, Dar es Salaam, Tanzania. Luttrell C. and Pantale I. 2008 Budget Support, Aid Instruments and the Environment: The Country Context Tanzania Country Case Study Final Report. ODI. Michel, E., Nkotagu, H. and Friel, J. (2006). Malagarasi Aquatic Ecosystems: biodiversity & limnological functioning of the Malagarasi-Moyovosi wetlands, western Tanzania. Unpublished Report for National Geographic Society, 14 pp. Mott MacDonald 2009 Malagarasi Aquatic Rapid Biodiversity Assessment, Final Report. Prepared for Millennium Challenge Corporation, 111pp. Baseline General References Bennun, L. & Howell, K.M. 2002. Chapter 7, Birds. Pp. 121-161. In Davies, G. African Forest Biodiversity. Earthwatch, London. Bennun, L. & Howell, K.M. 2002. Chapter 7, Birds. Pp. 121-161. In Davies, G. African Forest Biodiversity. Earthwatch, London. Channing, A.C. & Howell, K.M. 2006. Amphibians of East Africa. Cornell University Press, Ithaca. Chororoka, K. 1999. The influence of Malagarasi and Luiche Rivers on Lake Tanganyika dissolved and suspended particles. The Nyanza Project, 1999 Annual Report, The University of Arizona, p. 41-49. ESBI Millennium Challenge Account – Tanzania, Hydro – Hydrological Survey, June 2009. Frost, P. 1996. The ecology of Miombo woodlands. In: Campbell, B. (ed.). The Miombo in Transition: Woodlands and Welfare in Africa. CIFOR, Bogor. p. 11–57. IUCN 2007. 2007 IUCN Red List of Threatened Species. www.iucnredlist.org. Downloaded on 09 June 2008. JGI 2008 Biological Surveys in The Masito-Ugalla Ecosystem (MUE). A report prepared by the Jane Goodall Institute (JGI), Tanzania. 223 Michel, E., Nkotagu, H. and Friel, J. (2005). Malagarasi Aquatic Ecosystems: biodiversity & limnological functioning of the Malagarasi-Moyovosi wetlands, western Tanzania. Unpublished Report, 14 pp. Nkotagu, H. H, and Athuman, C. B. 2004. The limnogeology of the Malagarasi wetlands. In: Nkotagu, H. H. and Ndaro S. G. M. (eds). The Malagarasi Wetland Ecosystem, pp. 1-36. Dar es Salaam University Press, Dar es Salaam. Norplan 2009 Environmental and Social Impact Assessment (ESIA): Development of Malagarasi 8 Mw Small Hydro Plant and 33 kv Transmission Lines to Kigoma, Kasulu and Uvinza. Prepared for TANESCO. TANESCO, 2007. Scoping Report for Environmental and Social Impact Assessment. Development of 8MW Malagarasi Small Hydro Plant, Kigoma. Tanzania. TANESCO. 2005 Feasibility Study of the Rural Electrification (Area Supply) Subproject (Phase 2) . SP-5.1 Kigoma-Kasulu. Report Prepared by DECON – SWECO – Inter-Consult 2005. Biodiversity Goodall, J. (1986). The Chimpanzees of Gombe: Patterns of Behaviour. The Belknap Press, Harvard University, Cambridge, MA. Pgs: 9-79. Moore, J. (1992). ‘Savanna’ chimpanzee. In Nishida, T., McGrew, W.C., Marler, P., Pickford, M. & de Waal, F.B.M (eds), Topics in Primatology: 1: 99-118, Human Origins. Tokyo, University of Tokyo Press. Ndimuligo, S. A (2007). Assessment of Chimpanzee (Pan troglodytes) population and Habitat in Kwitanga Forest, Western Tanzania. MSc. Research Dissertation, University of Witwatersrand, South Africa. Massawe, E.T. (1992). Assessment of the Status of Chimpanzee Populations in Western Tanzania. African Study Monographs, 13(1): 35-55. Plumptre, A.J, Davenport, T.J.B, Behangana, M, Kityo, R, Eiluc G, Ssegawa P, Ewangoa C, Meirted D, Kahindo C, Herremansd, M, Kerbis Peterhanse J, John D. Pilgrimg, l, Malcolm Wilson, Languyi, M, Moyer, D (2007) The biodiversity of the Albertine Rift. Biological Conservation 134 pp 178-194. 224 Sociology References Environmental and Social Impact Report for Development Malagarasi Small Hydro plant Transmission line to Kigoma, Kasulu and Uvinza. Norplan. October 2009. Kigoma District Profile. Prepared by the District council 2009/ 2010. Lewis, M. P (ed.), 2009. Ethnologue: Languages of the World, Sixteenth edition. Dallas, Texas. SIL International. Online version. National Bureau of Statistics, Kigoma Regional Commissioner’s Office and Ministry of Planning, Economy and Empowerment 2008 Kigoma Region: Socio-Economic Profile. Preliminary Resettlement Action Plan, Development of Malagarasi Hydropower Plant and Access infrastructure Component, Prepared by ESBI in Association with Africare. October 2009. Resettlement Action Plan for Malagarasi Hydro Project prepared by ESBI May 2010. World Bank guidelines for involuntary settlement OP 4: 12 (www.worldbank.org) 225 APPENDICES APPENDIX I: LIST OF CONSULTED STAKEHOLDERS 226 227 228 229 Appendix II: Up and Down stream water analysis result for Malagarasi Stage III HPP Project 230 231 Appendix III: Layout of the proposed development and effect on river flows 232

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