MFSC, 2005. Nepal`s Thematic Report on Mountain Biodiversity

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Draft for Comments
NEPAL
FIFTH NATIONAL REPORT TO THE
CONVENTION ON BIOLOGICAL DIVERSITY
Acronyms and Abbreviations
CBD
CBO
CBS
C/FUG
CITES
COP
CSO
CSUWN
DDC
DDG
DFO
DFRS
DNPWC
DOF
EIA
EPC
FECOFUN
FRISP
GDP
GEF
HDI
IAS
ICIMOD
ILO
I/NGO
IPR
IUCN
LI-BIRD
LRMP
MDG
MEA
MFSC
MFALD
NARC
NBCC
NBS
NBSAP
NBSIP
NBU
NPC
NPR
Convention on Biological Diversity
Community Based Organization
Central Bureau of Statistics
Community/Forest User Group
Convention on International Trade in Endangered Species of Wild Fauna
and Flora
Conference of Parties
Civil Society Organization
Conservation and Sustainable Use of Wetlands in Nepal
District Development Committee
Deputy Director General
District Forest Office/Officer
Department of Forest Research and Survey
Department of National Parks and Wildlife Conservation
Department of Forests
Environmental Impact Assessment
Environment Protection Council
Federation of Community Forest Users in Nepal
Forest Resource Information System Project
Gross Domestic Product
Global Environment Facility
Human Development Index
Invasive Alien Species
International Centre for Integrated Mountain Development
International Labor Organization
International/ Nongovernment Organization
Intellectual Property Rights
The World Conservation Union
Local Initiatives for Biodiversity, Research and Development
Land Resources Mapping Project
Millennium Development Goal
Multilateral Environmental Agreement
Ministry of Forest and Soil Conservation
Ministry of Federal Affairs and Local Development
Nepal Agriculture Research Council
National Biodiversity Coordination Committee
Nepal Biodiversity Strategy (2002)
National Biodiversity Strategy and Action Plan
Nepal Biodiversity Strategy Implementation Plan (2006)
National Biodiversity Unit
National Planning Commission
Nepali Rupees
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NTFP
PES
REDD
UNDP
UNEP
USAID
VDC
WCMC
Non-Timber Forest Product
Payment for Ecosystem Services
Reducing Emissions from Deforestation and Forest Degradation
United Nations Development Programme
United Nations Environment Programme
United States Agency for International Development
Village Development Committee
World Conservation Monitoring Centre
Nepal’s Fifth National Report to the CBD
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Table of Contents
Contents
Acronyms and Abbreviations
Table of Contents
List of Figures
EXECUTIVE SUMMARY
1 NEPAL’S BIODIVERSITY: STATUS, TRENDS, AND THREATS
1.1 The National Context
1.2 Importance of Biodiversity in Nepal
1.3 Overview of Status, Trends and Threatsto Biodiversity
1.3.1 General Overview of Ecosystems, Species and Genetic Diversity
1.3.2 Forest Biodiversity
1.3.3 Rangelands Biodiversity
1.3.4 Wetlands Biodiversity
1.3.5 Agro-biodiversity
1.3.6 Mountain Biodiversity
1.3.7 Underlying Causes of Biodiversity Loss
1.3.8 Climate Change: A Common Threat
1.4 Sources and Trends of Funding for Biodiversity Management in Key Sectors
2 OVERVIEW OF PAST EFFORTS, ACHIEVEMENTS AND LESSONS LEARNED
2.1 Implementation of Nepal Biodiversity Strategy (2002) and Nepal Biodiversity Strategy
Implementation Plan (2006): Key Achievements and Gaps
2.2 Other Key Efforts and Achievements
2.3 Lessons Learned
2.4 Development of National Biodiversity Strategy and Action Plan
2.4.1 The NBSAP Development Process
2.4.2 Salient Features of the NBSAP
3 PROGRESS TOWARDS THE 2020 AICHI BIODIVERSITY TARGETS AND
RELEVANT MILLENNIUM DEVELOPMENT GOALS
3.1 Background
3.2 Contribution of the Past Efforts
3.3 Key Targets and Milestones set by the National Biodiversity Strategy and Action Plan
Towards Meeting the Relevant Aichi Targets and MDGs
3.4 Summary of National Indicators
REFERENCES
ANNEXES
Annex 1.1: Nationally assessed status of wild mammals in Nepal
Annex 1.2:Threatened tree species found in the mountains of Nepal
Annex 3.1: Protected plant species in Nepal
Annex 3.2: Protected Animal Species of Nepal
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List of Figures
Figure
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
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1.10
1.11
1.12
1.13
2.1
2.2
2.3
2.4
3.1
3.2
Title
Physiographic Zones of Nepal
Nepal’s share (percent) of global diversity of selected group of species
Changes in number of threatened bird species in Nepal during 2004-2010
Habitat preferences of nationally threatened birds in Nepal
Protected Areas in Nepal
Percent coverage by different categories of protected areas in Nepal
Changes in status of community forestry in between 2008 and 2013
Changes in status of pro-poor leasehold forestry in between 2008 and 2013
Protected Forests in Nepal
Ramsar sites in Nepal
Trend and sources of funding for management of forest biodiversity
Trend of funding for management of agrobiodiversity
Trend in climate change related funding in Nepal
Landscapes under management in Nepal
Annual revenue generated from tourism in protected areas
Proportional representation of individuals in the consultations from different
type of agencies (left), and number of individuals consulted at different levels
Location of the regional and district level consultation workshops
Changes population of tiger in Nepal
Changes in population of rhino in Chitwan National Park
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EXECUTIVE SUMMARY
Nepal’s Biodiversity: Status, Trends, and Threats
Nepal is a landlocked country situated in central part of the Himalayas between India and China. It
has tremendous geographic diversity that ranges from tropical alluvial plains in the south to very
rugged and permanently snow and ice covered Himalayan Mountains. The country can be divided
into five major physiographic landscapes, namely High Himal, High Mountains, Middle Mountains,
Siwalik and Tarai that extend from east to west. The climate varies from alpine cold semi-desert
type in the trans-Himalayan zone to tropical humid type in the tropical lowlands in the south.
Forests together with shrublands covered 39.6 percent of the country’s land area in 1994. There are
regional variations in terms of changes in forest conditions. The commercially and biologically
valuable forests in the tropical lowlands and adjoining Siwalik Hills suffered from high rates of
deforestation and degradation over the last four decades. Forests in the Middle Mountains are, in
general, better managed and in many places forest cover increased in recent years due mainly to the
community forestry programme. Many marginal agriculture lands, particularly in the hills and
mountains, are being temporarily abandoned in recent years primarily because of labour scarcity
due to outmigration of youths seeking off-farm and foreign employment.This has increased scope
for introduction of perennial agriculture or forest crops in those lands.
Nepal is a multi-lingual, multi-religious, multi-ethnic and multicultural country inhabited by 125
castes and ethnic groups. Majority of the country’s26,620,809people live in rural mountain areas
with fragile physiography and low productivity thereby creating a very strong poverty-environmenthealth and vulnerability nexus.The last decade witnessed substantial decline in poverty,
improvement in income equality, increase inliteracy rate, and improvement in food security.
Remittance played a crucial role in these developments. Despite these positive signs, thecountry’s
overall economic growth has remained less than four percent since 2007. The prolonged political
transition and uncertainties is speculated to be one of the major reasons behind the sluggish
economic growth.
The country made some visible progress in infrastructure development during the last decade but
many of the development projects are implemented without any environmental safeguard, thereby
posing a direct threat to biodiversity. Rural roads constructed by the local governments and cascade
of hydropower dams and stations constructed on some rivers are some example of the development
efforts, which have caused considerable damage to the local biodiversity and environment.
Nepalese economy is very much dependent on the use of natural resources. Biodiversity is closely
linked to the livelihoods and economic well being of most of the people. It touches upon almost
every aspects of Nepalese life, including agricultural productivity, food security, building materials,
human health and nutrition, indigenous knowledge, gender equality, culture, climate, water
resources and aesthetic value to the society. The country’s biodiversity is also an important source
of revenue. Tourism is the second most important source of foreign exchange for Nepal, which is
directly related to biodiversity and nature.
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Nepal’sunique geography withdramatic changes in elevation along the relatively short (<300 km)
north south transect and associated high variability in the eco-climatic conditionshave resulted in a
disproportionately rich diversity of flora and fauna in Nepal. Moreover, the country’s standing at
the crossroads of two major biogeographic regions of the world (Indo-Malayan to the south and
Palearctic to the north) has made Nepal a mixing place of species originating in both the regions.
A total of 118 ecosystemshave been identified in Nepal. The natural ecosystems range from the tall
grasslands and marshlands and tropical and sub-tropical broadleaf forests along the Tarai and
Siwaliks foothills to subtropical and temperate broadleaf and conifer forests in the Middle
Mountains; mixed and conifer forests in the High Mountains; and alpine meadows above the
treeline.Among the rangeland ecosystems, the tropical savannas and alpine meadows are
exceptionally rich in biodiversity.Nepalese wetlands have very high ecological significance, as they
harbor many threatened and endemic species of flora and fauna and serve as resting places for many
migratory and globally threatened birds.The wetlands also have high cultural and economic
significance. Nepal also has a high degree of agro-ecological diversity. The diverse climatic and
topographic conditions have favored for maximum diversity of agricultural crops, their wild
relatives, and animal species.
Species diversity, particularly the beta diversity, is very high in Nepal. The country occupies about
0.1 percent of the global area but harbors 3.2 percent and 1.1 percent of the world’s known flora and
fauna, respectively.A total of342 plants and 160 species of wild plants and animals have been
reported as being endemic to the country. Of the 342 endemic plant species, 14 belong to treeand
bamboo groups. The richness of endemic species increases steadily from low to high elevations.
The high altitude rangelands are especially important from the perspective of endemism.
Over 550 crop species areidentified as having food value, and around half of those species are
believed to be currently under cultivation.The country’s horticulture diversity includesaround400
species and sub species of horticultural crops, including 45 species of seasonal fruits.An estimated 200
species of vegetables, including 11 different local varieties of potatoes, are grown in the country.
Many species of plants and animals are threatened. This includes 55 species of wild mammals and
18 species of trees found in the mountains. Birds are among the most threatened group of
fauna.Fourteenbird species have not been recorded in the country for at least ten years, and the
number of Threatened, Endangered, and Critically Endangered species significantly increased in
between 2004 and 2010. Birds that rely on wetlands and inhabit the tropical and subtropical and
lower temperate zones are particularly at risk. Given that over half (56%) of Nepal’s nationally
threatened bird species inhabit lowland forestswhere forest loss and degradation is high, this is a
worrying trend. Among the known species of domestic animals, pure siri cattle has become extinct,
achhamicattle and lampuchhre sheep are near endangered, and bampudke pig is critically
endangered. Very limited information exists on genetic diversity.
Nine species of plants, 55 mammals, 149 birds, and 64 herpetofauna are included in the IUCN Red
List. Similarly, 154 species of plants, 52 mammals, 108 birds and 19 reptiles and three insects have
been listed in the CITES Appendices. Several species of plants and animals, including 27 mammals,
Nepal’s Fifth National Report to the CBD
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nine birds, 14 angiosperms, and four gymnosperms have been declared as protected species by the
government.
Nepal’s biodiversity is threatened by multiple factors.Loss and degradation of natural habitats,such
as forests, grasslands, and wetlands due to expansion of settlements, agriculture and infrastructure;
overexploitation; invasion by alien species; and pollution of water bodies remain thepredominant
threats to natural systems.Poaching and illegal wildlife trade and human-wildlife conflict are other
major direct threats to forest biodiversity, particularly in protected areas. Rapid expansion of hybrid
varieties and indiscriminate use of insecticides and pesticides are the major threats to agrobiodiversity. Widespread mining of gravel from streams and rivers bedshas been emerged as a
major threat in the lowlands. Natural disasters, such as landslides, glacial lake outburst floods and
droughtpose considerable threat to mountain ecosystems and the people living in those areas.
Climate changecan haveprofound impacts in future, particularly in the mountains. Most of threats
continue to increase.
Demographic changes; poverty; weak enforcement of the law and overall poor governance;
ignorance to biodiversity values in government and corporate accounting systems; unclear resource
tenure and administrative jurisdictions; inadequate awareness and motivation to conserve
biodiversity;gender, caste and ethnicity based inequality; and lack of an integrated approach to
development planning at the national and district levels are the major underlying causes of
biodiversity loss.
Overview of Past Efforts, Achievements and Lessons Learned
The Government of Nepal, Ministry of Forest and Soil Conservation (CBD Focal Agency)
developed the first national biodiversity strategy and its implementation plan in 2002 and 2006,
respectively. A subjective assessment of the progress made in implementation of the strategy and
implementation plan based on the review and analysis of relevant literature and secondary data,
consultations, and expert opinions indicated that the 2002 strategy was partially successful in
achieving its goal of providing a strategic planning framework for managing biodiversity in the
country.
Implementation of landscape management programmes, substantial expansion of protected area,
development and implementation of species conservation plans and curbing of poaching had
positive effects on in situ conservation of threatened wild fauna, including tiger and rhino. The last
decade also witnessed significant increase in the forest area managed by local communities, and
participation of local people, including women and disadvantaged group, in forest and protected
area management. Separate rangeland and wetland polices were formulated in 2012, and integrated
management plans were developed and implemented in two Ramsar wetlands. Similarly, the three
agrobiodiversity conservation strategies recommended by the 2002 strategy were successfully
implemented.
Successful implementation of a community based agrobiodiversity
managementprogrammejointly by the Nepal Agricultural Research Council, Department of
Agriculture, LI-BIRD and local farmers, and establishment of a national gene bank in 2010
weresome of the notable achievements made in conservation of agrobiodiversity in recent years.
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Some of the important strategies recommended by the 2002 strategy, which could not be
implemented include: (i) establishment of a Nepal Trust Fund for Biodiversity, (ii) strengthening of
National Biodiversity Unit at the Ministry of Forest and Soil Conservation, and (iii) assignment of
National Biodiversity Coordinator. The strategy relating to endorsement of indigenous knowledge
and innovations could not be implemented due to lack of necessary legislation. Among the 13
priority projects planned, three were not implemented due mainly to the contention among the key
actors and lack of funding.
There have also been a number of other efforts and achievements in conservation of biodiversity
during the past decade, which have no direct linkage to the Nepal Biodiversity Strategy (2002) and
Nepal Biodiversity Strategy Implementation Plan (2006). Development and implementation of
enabling plans, policies and legislations; establishment of high level committees (e.g. National
Tiger Committee) and related institutional mechanisms; and enhanced cooperation with China and
India to control cross-border illegal trade of wildlife parts are some examples. Some other efforts
and achievements include: (i) declaration of eight forests with high conservation significance as
protected forests, (ii) implementation of the Rastrapati (i.e. President) Chure Conservation
Programme in 26 districts, (iii) implementation of tree improvement programme, (iv) assessment
and mapping of forest resources, and (v) implementation of tissue culture programmes by some
government agencies and private companies.
Some concrete efforts were made in mitigating the effects of climate change on biodiversity. A
Climate Change Council headed by the Prime Minister has been formed in 2009 and Climate
Change Policy has been formulated in 2011. The Ministry of Forest and soil Conservation has been
promoting REDD+ as a mechanism to control forest loss and degradation since 2008. The Nepal
Agricultural Research Council is engaged in developing drought-tolerant varieties of crops. UNDP
and IUCN have been supporting implementation of an ecosystems based adaptation project in one
of the biodiversity hubs and protected forest in western Nepal. WWF Nepal, together with other
three agencies, has started implementation of a USAID-funded multi-million dollar landscape
management programme with the objective of mitigating the impacts of climate change on
biodiversity and local livelihoods.
The following are some of the key lessons learned from management of biodiversity in the last
decade: (i) meaningful participation of local communities in the management of natural resources is
a key to ensuring success and sustainability of programme interventions., (ii) landscape
approachcould be an appropriate strategy for addressing multiple drivers of biodiversity loss,
enhancing ecologicalprocesses and conserving threatened species, (iii)
multi-stakeholder
cooperation and collaboration is crucial to achieve success in biodiversity conservation, (iv)
cooperation among law enforcement agencies is necessary for curbing illegal trade of wildlife
species, (v) international cooperation can be helpful to curb transboundary trade of wildlife parts
and strengthening ecological security in trans-boundary regions, (vi) there is a very good scope for
further promotion of nature based tourism to generate necessary fund for conservation, and to
provide economic opportunities for local communities, (vii) enabling policy is necessary to achieve
the intended outcome and appropriate legislation is necessary in order to translate the policy
pronouncements into practice, (viii) positive incentive measures, which promote conservationfriendly behaviors, are necessary to encourage local people in biodiversity conservation, and (ix)
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prior consultation and discussion with local communities is necessary before making any important
decision that affects the local communities’ use of the local resources.
Development of National Biodiversity Strategy and Action Plan
The government is currently in the process of revising the 2002 biodiversity strategy and
developing aNational Biodiversity Strategy and Action Plan (NBSAP), with financial supports ofthe
Global Environment Facility, and technical support of the Kathmandu Forestry College. The overall
objective of the NBSAP is to provide a strategic planning framework for management of Nepal’s
biodiversity. There is a broad-based participation of national level, regional level, district level, and
community level stakeholders in its development.
Progress towards Meeting the 2020 Aichi Biodiversity Targets and Relevant Millennium
Development Goals
In Nepal, systematic efforts to meet the Aichi Targets have just begun with the development of the
National Biodiversity Strategy and Action Plan. The country has, however, already made substantial
progress in conservation and sustainable use of biodiversity, which will contribute to meet most of
the relevant Aichi Targets and the Millennium Development Goalof ensuring environmental
sustainability. Some of the past efforts and achievements are highlighted in the preceding sections,
and a more elaborate description of contribution of the past efforts towards meeting eachof the 20
Aichi Biodiversity Targets is presented in first part of Chapter 3 in this report.
The second part of Chapter 3 summarizes the key targets and milestones set by the National
Biodiversity Strategy and Action Plan towards meeting the relevant Aichi Targets and Millennium
Development Goals, and the last part presents a summary of national indicators to be used for
assessing the progress in implementation of the NBSAP strategies, targets and milestones.
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1. NEPAL’S BIODIVERSITY: STATUS, TRENDS AND THREATS
1.1 The National Context
Nepal is a landlocked country situated in central part of the Himalayas between 26022’ and 30027’
N latitudes and 80040’ and 88012’ E longitudes, covering an area 147,181 sq. km.Ithas tremendous
geographic diversity. The elevation ranges from around 70 meter above sea level in the eastern
alluvial plainsto 8,848 meter at the Mount Everest. The country can be divided into five major
physiographic zones that extend from east to west, namely the High Himal, High Mountains,
Middle Mountains (or Middle Hills), Siwaliks (or Chure), and Tarai (Figure 1.1).
Figure 1.1: Physiographic Zones of Nepal
Many different types of climates are found in Nepal, ranging from alpine cold semi-desert typein
the trans-Himalayan areas to tropical humid type in the Tarai. The climate is predominantly
influenced by three major factors, namely the altitudinal variations, monsoon, and westerly
disturbances. Aspect also plays an important role in determining local climatic condition. The
country receives average annual rainfall of around 1,600 mm. The annual precipitation ranges from
165 millimetersin the rain shadow areas north of the Himalaya to 5,500 millimeters in the Pokhara
valley in western Nepal.Most of the precipitation occurs during June-September, in the form of
monsoon rains.The country is drained by four major Himalayan river systems, a few medium-sized
perennial rivers thatrise in the High Mountains region, and a number of seasonal streams that
mostly originate in the Siwalik Hills.
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Twenty-nine percent of Nepal was covered by forest and additional 10.6 percent was under
shrublands in 1994. Agriculture and grasslands covered 21 percent and 12 percent, respectively.
In between 1979 and 1994, the country’s forest area decreased by an annual rate of 1.6 percent and
the area under shrubs increased by the annual rate of 8.4 percent(LRMP, 1986; DFRS/FRISP,
1999).
There are regional variations in terms of changes in forest conditions. Most of the forests in the
Siwaliks and Tarai suffer from loss and degradation due to lack of scientific management and weak
law enforcement. In recent years, the government has started scientific management of some
production forests in the Tarai under a collaborative arrangement, which might have helped to slow
down the deforestation and forest degradation, to some extent. Other community based forest
management programmes, including the community forestry, leasehold forestry, and buffer zone
community forestry might also have helped to abate the deforestation and forest degradation.
Forests in the Middle Mountains are, in general, better managed and in many places forest cover
increased in recent years due mainly to the community forestry programme (see e.g. Gautam, 2009;
Niraula et al., 2013).
The Forest Resource Assessment Project under the Forest Research and Survey Department is
currently conducting a comprehensive survey of forest resources for the whole country using high
resolution satellite data supplemented by ground sample surveys. The work, which is expected to be
completed within the next two years, will provide a clearer picture of current status of the country’s
forest resources.
Nepal was inhabited by a total of 26,620,809 people in 2011. The population grew with an average
annual rate of 1.35 percent during the last decade. The distribution of population across the country
varies widely. Socio-culturally, Nepal is a multi-lingual, multi-religious, multi-ethnic and
multicultural country inhabited by 125 castes and ethnic groups(CBS, 2012). The last decade
witnessed a substantial decline in poverty, and an improvement in income equality in Nepal.
The average literacy rate increased from 54.1 percent in 2001 to 65.9 percent in 2011 (CBS, 2011).
Despite these progresses, the rate of country’s economic growth has remained slow (<4% after
2007), and theHuman Development Index (0.463) and Gender Inequality Index (0.485) were below
the south Asian average in 2012 (UNDP, 2013). The prolonged political transition and uncertainties
is believed to have direct bearings on the country’s sluggish economic growth.
Nepal is basically an agricultural country. The country’s economy is very much dependent on the
use of natural resources, including agricultural lands, forests, wetlands, and rangelands.
Agriculture (including fishery) and forestry remain the country’s principal economic activity,
employing 80 percent of the population and providing 35 percent of the GDP. At the national level,
28 percent of all household income comes from agriculture and forestry, 37 percent from nonfarm
enterprises, 17 percent from remittances, and 16 percent from own household consumptions(CBS,
2011).
Non-Timber Forest Products (NTFPs) pay a critical role for meeting the food and healthcare
requirements of millions or rural people, particularly in the mountains.Many NTFPs, however, are
facing over and unsustainable exploitation.The high demand for agricultural land and high
dependency on forests for meeting subsistence needs have caused substantial degradation of forests
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in many areas. The fact that around 78percent of total energy consumption is supplied by the forest
resources provides an evidence of high forest dependency.
Labour scarcity due to outmigration of youths seeking off-farm and foreign employment and other
factors have caused increased abandonment of marginal agriculture lands in recent years. While in
one hand this trend might have temporarily decreased the country’s agricultural production, on the
other it has increased the scope for expansion of private forestry and introduction of perennial cash
crops and NTFPs in those private lands.
Nepal had a total of 10,835 km road network in 2010 of which 4,952 km was black-topped. About
25,000 km of additional rural road tracks had been opened by 2010 (DOR, 2010).Most of the rural
roads have been constructed without any environmental safeguard, and pose a direct threat to
biodiversity, particularly in the Middle Mountains. Most of the 638 megawatt electricity that Nepal
has developed so far is hydropower (NEA, 2011). While in one hand, increased establishment of
hydropower plants is a right step towards meeting the energy deficits, on the other hand cascade of
hydropower dams and stations on some rivers is speculated to have causedsevere negative impacts
on the aquatic biodiversity.
1.2 Importance of Biodiversity in Nepal
Biodiversity is closely linked to the livelihoods and economic well being of most of the Nepalese
people. It touches upon almost every aspects of Nepalese life, including agricultural productivity,
food security, building materials, human health and nutrition, indigenous knowledge, gender
equality, culture, climate, water resources and aesthetic value to the society.
Agrobiodiversity is the backbone for the sustainable development of agriculture, food security and
poverty alleviation as it provides for both the immediate needs and the long-term sustenance of the
country’s farming communities. Diversity of crops and animals is particularly vital to the country’s
marginalized mountain communities for maintaining their food security.
Millions of rural people directly depend on forest biodiversity for meeting their daily subsistence
livelihoods requirements. According to an estimate, at least 1,463 species of herbal medicinal plants
are used by the rural people in Nepal (MFSC, 2006a). The collection and trade of several valuable
herbs, such aschirayito (Swertia chirata), jatamansi (Nardostachysgrandiflora), yarchagumba
(Cordyceps sinensis) has generated considerable employment opportunities and income of the local
people in remote areas.
Nepalese wetlands have very high ecological, cultural and economic significance. The rich diversity
of plants and animals that exists in wetlands provides a wide range of goods and services as well as
income-generating opportunities for the local people,including many ethnic groups (ICIMOD,
2004). Despite being highly important, wetland ecosystems have been subjected to growing
degradation. This has direct negative impact on biodiversity and livelihoods of over 20 ethnic and
caste groups that are traditionally dependent on wetlands (IUCN, 2004; World Bank, 2008).
Mountain biodiversity is of high importance for a number of ecological functions, including soil
retention and slope stability. Those functions are often closely connected with the extent of
aboveground and below-ground vegetation. The high functional diversity of plantsin mountain
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ecosystems might have added to the resiliency of those ecosystems that often provides effective
barriers to high-energy events such as rockfalls and avalanches.
The country’s biodiversity is also an important source of revenue. Tourism is the second most
important source of foreign exchange for Nepal, which is directly related to biodiversity and nature.
The revenue from protected area based tourism has been continuously increasing since 2003
(DNPWC, 2012).
The tourism industry has provided incentives to conserve biodiversity through foreign exchange to
the government, necessary fund to conservation agencies (e.g. NTNC), and economic opportunities
for local communities. There is a need for replacing the current nature or adventure tourism by ecotourism that conserves the environment and sustains the well being of local people.
1.3 Overview of Status, Trends and Threats to Biodiversity
The dramatic changes in elevation along the relatively short (150-250 km) north-south transect and
associated variability in the eco-climatic conditionshave resulted in a disproportionately rich
diversity of flora and fauna in Nepal.Besides these local factors, the country’s standing at the
crossroads of two major biogeographic regions of the world (Indo-Malayan to the south and
Palearctic to the north) has made Nepal a mixing place of species originating in both the regions
(Stainton, 1972).
1.3.1 General Overview of Ecosystems, Species and Genetic Diversity
The natural ecosystems in Nepal range from the tall grasslands, marshlands and tropical and subtropical broadleaf forests along the Tarai and Siwaliks foothills to subtropical and temperate
broadleaf and conifer forests in the Middle Mountains; mixed and conifer forests in the High
Mountains; and alpine meadows above the treeline. All these ecosystems are found withinless than
300 Kilometers south-north span and resulted primarily by the abrupt change in the elevation.
A total of 118 ecosystems, including 112 “forest”, four “cultivated”, one “water bodies” and one
“glacier/snow/rock”, have been identified in the country. Among the five physiographic zones, the
Middle Mountains has the highest number (i.e. 53) of ecosystems. The High Himal and High
Mountains combined have 38 ecosystems. The Tarai and Siwaliks have 14 and 12 ecosystems,
respectively. The “water bodies” occurs in all the zones, except the Siwaliks (Biodiversity Profiles
Project, 1995; Table 1.1). The “forest” ecosystem in this categorization includes all the natural
terrestrial ecosystems, including the shrublands, rangelands and alpine meadows.
Table 1.1: Distributions of Ecosystems by Physiographic Zone
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Physiographic Zone
Ecosystems
Number %
38
32.2
High Himal and High
Mountains
Middle Mountains
53
44.9
Siwalik
14
11.9
Tarai
12
10.2
Other
1
0.8
Total
118
100
Source: Biodiversity Profile Project (1995)
Types
37 ‘forest’, and one ‘glacier/snow/rock’
52 ‘forest’, and one ‘cultivated’ (Pokhara)
13 ‘forest’, and one ‘cultivated’ (Dun)
10 ‘forest’, and two ‘cultivated’
‘Water bodies’, found in all zones, except the Siwalik
Species diversity, particularly the beta diversity, is very high in Nepal. The country occupies about
0.1 percent of the global area but harbors 3.2 percent and 1.1 percent of the world’s known flora and
fauna, respectively. Diversity of birds, bryophytes, mammals, and butterflies is especially high
(Kunwar et al., 2010; BCN and DNPWC, 2011; Jnyawali et al., 2011; Figure 1.2).
Figure 1.2: Nepal’s share (percent) of global diversity of selected group of species
9.5
Birds
Mammals
Mammals Mammals Mammals
5.2
8.2
2.5
3.2
Angiosperms
Amphibians
Bryophytes
3.7
Butterflies
1.9
Fishes
Nepal
Status of Nepal’s genetic diversity is not well known. The Tree Improvement and Silviculture Unit
under the Department of Forests, has been working to conserve the genetic resources of 38 socially
and economically important tree species (TISU, 2013).Many wetlands are found to be important
sources of genetic material for wild relative of rice varieties found in the Tarai, which are useful for
improvement of commercial varieties (Bhandari, 1998).
Among the agriculture species, crops such as rice (Oryza sativa), rice bean (Vigna unbellata), egg
plant (Solanum melongena), buck wheat (Fagopyrum esculentum,F. tatricum), soybean (Glycine
max), foxtail millet (Setaria italic), citrus (Citrus aurantium, C. limon, C. medica) and mango
(Magnifera indica) have high genetic diversity. Similarly the genetic diversity in under-utilized or
minor crops, such as calocacia, yam, buckwheat, horse gram, sweet potato, amaranthus, proso
millet, foxtail millet, and tropical fruit species such as litchi, jack fruit, jujube, and black plum is
Nepal’s Fifth National Report to the CBD
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very high. Traditional farming systems and wild relatives found in proximity have helped maintain
the genetic variability in these species (Regmi, 1995; Jhaet al., 1996).
1.3.2 Forest Biodiversity
The country’s forest ecosystemscan be categorized into ten major groups: (i) tropical, (ii)
subtropical broad-leaved, (iii) subtropical conifer, (iv) lower temperate broad-leaved, (v) lower
temperate mixed broad-leaved, (vi) upper temperate broadleaved, (vii) upper temperate mixed
broadleaved, (viii) temperate coniferous, (ix) subalpine, and (x) alpine scrub. These ecosystems are
of international importance both in view of the number of globally threatened wildlife and floral
elements as well as the diversity of ecosystems represented within these areas (ICIMOD and
MOEST, 2007).
Many species of plants and animals are threatened. For example, among the 208 known species of
wild mammals, one is considered “regionally extinct”, eight “critically endangered”, 25
“endangered”, 14 “vulnerable” and seven “near threatened” (Annex 1.1; Jnyawali et al., 2011).
Similarly, 18 species of trees found in the mountains are reportedly threatened (Annex 1.2; Shrestha
and Joshi, 1996; Press et al., 2000). Many of the threatened species of flora and fauna are wetland
dependent.
Birds are among the most threatened group of fauna in Nepal. A total of 14 bird species have not
been recorded in the country for at least ten years, and the number of Threatened, Endangered, and
Critically Endangered species significantly increased in between 2004 and 2010 (Figure 1.3).
Figure 1.3: Changes in number of threatened bird species in Nepal during 2004-2010
2004
2010
Birds that rely on wetlands and inhabit the tropical and subtropical and lower temperate zones are
particularly at risk. Over half (i.e. 56%) of Nepal’s nationally threatened birds inhabit forests; over a
quarter in wetlands, and smaller numbers in grasslands. Most of these species occur in the
lowlands(75–1,000 m) (BCN and DNPWC, 2011; Figure 1.4).
Nepal’s Fifth National Report to the CBD
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Figure 1.4: Habitat preferences of nationally threatened birds in Nepal
A number of species, including nine plants, 55 mammals, 149 birds, and 64 herpetofauna are
included in the IUCN Red List (Table 1.2). Similarly, 154 plants, 52 mammals, 101 birds and 19
reptiles and three insects have been listed in the CITES Appendices (Table 1.3).
Table 1.2:Number of selected group of speciesin the IUCN Red List
Category
Plants Mammals* Birds** Herpetofauna
Critically Endangered N/A
8
61
1
Endangered
2
26
38
3
Vulnerable
5
14
50
7
Near Threatened
2
7
N/A
4
Total
9
55
149
64
Source: ICIMOD and MOEST (2007); *Jnyawali et al. (2011); **BCN and DNPWC (2011)
Table 1.3: Number of Selected Group of Species in the CITES Appendices
CITES
Appendices
Plants
Mammals
Appendix I
32
2
Appendix II
16
148
Appendix III
4
4
52
Total
154
Source: UNEP-WCMC (2013)
Birds
12
95
1
108
Animals
Reptiles
2
15
2
19
Insects
0
3
0
3
Total
46
129
7
182
Protected area has remained the dominant approach to conservation of biodiversity in Nepal.
Currently, protected areas cover a totalof 34,185.62 sq. km.or 23.23 percent of the country’s total
area. These include 10 national parks, three wildlife reserves, one hunting reserve, six conservation
Nepal’s Fifth National Report to the CBD
Page17
areas, and 5602.67 sq. km. buffer zone areas established around nine national parks (Figure 1.5;
Figure 1.6). Four of the protected areas, including one national park (Banke) and three conservation
areas (Gaurishankar, Khairapur, and Api Nampa) covering a total area of 4,632 sq. km. were
established just in 2010. A buffer zone (in Banke NP) covering 343 sq. km. was also declared in the
same year.
Figure 1.5: Protected Areas in Nepal
The protected areas in Nepal are managed under fourtypes of management modalities. The national
parks, wildlife reserves and the hunting reserve are exclusively managed by the Department of
National Parks and Wildlife Conservation (DNPWC). The protection responsibility of these areas is
given to the Nepal Army.The main focus of the national parks and wildlife reserves is conservation
of flagship wild fauna, such as the tiger, rhinoceros, Asian elephant, snow leopard and red panda.
Among the six conservation areas, two (i.e. Api Nampa and Khairapur) are directly managed by the
DNPWC. The Annapurna, Manaslu and Gaurishankar conservation areas are managed by the
National Trust for Nature Conservation under a multiple use policy.Kanchenjungha Conservation
Area is being managed by a local management council since 2006, with supports from the DNPWC
and WWF Nepal.The buffer zones are managed by local buffer zone councils in which the warden
serves as the member secretary.
Nepal’s Fifth National Report to the CBD
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Figure 1.6: Percent coverage by different categories of protected areas in Nepal
The protected area biodiversity in Nepal is threatened mainly by: (i) illegal hunting and trade of
important wildlife species, (ii) human-wildlife conflict, (iii) weak law enforcement, (iv) invasion by
alien species, and (v) intrusion of tree species into grasslands. Illegal encroachment of forest area
for cultivation and settlement is a threat in some areas (e.g. Khairapur Conservation Area).
The threat of illegal hunting isparticularly severe for some vertebrates, driven, in particular,by
demand for wildlife products from China.Rhino (Rhinocerus unicornis), tiger (Panthera tigris),
musk deer (Moschus moschiferus), pangolin (Manis spp.), and some bird species are especially at
risk from poaching.Weak enforcementof theLaw has resulted due toinadequate staff, funding and
essential field logistics for day-to-day operations.
Human-wildlife conflict relates to crop raids and livestock depredation by wild animals, which is
common in all protected areas and poses a major threat particularly to large predators (e.g. snow
leopard).The government is trying to resolve the problem through a system of awareness and cash
compensation but the efforts have not yet proved to be effective. Finding an amicable solution to
this problem remains a major challenge.
Invasion and rapid expansion of alien plant species, such as Mikania micrantha, Eupatorium
adenophorum, E. odoratum, and Lantana camarahas been emerged as a major threat to protected
areas located in the Tarai, Siwaliks and Middle Mountain zones in recent years.
Beside the threats mentioned in the preceding paragraphs, there are some gaps, issues and
challenges in the management of biodiversity through protected area approach. Some of these
include: (i) poor representation of the Middle Mountain ecosystems in country’s protected area
system, (ii) gaps in conservation of a large number of threatened plants and some animal species,
and (iii) conflicts with FECOFUN and some local forest user groups.
National forests outside protected area are under five main types of management arrangements:
(i) community, (ii) collaborative, (iii) leasehold, (iv) protected, and (v) government-managed. The
last two categories of forests are under direct management by the government through district forest
Nepal’s Fifth National Report to the CBD
Page19
offices, and there is different level of involvement of local communities in the rest. Leasehold
forestry can be further categorized into the pro-poor leasehold forestry and forests leased to private
firms and corporate houses for specific purposes. Some forest patches throughout the country are
under the care or management of local religious institutions.
The last decade witnessed a substantial expansion of the community forestry. By June 2013, 18,133
community forest user groups (CFUGs) involving 2.24 million households were managing 1.7
million hectares (m. ha.) of forestland (27% of the total national forest) under the community
forestry programme. Of that, around 0.47 m. ha. forest was handed over to 3,702 CFUGs involving
0.577 million households in between 2008 and 2013 (Figure 1.7; DOF, 2013a).
A total of 42,773 ha. degraded forest in 52 districts across Nepal is being managed by local people
living below the poverty line, under the pro-poor leasehold forestry programme. By July 2013, a
total 7,413 leasehold forest groups involving 74,950 households were engaged in the programme.
Of this, 5,758 leasehold forest groups involving 45,058 households was added in between 2008 and
2013 (Figure 1.8).
500000
2013
0
Household Community
Number
Forest Area (ha.)
Household
Number
42773
17320
2008
80000
70000
60000
50000
40000
30000
20000
10000
0
74950
1700048
1000000
Figure 1.8: Changes in status of pro-poor
leasehold forestry in between 2008 and 2013
29892
1500000
1230000
2000000
2237195
2500000
1660000
Figure 1.7: Changes in status of community
forestry in between 2008 and 2013
2008
2013
Leasehold
Forest Area (ha)
Nineteen forests covering a total area of 54,072 ha. in nine Tarai districts are being managed under
a collaborative arrangement involving the local people, local governments and Department of
Forests. The process, which started in 2004, is being slowly expanded. Scientific forest management
has been initiated in some of the sites (e.g. Tilaurakot in Kapilvastu district). Eight other Tarai
forests, covering a total area of 26,608 ha., are planned to be added in the list of collaborative
forests in 2013. Biodiversity conservation is one of the objectives of collaborative forest
management, alongside sustainable production and income generation.
Since 2002, the government has taken initiative to manage some natural forests with high
biodiversity value as protected forests. So far, eight forests covering a total area of 133,754.8
ha.(2.12% of the total national forest) have been declared as protected forests (Figure 1.9; Table
1.4). Seven of them were established in between 2010 and 2012 (DOF, 2013b). Eight other forests,
covering a total area of 223,107 ha. are in the process of being declared as protected forests in near
future.
Nepal’s Fifth National Report to the CBD
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Figure 1.9: Protected Forests in Nepal
Table 1.4: Protected Forests in Nepal
Forest
Kankre Bihar
Madhane
Barandabhar
Year
Established
2002
2010
2011
Size
(ha)
175.5
13,761
10,466
Panchase
2011
5,775.7
LaljhadiMohana
Basanta
Khata
Dhanushadham
2011
2011
2011
2012
Location
Conservation Significance
Surkhet
Gulmi
Chitwan
Historical; archeological and biodiversity
Biodiversity; eco-tourism
Corridor; wetland; habitat for several
endangered animal and bird species.
Biodiversity; eco-tourism; religious
Kaski, Parbat,
Syangja
29,641.7 Kailai,
Kanchanpur
69,001.2 Kailai
4503.7
Bardia
430
Dhanusha
Biological corridor; wetland
Wildlife habitat and corridor
Wildlife habitat and corridor
Historical; religious; biodiversity
Forest biodiversity outside protected area is threatened mainly by forest loss and degradation, and
overexploitation and illegal exploitation of forest products. Loss and degradation of forests have
been occurring due mainly to conversion to agriculture, encroachment for illegal settlements,
development of infrastructure (such as roads, electric transmission lines) inside forestland,
excessive extraction of materials for construction such as sand and gravel, overgrazing,
uncontrolled forest fires, and invasion by alien plant species. Overexploitation and illegal
Nepal’s Fifth National Report to the CBD
Page21
exploitation of biological resources, includingextraction of wood and non-wood forest products and
poaching of wildlife are other major threats. Weak enforcementof theLaw due toinadequate staff,
funding and essential logistics for day-to-day operations by district forestry staff is a major threat,
particularly in the Tarai and Siwalik areas. Excessive political influence has also contributed to
weak enforcement of the law. Human-wildlife conflict and climate change have been emerged as
major threats in many areas, although the effect of climate change on different forest ecosystems
and species is not well known.
Besides the above threats, lack of scientific forest management; inadequate technical capacities of
the district forest offices and user groups; inadequate attention to management of biodiversity in
community forests; wide variations in the success of community forestry programme across the
country; poor linkage of community forestry with livelihoods and poverty alleviation; passive
approach to the management of community forests; poor relationships among stakeholders;and
limited participation of women and other disadvantaged social groups are some of the key gaps and
issues in forest management. Controlling forest encroachment and illegal logging have particularly
been the major challenges to the government.
1.3.3Rangeland Biodiversity
Rangeland ecosystems in Nepal are comprised of grasslands, pastures, shrublands and
wetlands,which are distributed all over the country, coveringabout 1.7 million hectares or nearly 12
percent of country’s land area. The rangelands can be broadly grouped into five categories: (i)
tropical savannas, (ii)sub-tropical rangelands, (iii) temperate rangelands, (iv) subalpine
rangelands, and (v) alpine meadows.
Among the different types of rangelands found in the country, the tropical savannas and the alpine
meadows are especially important from biodiversity conservation point of view. The tropical
savannas, which comprise of a mosaic of tall grasslands dominated by Saccharum spontaneum and
Imperata cylindricaintermixed with broadleaf forests of species such as Eugenia jambolana,
Bombaxceiba, Trewianudiflora, andMallotus philippensis, are excellent habitat for some of the
endangered wildlife species such as rhino (Rhinoceros unicornis), Bengal tiger (Panthera tigris
tigris), and gharial crocodile (Gavialis gangeticus). Many of these grasslands are also home to
several species of globally threatened grassland birds (Baral and Inskipp 2009).
The alpine meadowsthat cover a broad area, especially in the eastern half of the country, are
exceptionally rich in floral diversity, including numerous species of colorful flowers of alpine
herbs.These grasslands are also home to endangered snow leopard, Himalayan goral (Naemorhedus
baileyi), serow (Capricornis sumatraensis) and Himalayan tahr (Hemitragus jemlahicus) and are
very rich in faunal diversity(Mittermeier et al., 2004).There is hardly any information available on
the trends of changes in rangeland biodiversity.
Threats to rangelands biodiversity differ with the location and type of rangelands. Overgrazing and
tramplingby large herds of livestock (especially yak) is the main threat in high altitude pastures. The
lowland grasslands and savannas are threatened by conversion to agriculture and other use. The loss
and fragmentation has greatly affected grassland-dependent wildlife and bird species. Intrusion of
riverine tree specieshas caused decline in quality and extent of some of these grassland habitats,
Nepal’s Fifth National Report to the CBD
Page22
including in the Chitwan National Park.Invasion by alien plant speciesis a threat to many Tarai,
Siwaliks and Middle Mountain grasslands. Firesare other major threats, especially to grassland birds
and reptiles as they destroy the nests and eggs. Inappropriate management of protected area
grasslands, including untimely and intensive annual cutting, has posed a serious threat to country’s
specialist grassland birds,many of which are now almost entirely confined to protected areas (BCN
and DNPWC, 2011).
1.3.4Wetland Biodiversity
The wetland ecosystems of Nepal fall into two broad categories: (i) natural wetlands, comprising of
lakes and ponds, riverine floodplains, swamps and marshes, and (ii) man-made wetlands, including
water reservoirs, ponds and deep-water agricultural lands.Nine of the country’s wetlands are listed
as Ramsar sites (Figure 1.10). Of these, six are located within protected areas or their buffer zones.
Figure 1.10: Ramsar sites in Nepal
Nepalese wetlands have very high ecological significance, as they harbor many threatened and
endemic species of flora and fauna and serve as resting places for many migratory and globally
threatened birds.The country’s wetlands sustain an estimated 230species of indigenous fish,
including 16 species that are endemic to Nepal(Rajbanshi, 2013). The wetlands also harbor an
estimated 118species of amphibians (ICIMOD and MOEST, 2007).
Nepal’s Fifth National Report to the CBD
Page23
Mai Pokhari located at 2,100 m elevation in eastern Nepal was enlisted as a Ramsar site in 2008
Photo © Ambika P. Gautam
Nepal’s wetlands also play a significant role in conservation of floral diversity. Twenty-five percent
of Nepal’s vascular plants, including 26 endemic species of flowering plants are believed to be
wholly or significantly dependent on wetlands. Four of the 17 plants that are legally protected by
the Government of Nepal are dependent on wetlands. The wetlands also hold several species of wild
cultivars and relatives of cultivated crops, including five species of rice, namely Oryza nivara, O.
granulata, O. officinalis, O. sativa f. spontanea and O. rufipogon (CSUWN, 2010). The wetlands
also have high cultural and economic significance. Many ethnic groups are dependent on wetlands
for their livelihoods.
Wetland biodiversity is threatened by: (i) drainage and encroachment for agriculture, settlement and
infrastructure development, (ii) diversion and abstraction of water for farmland irrigation, (iii)
unsustainable exploitation of wetland resources, including overfishing and destructive fishing,and
overgrazing of marshes (iv) widespread mining of gravel from streams and rivers beds, (v) water
pollution from households and industrial discharges and agricultural run-off, (vi) invasion of alien
speciesinto wetland ecosystems, (vii) illegal hunting and trapping of birds and other wildlife, and
(viii) siltation.
High dams that have been built on many rivers have posed serious threats to many species of fish
and other aquatic species; the scale of this threat is expected to further increase in future.
Uncontrolled use of pesticides and chemical fertilizers is a significant threat to many species of
birds and aquatic life. The eutrophication of wetlands due to over-use of fertilizers can cause more
severe damage to freshwater biodiversity in future.
Nepal’s Fifth National Report to the CBD
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Invasion of Eichhornia crassipesis a major threat to tropical and sub-tropical wetlands in eastern,
central and western Nepal. Many internationally important wetlands, including the Beeshazari Lake
in the Barandabhar corridor forest in Chitwan and Phewa Lake in Pokhara, are already severely
invaded by Eichhornia. Invasive species such as Ipomoea carnea and Mikania micrantha are also
becoming more and more abundant in areas near wetlands, thereby affecting habitats of water birds
and other wetland dependent fauna.
Twelve alien fish species have been introduced in Nepalese wetlands for aquaculture development.
This has been emerged as a threat to native species. Some of the introduced exotic species (such as
Oreochromis mosambicusor Nile Tilapia)can be invasive. Although the extent of introduction of
exotic species and their impacts on native diversity is not assessed for Nepal, limited studies
conducted at specific locations show the coverage of exotic species is being rapidly expanded and
they can have significant negative effects on local biodiversity in future (CSUWN, 2011).
Over-fishing and fish-poisoning have significantly reduced the food supply of fish-eating
birds.Cumulative effect of the reduced food, habitat degradation and illegal hunting and trapping
has caused continuous decline in populations of some wetland bird species such as brahminy kite
(Haliastur indus), caspian tern (Sterna caspia), black-bellied tern (S. acuticauda) and river tern (S.
aurantia). Some other species, including lesser fish eagle (Ichthyaetus humilis) and tawny fish owl
(Ketupa flavipes) have been included in the nationally threatened list (BCN and DNPWC, 2011).
1.3.5 Agrobiodiversity
Nepal has a high degree of agro-ecological diversity. The diverse climatic and topographic
conditions have favored for maximum diversity of agricultural crops, their wild relatives, and
animal species. There are differences in traditional cropping systems across the country.These
traditional farming systems, which use local indigenous knowledge and experiences, are assumed to
have great role in maintaining the agricultural diversity. Unfortunately, the traditional systems have
not been documented well.Farm animal production systems in the country can be grouped into three
major types: (i) transhumant migratory system, (ii) stationary with semi-migratory or with semiintensive system, and (iii) stationary stall feeding or closed system intensive system.
Agrobiodiversitycontributes substantially to Nepal’s species diversity. A total of 550 crop species
areidentified as having food value, and around half of those species are believed to be currently
under cultivation.The country is also very rich in fruit, vegetable and animal biodiversity.More than
200 species of vegetables are being grown in the country, of which 50 species have been
commercialized and available in local and urban markets.Several breeds and strains of domestic
animals (including poultry)found in different ecological belts are yet to be identified and
characterized at the molecular level.
Diversity of crops, horticulture species, and livestock varies across the physiographic zones.The
hills and mountains generally have higher agricultural biodiversity (both crop and animal) as
compared to the lowlands (MFSC, 2002). High climatic and physiographic variability,relatively low
influence of modern technology, and higher level of ethnic diversity of human communities is
Nepal’s Fifth National Report to the CBD
Page25
believed to have contributed to higher richness of crop and livestock species in the mountains as
compared to the Tarai.
Nepal has an estimated 550 crop species having food value, and around half of those species are
believed to be currently under cultivation.The country is also very rich in fruit, vegetable and
animal biodiversity.More than 200 species of vegetables are being grown in the country, of which
50 species have been commercialized and available in local and urban markets.Several breeds and
strains of domestic animals (including poultry)found in different ecological belts are yet to be
identified and characterized at the molecular level. The available information suggeststhat the
country is rich in diversity of domestic animals.Diversity of crops, horticulture species, and
livestockvaries across the physiographic zones. The hills and mountains generally have higher
agricultural biodiversity (both crop and animal) as compared to the lowlands (MFSC, 2002).
There are variations in the distribution of crop genetic diversity across the country. For example, the
highest number of farmer-named cultivars of rice, taro and sponge gourds is found in Kaski (Middle
Mountains). Genetic diversity of buckwheat and barley are found to behigh in Jumla (High
Mountains), and the diversity of pigeon pea is found to be highest in Bara (Tarai; Upadhyay and
Joshi, 2003).
Agrobiodiversity is under threat due to: (i) commercialization of agriculture and the extension of
modern high yielding varieties, (ii) indiscriminate use of pesticides, (iii) population growth and
urbanization,(iv) lack of incentives to conserve the low-yielding local species and varities, and (v)
changes in farmer’s priorities (MFSC, 2002).Poor level of awareness about the importance of
biodiversity, lack of suitable policy for conservation of local species and varieties, and inadequate
knowledgeareother threats.
Among the known species of domestic animals, pure siri cow has become extinct and achhami
cattle are close to endanger (Neopane and Pokhrel, 2005). Lampuchhre sheep is close to endanger
(Neopane and Pokharel, 2008) and bampudke pigs are extinct from domesticated habitat but are
found in wild in small numbers (Neopane and Kadel, 2008).
The type and intensity of threats to agrobiodiversity slightly vary among the physiographic zones.
For example, commercialization of agriculture and the extension of modern high yielding varieties,
and urbanization are more relevant to the Tarai, while poor level of awareness is more related to the
mountains.
Livestock diversity is threatened by: (i) decline of local breeds, (ii) weak quarantine, (iii) limited exsitu conservation of local breeds, (iv) inadequate research and technologies, (v) limited access to
good quality seed of local breeds (live or semen), and (vi) lack of incentives to continue keeping
less productive local breeds.
1.3.6 Mountain Biodiversity
Mountain biodiversity cross-cuts several themes and sectors. It is treated separately in this report as
mountains in Nepal are the centers of immense cultural and biological diversity.Moreover, scenic
landscapes and clean air make mountains target regions for recreation and tourism. However,
Nepal’s Fifth National Report to the CBD
Page26
mountain ecosystems are exceptionally fragile; both poverty and ethnic diversity are high in
mountain regions,and people in the region are often more vulnerable than people elsewhere.
The mountain regions contain 70 percent of the country’s protected areas, as well as about half of
the country’s global priority ecoregions. Many endangered species of flora and fauna inhabit the
mountains. For example, 34 percent of the biodiversity (plants and animal species) is found in the
High Mountains (above 3,000m), and 63 percent in the Middle Mountains (1,000-3,000 m). The
highest numbers of plants occur between 1,500 and 2,500 m elevations. About 420 floweringplant
species are distributed in the areas that lie above 5,000 m. Many vascular plants (e.g. angiosperm
Christolae himalayayensis)have even been recorded at more than 6,000 melevation in the eastern
Himalaya (MFSC, 2002; MFSC, 2005)).
The high elevation mountains also possess enormously diverse species and genetic resources of
wild fauna. Some 80 species of mammals are known to occur in the High Mountains and High
Himal areas of which eight, namely snow leopard, grey wolf, Tibetan argali, lynx, brown bear,
musk deer, red panda and Tibetan antelope, are major wildlife species found in Nepal. Four of these
species are endangered and vulnerable. Similarly, eight out of 20 endemic breeds of livestock are
from the alpine region (Sherchand and Pradhan, 1998; MFSC, 2005).
Among the bird species, around 413 species are reported to occur above 3,000 m altitude. Of these, 19
species are known to breed in these high grounds. Nine species of birds are restricted to alpine
rangelands of which five species, including imperial eagle, Pallas’ fish eagle, Hodgson’s bush chat,
lesser kestrel, and Kasmir flycatcher are of international significance (Inskipp and Inskipp, 1991).
Five of the nine Ramsar-listed wetlands in Nepal are located above 2,000 m elevations. The
mountain biodiversity of the Himalayanregion also contributes significantly to the global
biodiversity, as it sits at the center of the Himalayan Biodiversity Hotspot.
Mountain biodiversity in Nepal faces a significant threat due to human activities. Some of the main
threats to mountain biodiversity include: (i) poor management of natural resources, including
overexploitation of non-wood and wood products and mineral resources, (ii) unplanned and
unregulated construction of rural roads, and (iii) inappropriate farming practices. Poverty is a major
underlying threat.
The mountain ecosystems are fragile and vulnerable to natural disasters, such as landslides, glacial
lake outburst floods and drought, which cause considerable damage to mountain ecosystems and the
people living in those areas. The changing climatic conditions have exacerbated the threats to
biodiversity and livelihoods, especially in the mountain areas in recent years.
1.3.7 Underlying Causes of Biodiversity Loss
Thethreats to biodiversity discussed in the preceding sections are the results of several underlying
causes. These causes constitute a complex of social, political, economic, technological, and cultural
variables that operate at various spatial levels. The major underlying causes of biodiversity loss in
Nepal include: (i) poor forest governance, (ii) ignorance to biodiversity values in government and
corporate accounting systems, (iii) widespread poverty and lack of diversified livelihood
opportunities, (iv) population growth and migration, (v) lack of an integrated approach to planning
Nepal’s Fifth National Report to the CBD
Page27
at national and district levels, (vi) land scarcity, (vii) unclear resource tenure and administrative
jurisdictions, (viii) unsustainable agricultural practices, and (ix) inadequate awareness and
motivation to conserve biodiversity.
1.3.8 Climate Change: A Common Threat
Biodiversity and climate change are closely linked.According to the Millennium Ecosystem
Assessment (2005), the changing climatic condition is likely to become the dominant direct driver
of biodiversity loss by the end of this century. The Intergovernmental Panel on Climate Change
(IPCC) estimated that 20-30 percent of the species will likely be at a higher risk of extinction with
temperature increases greater than 1.5°C and risks will increase with additional temperature rise
(IPCC, 2007).
The understanding of impacts of climate change on Nepal’s biodiversity is very poor. Some of the
known impacts are: (i) shifts in agro-ecological zones, prolonged dry spells, and higher incidences
of pests and diseases increased temperature and rainfall variability, (ii) increased emergence and
fast spread of invasive alien species (e.g. Mikenia micrantha,Parthenium hysterophorus), (iii)
increased incidence of forest fire in recent years, (iv) changes in phonological cycles of tree species,
(v) shifting of treeline in the Himalaya, and (v) depletion of wetlands (MOE, 2010). Limited
available information indicates that the High Himal and High Mountain ecosystems are likely to be
worst affected by climate change in near future.
1.4 Sources and Trends of Funding for Biodiversity Management in Key Sectors
Nepal Biodiversity Strategy (2002) envisioned establishing Nepal Trust Fund for Biodiversityas a
long-term funding mechanism involving a number of bilateral, multilateral, private sector and the
government agencies. The fund, which was supposed to provide financial and technical support to
government agencies, NGOs and other institutions involved in biodiversity conservation in Nepal to
enable them to undertake appropriate activities and projects both within and outside protected areas,
never came to existence. Despite this gap, funding for biodiversity related programmes increased
continuously and substantially over the last decade.
An analysis of the programme budget allocated for the Ministry of Forest and Soil Conservation
shows that it continuously and substantially increased during the last decade. Bulk of the funds (i.e.
84.4%) came from the government or internal source, and remaining from foreign assistance in the
form of grant (14.1%) and soft loan (1.5%) (Figure 1.11).
In addition, a number of other sources also financially contributed to biodiversity conservation
programmes. NTNC-collected entry fee from visitors has remained one of the main sources of
funding for implementing biodiversity management programmes in the Annapurna Conservation
Area and Manaslu Conservation Area. In-kind cooperation by local communitiesand technical
assistance by international community were some other sources.
Nepal’s Fifth National Report to the CBD
Page28
8,634
Figure 1.11: Trendsand sources of funding formanagement of forestry programmes
9,000
3,425
Public
Fund
ODA
779
908
420
417
1,857
2,697
385
248
1,972
119
1,905
219
1,000
329
3,000
2,000
1,915
4,000
2,299
5,000
5,007
6,000
4,446
7,000
5,286
8,000
626
Amount in "000" Nepalese Rupees
10,000
Total
Fund
0
Fiscal Year
Similar positive trends were found in allocation of budget for management of agrobiodiversity. For
example, the government funding for the Gene Bank, Botany Division, Animal Breeding Division,
Pasture and Fodder Division, and Department of Livestock Services, which are directly involved in
conservation of agrobiodiversity, substantially increased over the last five years (Figure 1.12).
Figure 1.12: Trend of funding for management of agrobiodiversity
Agrobiodiversity Fund in NPR
"000"
89300
90000
80000
70000
60000
50000
40000
30000
20000
10000
0
54800
56000
49400
19060
2009/10
2010/11
2011/12
2012/13
2013/14
Fiscal Year
During the last five years, the annual expenditure in climate change related programmes and
activities constituted around 1.3 percent to 2.1 percent of the Gross Domestic Product (GDP), and
5.7 percent to 7.2 percent of total government expenditure. These figures indicate that the share of
climate change related budget allocations and expenditure as percentage of GDP and government
expenditure are both increasing over the period (Figure 1.13). More than half (55%) of the total
government climate change expenditure is estimated to come from external sources (Nepal, 2012).
Nepal’s Fifth National Report to the CBD
Page29
2009/10 2010/11
Fiscal Year
2011/12
18564035
27628848
2008/09
25631913
2007/08
15128490
30000000
25000000
20000000
15000000
10000000
5000000
0
9684560
Climate Chnge Fund in
NPR "000"
Figure 1.13: Trend in climate change related fundingin Nepal
The climate change budget code has been introduced in the national budget starting this fiscal year
(i.e. 2012/2013). The government has reportedly allocated 10.34 percent (5.8 % direct and 4.6%
indirect) of its budget for 2013-2014 to climate funding. There are also many other funding through
bilateral, multi-lateral, NGOs and INGOs sources, which in most cases remain out of the
government monitoring system.
Nepal’s Fifth National Report to the CBD
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2. OVERVIEW OF PAST EFFORTS, ACHIEVEMENTS AND LESSONS LEARNED
2.1 Implementation of Nepal Biodiversity Strategy (2002) and Nepal Biodiversity Strategy
Implementation Plan (2006): Key Achievements and Gaps
A subjective assessment of the progress made in implementation of the Nepal Biodiversity Strategy
(NBS) and Nepal Biodiversity Strategy Implementation Plan (NBSIP)based on the review and
analysis of relevant literature and secondary data, consultations, and expert opinions indicated that
NBS was only partially successful in achieving its goal of providing a strategic planning framework
for managing biodiversity in the country. Implementation of around 30 percent of the NBS
strategies related to the six thematic areas was “very good”, 30 percent “good” and 41 percent
“poor”. Of the 17 cross-sectoral strategies, four were almost fully implemented and two were not
implemented. Implementation status of the rest of the strategies remained medium (Table 2.1).
Table 2.1: Status of implementation of NBS (2002) strategies
Sector/Theme
Protected Area
Forest Biodiversity
Rangeland Biodiversity
Wetland Biodiversity
Agro-biodiversity
Mountain Biodiversity
Cross-sectoral
Number of
Strategies
8
9
4
1
3
2
17
Status of Implementation*
Very Good
Good
2 (25)
3 (37.5)
2 (22.2)
3 (33.3)
1 (25)
1 (100)
2 (66.6)
1 (33.4)
1 (50)
4 (23.5)
6 (35.3)
Poor
3 (37.5)
4 (44.4)
3 (75)
1 (50)
5 (29.4)
Not Implemented
2 (11.8)
* The number in parenthesis refers to the percentage
The last decade also witnessed substantial expansion of the country’s protected area. A total of
6,120.6 sq. km. protected area was added just in between 2002 and 2010. Moreover, buffer zones
were declared around six protected areas during the period. These efforts, along with preparation
and implementation of species conservation plans and abatement in poaching, had positive
contributions to in situ conservation of threatened wildlife species. The population of the Bengal
Tiger (Panthera tigris tigris) increased continuously since 2009 (Acharya and Dhakal, 2012; WWF,
2012).Similarly, the population of rhino (Rhinocerus unicornis) in its main habitat the Chitwan
National Park recovered from its lowest (i.e. 354) in 2006 to 503 in 2011 (DNPWC, 2009;
DNPWC, 2011; Subedi et al., 2013).
In situ conservation using landscape planning approach, and with active involvement of local
people was another NBS strategy that was successfully implemented. The incorporation of
landscape approach as a new strategic and operational direction to conservation and sustainable use
of biological resources by Tenth Five Year Plan (2003-2008) provided further impetus to implement
the strategy. Accordingly, the Ministry of Forest and Soil Conservation (MFSC), with supports
from several donors and development partners, implemented landscape management programmes in
the Terai Arc Landscape, Sacred Himalayan Landcsape, andKailash Sacred Landscape. A
consortium of four I/NGOs led by WWF Nepal has started implementation of a similar programme
in the Chitwan-Annapurna Landscape since 2011 under USAID funding (Figure 2.1).
Nepal’s Fifth National Report to the CBD
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Figure 2.1: Landscapes under management in Nepal
Participation of local people, including women and disadvantaged group, in forest and protected
area management substantially increased during the last decade. Some other NBS strategies, which
were successfully implemented include: (i) formulation of the National Rangeland Policy in 2012,
and (ii) integrated management of two wetlands (i.e. Koshitappu and Ghodaghodi) of international
importance by the Conservation and Sustainable Use of Wetlands in Nepal project implemented by
the MFSC.
The three agrobiodiversity strategies were successfully implemented. Community based
biodiversity management has been established as a successful approach for conservation of
agriculture genetic resources. This approach has been embedded with several good practices such as
community biodiversity registration, biodiversity fair, participatory plant breeding and participatory
variety selection, and community seed bank. Participatory Plant Breeding and Participatory Variety
Selection have now been well established in cereal crops. These successes are the result of
successful collaboration among the Nepal Agricultural Research Council (NARC), Department of
Agriculture, LI-BIRD and local farmers (Rijal et al., 2003; Subedi et al., 2011; Shrestha et al.,
2013).
A National Agriculture Genetic Resource Centre (Gene Bank) has been established in 2010 in
Lalitpur for ex-situ conservation of agricultural genetic resources. The Gene Bank has also
established a tissue bank and laboratories for in-vitro culture, molecular research, seeds testing, and
has created its links with the 115 community seed banks established across the country (Bhatta et
al., 2012; Joshi , 2013).
Nepal’s Fifth National Report to the CBD
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Of the 13 priority projects planned by the NBSIP (2006), only three were successfully implemented.
These include: (i) integrated wetlands management, (ii) landscape level biodiversity conservation,
and (iii) conservation and management of pollinators for sustainable agriculture through ecosystem
approach. Institute of Agricultural Sciences, Rampur Chitwan implemented aFAO-funded pilot
project on “Conservation and Management of Pollinators for Sustainable Agriculture through an
Ecosystem Approach”. The project was mainly focused on: (i) survey and needs assessment of
crops pollination, (ii) preparation of participatory training sessions, (iii) development of database
for pollination information and management system, and (iv) preparation of draft management plan
and inception report (Jha et al., 2005).
Status of implementation of four of the NBSIP projects remained “good” and three “poor”. Three of
the priority projects, namely Phulchoki-Chandragiri Biodiversity Conservation Programme,
Rhododendron Conservation Programme in Tinjure-Milke-Jaljale, and establishment of the
Kanchenjungha Tri-national Peace Park were not implemented.
Some other strategies and plans that were not implemented include: (i) establishment of Nepal Trust
Fund for Biodiversity, (ii) strengthening of National Biodiversity Unit, and (iii) assignment of
National Biodiversity Coordinator. The strategy relating to endorsement of indigenous knowledge
and innovations could not be implemented due to lack of necessary legislation.
The lack of linkage between the NBSand most of the sectoral and cross-sectoral strategies, plans,
policies and programmes that were formulated after 2002 is probably the most important gap in
implementation of the strategy. One of the main reasons behind this missing link between the NBS
(2002) and subsequent strategies, plans, policies and programmes could be the lack of an effective
institutional mechanism to coordinate implementation of the strategy and monitor progress. The
National Biodiversity Coordination Committee (NBCC) and related thematic committees, which
were supposed to guide, coordinate and monitor the implementation, could not become so effective
due mainly to weak secretariat. The National Biodiversity Unit (NBU) in the MFSC did not get a
National Biodiversity Coordinator, and the unit could not be strengthenedas envisaged by the NBS.
The National Trust Fund for Biodiversity, which was supposed to be the main source of funding for
the NBCC and NBU, was not even established. The long gap between formulation of the NBS and
NBSIP also caused the NBS to remain “dormant” for the precious first four years of its formulation
(i.e. 2002-2006).
Some other gaps that affected implementation of the NBS include: (i) poor inter-and intra-agency
coordination and cooperation, (ii) contradictory or conflicting legislations and administrative
jurisdictions, (iii) inadequate mainstreaming of biodiversity into national development plans and
programmes, (iv) lack of legislation to translate the strategy and policies into actions (e.g. agrobiodiversity policy, tourism policy), (v) inadequate incentives for conservation of less productive
agri-crop varieties (native landraces) and livestock breeds, (vi) lack of time-bound targets, in most
cases, for implementation of sectoral conservation plans, (vii) poor enforcement of laws, including
the Environmental Protection Act (1997) and Local Self-Governance Act (1996), (viii) lack of
system for mainstreaming indigenous technical knowledge and innovations into national
development programmes, (ix) gap in linking biodiversity registration programme with biodiversity
conservation, use and benefit sharing, (x) inadequate technicalcapacity for bio-prospecting, and ex-
Nepal’s Fifth National Report to the CBD
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situ conservation of agrobiodiversity, and (xi) unorganized information sharing and dissemination
system.
Implementation of the NBSIP suffered from: (i) contention among the key actors due mainly to
inadequate consultation and cooperation with local and indigenous communities while devising
plans for conservation of biodiversity-rich areas (e.g. Phulchoki-Chandragiri, Tinjure-MilkeJaljale), (ii) poor monitoring, (iii) lack of an effective system of benefiting local communities from
protected area tourism (except in conservation areas), (iv) delay in preparation and implementation
of conservation plans for many important wildlife species, including water buffalo, dolphin and
swamp deer, (v) lack of baseline information on biodiversity, including agro-biodiversity, (vi) lack
of vision and plan to use the existing NARC farms for conservation of agro-biodiversity, and (vii)
inadequate financial resource to implement the identified priority projects.
2.2 Other Key Efforts and Achievements
There have also been a number of other efforts and achievements in conservation of biodiversity
and natural resources during the past decade, which have no direct linkage to the NBS (2002) and
NBSIP (2006). For example, the concept of sustainable economic growth, including conservation of
biodiversity and natural resources with participation of local communities, has been firmly
embedded in the country’s interim constitution, and most of the national development plans,
policies, strategies and regulatory frameworks developed since 2002. Some high level committees
(e.g. National Tiger Committee, Climate Change Council) and related institutional mechanisms
have been established. Substantial efforts have been made to control cross-border illegal trade of
wildlife parts bystrengthening cooperation with China and India.
There have also been a number of efforts and achievements in the management of forest
biodiversity and agrobiodiversity, which do not have direct relation to the NBS or NBSIP.
Declaration of eight natural forests with high conservation significance as protected forests;
implementation of the Rastrapati (i.e. President) Chure Conservation Programme in 26 districts (out
of 33 districts in the Chure region); implementation of tree improvement programme, and public
land agroforestry by the Department of Forests; assessment and mapping of forest resources by the
Department of Forest Research and Survey; tissue culture programme implemented by the
Department of Plant Resources, NARC and some private companies; production and use of cattle
and buffaloes semen by Department of Livestock Services and NARC for improving dairy animals
are some examples.
The governmentand its development partners have started implementation of some programmes,
which directly or indirectly support biodiversity conservation in the changing climatic conditions.
The Ministry of Forest and Soil Conservation has been promoting REDD+ as a mechanism to
control forest loss and degradation since 2008. There have also been some initiatives towards
implementation of REDD+ and PES in the field. The Alternative Energy Promotion Center under
the Ministry of Science, Technology and Environment (MOSTE) has been making substantial
efforts in promotion of clean and renewable energy. The MOSTE, in collaboration with ICIMOD
and other partners, launched the Mountain Initiative in 2010. UNDP and IUCN have been
supporting implementation of an ecosystems based adaptation project in one of the biodiversity
hubs and protected forest in western Nepal. NARC is engaged in developing drought-tolerant
Nepal’s Fifth National Report to the CBD
Page34
varieties of crops. A rice variety (IR 64) has already been released for submerged conditions. The
government has assigned a separate, dedicated budget code for climate change and has started
allocating about five percent of annual budget for climate change related activities from the current
fiscal year.
2.3 Lessons Learned
The following are some of the key lessons learned from management of biodiversity in Nepal.
(1)Meaningful participation of local communities in the management of natural resources is a key to
ensuring success and sustainability of programme interventions. The successful management of
Kanchenjungha and Annapurna conservation areas, corridors, and thousands of community and
leasehold forests across the country are evidences. Several studies have shown that forest
degradation and loss has declined substantially and even reversed in many areas,particularly the
Middle Mountains, after implementation of the community forestry programme(see e.g. Gautam,
2006; Niraula et al., 2013).The improvement in forest condition has created habitat corridors and
development of successive stages of forests, which might have played crucial role in conservation
of biodiversity, including preventing local extinction of species. Ensuring meaningful local
participation requires ensured economic incentives, and incorporation of traditional practices, local
knowledge and institutions in the design and implementation of the programmes. Promoting
cultivation of medicinal and aromatic plants such as chiraito (Swertia chirayita), lemon grass
(Cymbopogon sp.) and other NTFPs (such as broom grass) in community managed forests is found
to be one of the proven approaches to benefit communities and achieve success in biodiversity
conservation.
(2) Landscape approachcould be an appropriate strategy for addressing multiple drivers of
biodiversity loss, enhancing ecologicalprocesses and conserving threatened species. This is
particularly true in areas where the protected areas are scattered likeislands and too small to support
viable population of species and ecological processes. The contribution of the Western Terai
Landscape Complex Project (WTLCP) towards enhancing biodiversity assets and sustainable
livelihoods supports this speculation. The six-year (2006-2012) project reportedly helped restore
forest, grassland and wetland habitats and increase in population of several important wildlife
species, including tiger, swamp deer and blackbuck. Conservation of local varieties of crops
through establishment of seed banks at the community level has empowered the communities in
having access to seeds of local genetic resourcesand conserving those varieties (Acharya et al.,
2010; Shrestha et al., 2013). Similar successes have been reported from the transboundary
Kangchenjunga Landscape Project, implemented by ICIMOD in collaboration with various
agencies and communities in eastern Nepal, Sikkim and Darjeeling of India, western Bhutan and
China (ICIMOD, 2008).
(3) Cooperation and collaboration among relevant agencies (government, I/NGOs, local
communities) is crucial to achieve success in biodiversity conservation. As mentioned earlier, the
success met in conservation of agriculture genetic resourcesthrough community biodiversity
registration, participatory plant breeding and participatory variety selection, and community seed
bank was the result of successful collaboration among the Nepal Agricultural Research Council,
Department of Agriculture, LI-BIRD and local farmers. Involving local stakeholders in planning
Nepal’s Fifth National Report to the CBD
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and implementation is critical to achieving objectives of conserving agro biodiversity and using the
genetic resources in sustainably way. The continuous increase in population of endangered species
such as tiger and rhino in recent years was possible through concerted joint efforts of the DNPWC,
WWF Nepal, NTNC, some local NGOs and local people. The achievements of the WTLCP was
possible through cooperation and collaboration between the MFSC, NARC, UNDP, district level
agriculture, forest, national parks and livestock offices, local governments, NGOs and community
groups. On the other hand, lack of effective and sustained coordination and cooperation among the
Ministry of Forest and Soil Conservation and Ministry of Agriculture Development is believed to
have negatively affected management of rangeland and wetland biodiversity.
(4) Cooperation among law enforcement agencies is necessary for curbing illegal trade of wildlife
species, which in turn helps control poaching. Collaboration among the recently set up Wildlife
Crime Control Bureau in Nepal Police and DNPWC, alongside effective implementation of antipoaching plans and activities, can largely be credited fordecreased poaching of threatened species
and illegal trade of wildlife parts in recent years. The associated financial incentive might have
enhanced motivation of the police personnel in controlling trafficking and illegal trade wildlife
parts.
(5) International cooperation can be helpful to curb transboundary trade of wildlife parts and
strengthening ecological security in trans-boundary regions. The recently established cooperation
with China and India has been useful in controlling illegal wildlife trade through sharing of
information, knowledge, experiences and practices. Formation of the South Asia Wildlife
Enforcement Networkin 2010 has helped for coordinated regional response to combat illegal
wildlife poaching and trafficking (Karki et al., 2011).
(6) There was a continuous and significant increase in number of tourists visiting protected area and
associated increase in revenue over the last decade (Figure 2.2; DNPWC, 2012). This shows that
there is a very good scope for further promotion of tourism to generate necessary fund for
conservation, and to provide economic opportunities for local communities.
Figure 2.2: Annual revenue generated from tourism in protected areas
Nepal’s Fifth National Report to the CBD
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The protected area tourism, so far, has been largely limited to the Chitwan National Park,
Annapurna Conservation Area, Sagarmatha National Park and Langtang National Park. There is a
need for exploration and promotion of new areas for tourism and promotion of eco-tourism in all
protected areas. This will, among other, involve: (i) designing and implementing rules and
guidelines to match the practices and principles of eco-tourism, (ii) training staff, (iii) raising visitor
awareness, (iv) strengthening local management capacity, and (v) scaling up and expanding
successful initiatives. Promoting culture and environment based tourism in community managed
forest sites could be another possibility to enhance rural livelihoods and income.
(7) Enabling policy is necessary to achieve the intended outcome and appropriate legislation is
necessary in order to translate the policy pronouncements into practice. This is evidenced, among
other, by fact that the community forestry programme could not gain momentum until a supportive
Forest Act and Forest Regulation were promulgated in 1993 and 1995, respectively. That remained
the situation despite the clear direction given by the Master Plan for Forestry Sector (1989). The
implementation of the Rangeland Policy (2012) and Wetland Policy (2013) has not actually
commenced due to lack of legislation. Part of the reason behind less effectiveness of the National
Biodiversity Coordination Committee relates to lack of its legislative basis. Attempts to improve
management of mountain biodiversity have been partly hindered due to lack of separate policy and
legislation governing mountain biodiversity.
(8) Positive incentive measures, which promote conservation-friendly behaviors, are necessary to
encourage local people in biodiversity conservation. This lesson has been learned from the PES
system implemented by the Rupa Lake Rehabilitation Fisheries Cooperative Ltd. in Kaski district.
The cooperative has started community based conservation of the lake and its wise use programme
with the objective of lake restoration and biodiversity conservation. The benefit from the fish
harvest is shared among the beneficiaries on equitable basis. Certain percent of the net benefits are
paid to the upland communities through a PES system. This has significantly improved
conservation of fish and other aquatic life in the lake as well as the catchment area, and there is high
possibility for the long term sustainability of the initiative.
(9) Prior consultation and discussion with local communities is necessary before making any
important decision that affects the local communities’ use of the local resources. Inadequate
consultation with the local and indigenous communities while devising conservation plans was one
of the important reasons behind non-implementation of the Phulchoki-Chandragiri Biodiversity
Conservation Programme, and Rhododendron Conservation Programme in Tinjure-Milke-Jaljale as
planned by the NBSIP (2006). Inadequate consultation with local forest user groups before
declaring the Gaurishankar Conservation Area invited unprecedented level of conflicts between the
government and local people, which affected implementation of conservation area management
activities. Similarly, many existing community forests and leasehold forests were suddenly brought
under protected area management regime in recent years due to declaration of those areas as buffer
zones. This sudden change in the management regime, without properly informing and counseling
the user group members, has caused strong disenchantment among the group members. These
events have led to increasing contention between the protected area approach and participatory
approach to conservation of forest biodiversity in recent years.
Nepal’s Fifth National Report to the CBD
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2.4 Development of National Biodiversity Strategy and Action Plan
The Government of Nepal, Ministry of Forest and Soil Conservation (CBD Focal Agency) is
currently in the process of developing National Biodiversity Strategy and Action Plan (NBSAP).
The project is funded by the Global Environment Facility through United Nations Environment
Programme and technically supported by the Kathmandu Forestry College. The NBSAP is the
revised and updated version of the Nepal Biodiversity Strategy (2002).The overall objective of the
NBSAP is to provide a strategic planning framework for conservation of Nepal’s biodiversity,
sustainable use of the biological resources for enhancing local livelihoods and eco-friendly national
development, and equitable sharing of the benefits accrued across all sections of the society.
2.4.1 The NBSAP Development Process
The NBSAP is primarily based on stocktaking of current situation through extensive review of
relevant plans, policies, strategies, agencies’ reports and other literature, and collection and analysis
of secondary data available with different government and non-government agencies. Consultations
with stakeholders at various levels and limited field observations formed the main sources of
primary data and information. Relevant decisions and guidelines of the CBD Conference of Parties
(COP), particularly the COP 10 Decision X/2on Strategic Plan for Biodiversity 2011–2020 adopted
by the Parties in October 2010, and the Aichi Biodiversity Targets provided theoretical framework
and technical guidance in its development.
Consultations with relevant stakeholders were carried out at the national, regional, district and
community levels. Efforts were made to make the consultations gender-balanced and socially
inclusive. Checklists were used to make the consultation meetings efficient and objective oriented.
A total of 1,664 individuals, including 459 (26.7%) women and 1,205 (73.3%) men, belonging to
government, I/NGOs, Civil Society, academics, media, forest user groups and other CBOs were
consulted during the process (Figure 2.3).
Figure 2.3: Proportional representation of individuals in the consultations from different type
of agencies (left), and number of individuals consulted at different levels
Nepal’s Fifth National Report to the CBD
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Consultations in Kathmandu involved interactions with officials and experts working in selected 41
organizations, including relevant government ministries and departments; Kathmandu-based INGOs
and national NGOs; Civil Society groups; natural resources users’ federations and networks;Nepal
Federation of Indigenous Nationalities; research and academic institutions; and professionals’ teams
engaged in revision of forestry sector strategy, and formulation of national REDD+ strategy.
Regional level government and non-government stakeholders, and district level government line
agencies, NGOs, Civil Society groups and other relevant agencies and individuals were consulted
by organizing a day-long consultation workshop at each of the five development regions, and
selected 15 districts across Nepal. Field level consultations were carried out by organizing
community level meetings at 30 selected sites within the 15 selected districts (Figure 2.4).
Figure 2.4: Location of the regional and district level consultation workshops
2.4.2 Salient Features of the NBSAP
The NBSAP has been structured into six chapters, including: including: (i) introduction, (ii) the
national context, (iii) threats to biodiversity, (iv) efforts to manage biodiversity and key outcomes,
(v) strategy for management of biodiversity, (vi) arrangements for implementation of the strategy,
and (vii) framework for local biodiversity strategy and action plan. The description and analysis of
past efforts and achievements, and formulation of strategies and actions are focused around six
thematic areas and sectors: (i) protected areas, (ii) forests outside protected areas, (iii) rangelands,
(iv) wetlands, (v) agriculture, and (vi) mountains. Cross-cutting themes, such as livelihoods,
Nepal’s Fifth National Report to the CBD
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governance, gender and social inclusion, and climate change impacts and adaptations have been
dealt separately.
Salient features of the National Biodiversity Strategy and Action Plan
 Broad-based participation of stakeholders in its development.
 It is comprehensive and balanced in terms of thematic and sectoral coverage.
 It provides a clear analytical account of the past efforts, achievements and gaps.
 Gives due considerations to gender and social inclusion and emerging issues, such as climate change
and invasive alien species.
 Thematic strategies and targets are directly linked to priority actions, Aichi Biodiversity Targets, and
performance indicators. This will make implementation of the strategies and monitoring of the
progress easier.
 It includes strategies to minimize the current contentions and enhance complementarities between
the protected area and participatory approaches to biodiversity conservation.
 Identifies the current gaps in coverage and connectivity of existing protected area network and
recommends the ways to fill those gaps.
 It includes a plan and framework for managing biodiversity at the local level.
 It builds on and aims at consolidating the successful past efforts and achievements.

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3. PROGRESS TOWARDS THE 2020 AICHI BIODIVERSITY TARGETS AND
RELEVANT MILLENNIUM DEVELOPMENT GOALS
3.1 Background
In the CBD Conference of Parties’ tenth meeting (COP-10) held at Aichi of Nagoya, Japan, the
Parties came up with a new plan and targets to conserve biodiversity and enhance its benefits to the
people. The plan known as the “Strategic Plan for Biodiversity 2011-2020” includes aset
of 20 ambitious yet achievable targets, which are collectively known as the Aichi Targets. The
targets are grouped into five strategic goals (CBD, 2010). As a Party to the CBD, Nepal has an
obligation to prepare and implement strategies and actions to meet the Aichi Targets. Similarly,
under Goal 7 of the MDGs (i.e. Ensure Environmental Sustainability), Nepal had targeted to
integrate the principles of sustainable development into country policies and programmes and
reverse the loss of environmental resources (NPC/UNDP, 2005).
In Nepal, systematic efforts to meet the Aichi Targets have just begun with the development of the
National Biodiversity Strategy and Action Plan (NBSAP). The country has, however, already made
substantial progress in conservation and sustainable use of biodiversity through formulation of
enabling policies and strategies and design and implementation of various programmes. The
following sections briefly describe the key efforts and outcomes that will contribute to meet the
Aichi Targets and relevant MDGs.
3.2 Contribution of the Past Efforts
3.2.1 Awareness Raising(Aichi Target 1)
The awareness raising efforts in Nepal can be categorized into two broad groups: (i) raising
awareness of local communities, and (ii) improving awareness of general public. Government line
agencies, including district forest offices, and district agriculture offices have been implementing
different training and other capacity building programmes for local user groups. Many NGOs are
working with local communities to change local people’s attitudes towards biodiversity by helping
them recognize the importance of conserving biodiversity for their own livelihoods and wellbeing.
For example, the Red Panda Network has implemented conservation education programme in
eastern mountain districts.Bird Conservation Nepal and Bird Education Society are working to build
capacity of grassroots conservation groups at Important Bird Areas (BCN and DNPWC, 2011).
Similar programmes have been implemented by FECOFUN, conservation area management
committees, and buffer zone management councils to raise awareness among members of the local
user groups.
Efforts towards improving awareness of general public include a broad range of activities. Some
examples of such activities include: (i) radio programmes implemented by the Nepal Forum of
Environmental Journalists (e.g. “Aankhi Jhyal”), Bird Conservation Nepal (“Panchhi Sansar”), and
LI-BIRD (“Libird ko Chautari”), (ii) public awareness campaign on International Biodiversity Day,
World Environment Day, National Conservation Day, World Wetlands Day, World Migratory Bird
Day and International Vulture Awareness Day, (iii) exhibitions, (iv) information boards, and (v)
distribution of brochures and newsletters by different agencies. Print media and television
Nepal’s Fifth National Report to the CBD
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programmes are making substantial contributions to raise awareness in recent years. Some
individuals are also putting substantial efforts to raise awareness, especially about the importance of
conserving threatened birds.
3.2.2Integration and Incorporation of Biodiversity Values (Aichi Target 2)
Progress in integration of biodiversity values into development plans, policies, strategies
andsectoral programmes has so far been limited to inclusion of biodiversity and nature conservation
in the development plans, polices and strategies. All the national development plans developed and
implemented since 2002 have provisions related to biodiversity and environment.The Sustainable
Development Agenda for Nepal (2003) emphasizes environmental conservation as an integral
component of poverty alleviation and sustainable economic growth. The Interim Constitution of
Nepal (2007)recognizes the right of every person to live in a clean environment as a fundamental
right, and asks the government to make special arrangements for the conservation of biodiversity,
its sustainable use and equitable distribution of the benefits derived from it. The Constitution also
obliges the state to pursue a policy aimed at identifying and protecting traditional knowledge, skills
and practices. The implementation of those provisions, however, has remained poor. Mainstreaming
of biodiversity has not yet been a national priority. No effort has yet been made to incorporate
biodiversity values in government and corporate accounting systems. Lack of scientific evidence
has made it difficult to convince the policy-makers aboutthe value of biodiversity and ecosystem
services.
3.2.3Elimination of Perverse and Promotion of Positive Incentives (Aichi Target 3)
Several forms of disincentives related to conservation of both plant genetic resources (PGR) and
animal genetic resources (AnGR) exist in the country. Provision of bank loan for improved varieties
and breeds in crops and livestock, and restriction for marketing of seeds of farmers’ landraces and
unreleased/unregistered varieties in crops are examples. The orientation of promoting exotic
improved varieties and breeds has been changed and made in a way that the local
species/varieties/breeds are promoted by the government sectors. This is supported by the national
agriculture extension strategy (2007) which entails conservation of agrobiodiversity and as a result
the Department of Agriculture has been implementing good practices (e.g. community based
biodiversity management). This has contributed to the promotion of local genetic resources (GRs).
The disincentives has been eliminated and positive incentives are created by several other policies
such as National Agriculture Policy (2004); National Agrobiodiversity policy (2007); National seed
vision (2011) as all these policies have made provisions for promotion of local GRs. Agriculture
Development Strategy (ADS) though yet to be endorsed also entails the promotion of local GRs.
However, the priority is still given for improved varieties and breeds at programme and
implementation level.
Similarly, some of the policies, plans and programmes particularly of the forestry sector have been
striving to address the perverse incentives by focusing on formulation of pro-biodiversity and
ecosystem goods and services based policies and legislation. The Forest Act (1993) has, for
example, tries to address some of such perverse incentives by providing legal recognition to
management of forests by communities. One of the biggest perverse incentives is provided by
sectoral polices which focus on increasing infrastructure development and production by using
Nepal’s Fifth National Report to the CBD
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biodiversity and ecosystem goods and services. Partial implementation of different policies and
legislation also provide perverse incentives for loss of biodiversity and degradation of ecosystems.
The National Planning Commission and Council of Ministers are best suited to address this issue.
Nepal is yet to embark on proper valuation of biodiversity and ecosystem goods and services which
has resulted into the price charged for using biological resources and ecosystem services which
leads to over-consumption even exploitation. Furthermore, establishing property rights can
contribute to remove perverse incentives and manage biodiversity and ecosystems more sustainably.
3.2.4Sustainable Production and Consumption (Aichi Target 4)
The concept of sustainable production and utilization has been well incorporated in the national
development plans as well as sectoral policies (e.g. Rangeland Policy 2012, National Wetland
Policy 2012) and strategies developed in recent years. However, translation of those policy
provisions into practice has been very limited. The concept has, to some extent, implemented by
the departments under the Ministry of Forest and Soil Conservation (MFSC) in the management of
community, leasehold and collaborative forests, conservation areas, and selected sub-watersheds.
The Conservation and Sustainable Use of Wetlands in Nepal project implemented by the MFSC
during 2008-2013 introduced the concept in the management of two Ramsar sites in southern Nepal.
Hotels and resorts inside protected areas are required to take necessary measures towards
sustainable consumptionof natural resources and dispose wastes within safe ecological limits.
3.2.5Reducing the Loss, Degradation and Fragmentation of Natural Habitats (Aichi Target 5)
Some of the main efforts related to achieving this target include: (i) substantial expansion of
protected area which now covers 23.23 percent of the country’s land area, (ii) declaration of eight
forests covering a total area of 133,754.8 ha as protected forests, (iii) substantial expansion of
community forestry, leasehold forestry, and collaborative forest management programmes (iv)
implementation of landscape management programmes in four important landscapes, namely the
TAL, CHAL, SHL, and KSL, (v) implementation of the President Chure Conservation Programme
in 26 districts located in the fragile Siwaliks range, and (vi) conservation of two wetland sites of
international importance under the Conservation and Sustainable Use of Wetlands in Nepal project.
The transformation of government managed forests into different forms of participatory forest
management has been continuously increasing. In the process, 470,048 ha. additional national forest
was handed over to 3,702 local user groups as community forest just in between 2008 and 2013.
Similarly, 54,000 ha. national forest was brought under the collaborative management and another
25,450 ha. under the pro-poor leasehold forestry during the same period (DOF, 2013). Many studies
have shown that forest degradation and loss has declined substantially and even reversed in many
areas,particularly the Middle Mountainsafter successful implementation of the community forestry
programme(see e.g. Gautam, 2006; Niraula et al., 2013).Some recent estimates have indicated
decreasing trend of deforestation even in the Tarai (e.g. WECS, 2010). According to FAO (2010),
the forest areain Nepal remained stable during 2005-2010. These are encouraging developments in
the context that the country experienced a very high rate (1.6% per year) of deforestation during
1979-1994 (LRMP, 1986; DFRS/FRISP, 1999).
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The government has been promoting REDD+ as a mechanism to control forest loss and degradation
since 2008. The Readiness Preparation Proposal(R-PP)prepared in 2010 has identified five activities
for payment under REDD+ schemes: (i) reducing deforestation, (ii) reducing forest degradation,
(iii) sustainable forest management, (iv) conservation of forest carbon, and (v) enhancement of
forest carbon stock (MFSC, 2010).
Despite the above efforts loss and degradation of national forests in some regions (e.g. the Silwalik)
is believed to be going on unabated. There is a general perception among the stakeholders that the
rangelands and wetlands located outside protected areas are facing increasing degradation, although
there is hardly any information to substantiate those perceptions.
3.2.6Sustainable Management of Aquatic Flora and Fauna (Aichi Target 6)
Enlisting of eight wetlands as Ramsar sites since 2003 was one of the key efforts related to meeting
this target. The Ministry of Forest and Soil Conservation implementeda wetland management
project in two Ramsar sites, namely the Koshitappu Wildlife Reserve and Ghodaghodi lake
complex under the UNDP/GEF-funded five year (2008-2013) project “Conservation and
Sustainable Use of Wetlands in Nepal” (CSUWN). The overall objective of the project was to
ensure maintenance and enhancement of the national wetland biodiversity, and environmental
goods and services for improved livelihoods of the local people. The project also contributed
tonational capacity building and improving the legal and policy frameworks for an ecosystem
approach to the conservation and sustainable use of wetlands in Nepal (GON/UNDP-GEF, 2007).
The National Wetland Policy (2012) was formulated with support of the CSUWN project.
There have been a few other local initiatives. For example, the Rupa Lake Rehabilitation Fisheries
Cooperative Ltd.in Kaski district has started a community based conservation of lake resources and
its wise use programmewith the objective of lake restoration and biodiversity conservation. The
main activities of the cooperative include: (i) cleaning the aquatic vegetation from the lake, (ii)
harvesting exotic fishes without destroying the juveniles of native species, and (iii) controlling
illegal fishing in the lake. The benefit from the fish harvest is shared among the beneficiaries on
equitable basis. Certain percent of the net benefits are paid to the upland communities through a
PES system.
3.2.7 Sustainable Management of Agriculture, Aquaculture and Forestry (Aichi Target 7)
The Department of Forests has started implementation of collaborative forest management in
production forests of nine Tarai districts since 2004. So far, 19 collaborative forests, covering a total
area of 54,072 ha., have been established. Forest management plans have been prepared and
approved for all of those forests and scientific forest management has been initiated in some of the
sites (e.g. Tilaurakot, Kapilvastu). Eight other Tarai forests, covering a total area of 26,608 ha., are
planned to be added in the list of collaborative forests in 2013.
The community based forest management programmes exemplify some other initiatives taken by
the government towards sustainable management of country’s remaining forest resources. Currently
(i.e. as of June 2013), the community forestry programme covers 1.7 million hectares and the
programme is continuously being expanded. The pro-poor leasehold forestry and buffer zone
Nepal’s Fifth National Report to the CBD
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community forestry are other community based sustainable forest management programmes. The
improvement in conditions of community managed forests has contributed positively to
conservation of biodiversity and local livelihoods.
The government has also taken some other important initiatives towards sustainable management of
forests and biodiversity. The Ministry of Forest and Soil Conservation (MFSC) has been
implementing the Rastrapati (i.e. President) Chure Conservation Programme in 26 districts (out of
33 districts in the Siwalik range). Protection of regeneration in 1,047 ha. highly critical forest areas,
and establishment of 292 ha. plantation in critical areas are some of the achievements of the
programme (DOF, 2013b). A tree improvement programmehas been implemented by the
Department of Forests. A new programme called public land agro-forestry has been implemented in
some districts in central Tarai.
In some Tarai districts (especially in central Nepal), many small agro-forestry plots have been
established on public common lands. The plots, which are managed by local landless or poor
people, usually possess a wide range of agriculture, horticulture and forest tree and other species.
The initiative is led by the concerned district forest offices and, in some cases, supported by
environmental NGOs.
The Department of Fisheries Development in collaboration with Department of Agriculture has
initiated community based sustainable fisheries management in marginal swamps and oxbow lakes
scattered across the Tarai. The wetlands are utilized for extensive aquaculture alongside
conservation of biodiversity. There is, reportedly, meaningful participation of local indigenous
communities in the initiative.
3.2.8 Reducing Pollution and Excessive Use of Fertilizer(Aichi Target 8)
The efforts to contribute reduction of pollution in the country have been made with some degree of
success. For example, organic farming has been promoted with government guidelines and set
principles and integrated pest management through farmers’ field school has been widely applied.
Similarly, efforts for reducing excessive use of fertilizers have been made with success. Examples
are initiation and implementation by the Government (i.e. MOAD) for providing subsidies for
organic fertilizers for last two years is a good landmark in this direction. The establishment for
organic industries at each development regions has been planned as per the organic fertilizer
programme approved guided by the national fertilizer policy (2002). The policy also has the
provision of promotion of integrated plant nutrient management system for the efficient and balance
use of fertilizers where broadly fertilizer has been defined to include organic, chemical, and
microbial.
3.2.9Controlling, Eradicating and Preventing Invasive Alien Species (Aichi Target 9)
The efforts to control, eradicate and prevent invasive alien species in Nepal are limited to: (i)
manually clearing of invasive plants by forest user groups and farmers in community forests and
farmlands, and (ii) a few studies carried out on different aspects of invasive alien species by IUCN
Nepal and individual scholars (see e.g. Tiwari et al., 2005; Shrestha et al., 2010; Timsina et al.,
2011; Rai et al., 2012; Rai and Scarborough, 2012).
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3.2.10Minimizing Impacts of Anthropogenic Pressures and Climate Change on Vulnerable
Ecosystems (Aichi Target 10)
In case of Nepal, mountain ecosystems can be considered more vulnerable than ecosystems in other
regions because of high fragility of the mountain systems. Efforts to manage mountain biodiversity
overlap with other thematic efforts, particularly with those related to protected areas, landscape
management, and community based forest management.
Of the 20 protected areas that exist in Nepal, 13 are located in the mountains, which cover 84
percent of the total protected area in the country. Similarly, two biodiversity-rich mountain sites,
namely Madhane and Panchase, have recently been declared as protected forests by the government.
The community forestry programme has been extensively and successfully implemented in the
Middle Mountains where it has been generally successful in controlling or reversing the trends of
deforestation and forest degradation. The government has been implanting landscape management
programmes in two important mountain landscapes, namely the Sacred Himalayan Landscape, and
Kailash Sacred Landscape. A consortium of I/NGOs led by WWF Nepal have started another
landscape management programme in the Chitwan-Annapurna Landscape with the objectives of
mitigating the impacts of climate change on biodiversity and local livelihoods. WWF Nepal, in
partnership with Water and Energy Commission Secretariat, has started implementation of
Integrated Water Resource Management in priority catchments of two sub-basins in the Koshi River
3.2.11Conservation of Areas having Particular Importance for Biodiversity and Ecosystem
Services(Aichi Target 11)
Nepal has already surpassed the target of at least 17 percent terrestrial area to be conserved.
Currently, the country’s 23.23 percent (i.e. 34,185.6 sq. km) area is protected. The protected area
network include 10 national parks, three wildlife reserves, one hunting reserve,six conservation
areas, and 5602.67sq. km. buffer zone areas established around nine national parks.These actions
have put Nepal in the top 20 countries in the world and second in Asia for the percentage of its
surface area that is protected (USAID, 2012).
In addition to the protected areas, eight natural forests of high conservation significance have been
declared as protected forests since 2002. Some of these forests are important wildlife corridors and
the rest are rich in biodiversity. Three of them (Dhanushadham, Kankre Bihar and Panchase) also
have historical and religious significance. Eight additional forests covering a total area of 223,107
ha. are in the process of being declared as protected forests in near future. Additional information
on the protected areas and protected forests, including their locations, is presented in Chapter 1.
The Ministry of Forest and Soil Conservation in collaboration with its development partners has
been implementing landscape management programmes in three important landscapes, namely the
Terai Arc Landscape, Sacred Himalayan Landscape, and the Kailash Sacred Landscape. Another
landscape programme has been initiated by a consortium of INGOs and NGOs in the ChitwanAnnapurna Landscape since 2011 under USAID funding.These landscapes provide connectivity to
several protected areas and have helped enhance ecologicalprocesses and conservation of
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endangered species. Location and spatial coverage of these landscapes is shown in Figure 2.1
(Chapter 2).
3.2.12Conservation of Threatened Species(Aichi Target 12)
Nepal has made significant efforts and achieved some notable successes in preventing extinction of
threatened wild fauna and improving their conservation status. Some of the national efforts include:
(i) expansion of protected areas targeting conservation of endangered flagship animal species (such
as tiger, rhino, snow leopard, red panda, black buck), (ii) preparation and implementation of species
conservation plans for some threatened species, (iii) curbing illegal trade in wild animal parts, (iv)
broadening habitat of threatened species (e.g. rhino) through translocation of individuals to new
areas, (v) establishment and management of a gharial crocodile breeding center in Chitwan, and
vulture feeding centers at two locations (vi) monitoring of populations of some endangered wildlife
species, and (vii) identification and conservation of Important Bird Areas.
Species conservation action plans have been prepared and implemented for conservation of some of
the threatened species, including tiger, rhino, wild elephant, snow leopard, and vulture. Similar
conservation plans for red panda, gharial crocodile, and blackbuck are being prepared at the
moment.
Effective implementation of anti-poaching plans and activities and setting up of Wildlife Crime
Control Bureau in Nepal Police are some of the steps the government together with its conservation
partners took to control poaching and illegal trade of wildlife parts. Efforts were also made to
enhance international cooperation to curb illegal trade in animal parts. The signing of a
Memorandum of Understandingon environment and biodiversity conservation with People’s
Republic of China on 3 June 2010 and signing of a joint resolution with the Government of Indiaon
19 July 2010 are examples. Formation of South Asia Wildlife Enforcement Networkon 19 May
2010 for a coordinated regional response to combat illegal wildlife poaching and trafficking is yet
another initiative (Karki et al., 2011).
Systematic monitoring of populations of some other wildlife species, including snow leopard
(Uncia uncia), gharial (Gavialis gangeticus), blue sheep (Pseudois nayaur), Himalayan tahr
(Hemitragus jemlahicus), guar (Bos gaurus) and swamp deer (Cervus duvaucelii) has been started
since 2008 (WWF, 2012). Similarly, there have been regular surveys of globally threatened bird
species which have provided much useful information on their population sizes, key sites, threats
and conservation needs.
The above efforts have contributed towards not only saving species from extinction but also
increasing populations of some mega wildlife species in recent years. For example, the population
of the Bengal Tiger (Panthera tigris tigris) increased continuously since 2009 (Figure 3.2;Acharya
and Dhakal, 2012; WWF, 2012; DNPWC, 2013).Similarly, population of rhino (Rhinocerus
unicornis) in its main habitat the Chitwan National Park recovered from its lowest (i.e. 354) in 2006
to 503 in 2011 (Figure 3.3; DNPWC, 2009; DNPWC, 2011; Subedi et al., 2013). Some
unconfirmed reports (e.g. Panthi, 2013) suggest impressive recovery of black buck population in
Khairapur after the area was declared as a conservation area in 2010.
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Figure 3.2: Changes population of tiger
in Nepal
Figure 3.3: Changes in population of rhino
in Chitwan National Park
Some other key national level efforts towards conservation of threatened species include: (i)
establishment and management ofagharial breeding center in Chitwan by the DNPWC, and (ii)
conservation of endangered bird species through establishment of 27 Important Bird Areas across
the country, which resulted decline in the number of vulnerable bird species from 61 to 50 in
between 2004 and 2010 and decline in number of regionally extinct bird species from 10 to eight
during the same period (BCN and DNPWC, 2011).
The government has taken initiatives to conserve the threatened species by declaring them as
protected species. The list includes 27 species of mammals, nine species of birds, three species of
reptiles, 14 species of angiosperms and four species of gymnosperms (Annex 3.1; Annex 3.2).
In addition to the national efforts described in the preceding paragraphs, there have been some local
and sub-national initiatives aimed at conservation of threatened species in-situ or ex-situ. For
example, the Red Panda Network has been active in conservation of endangered red panda (Ailurus
fulgens) in Ilam, Panchthar, Taplejung and Sankhuwasabha districs, which comprise one of 11 red
panda sub-population areas in Nepal. A community-managed Vulture Safe Feeding Site has been
established by the Bird Conservation Nepal at Pithauli inNawalparasi district in 2007. A local NGO
named Dolphin Conservation Centre has initiated community based conservation of dolphin
(Platanista gangetica) in Mohana River and its tributaries (Pathriya, Kandaand Kanada) in western
Nepal.
3.2.13Conservation of Agro-genetic Diversity(Aichi Target 13)
Some of the key efforts include: (i) establishment and Management of National Agriculture Genetic
Resource Centre (Gene Bank), and community gene or seed banks(ii) tissue culture programmes,
and (iii) production and use of cattle and buffaloes semen. The Gene Bank has been established in
2010 at Khumaltar, Lalitpur under the management of Nepal Agricultural Research Council
(NARC) with the objective of ex-situ conservation of agricultural genetic resources. NARC,
through its National Potato Research Programme, has also been carrying out a separate tissue
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culture programme since last two decades to produce and supply pre-basic seeds of potato to
farmers across the country (NPRP, 2011).
The Biotechnology Section of the National Herbarium and Plant Laboratory under the Department
of Plant Resources has been carrying out tissue culture of some plants species thereby contributing
to in-vitro conservation of plant germplasm in the country. By 2006, the section had carried out invitro propagation of around 70 species of plants including trees, orchids, fruits, vegetables,
medicinal and aromatic plants and bamboo species (MFSC, 2006a).
The Animal Breeding Division, NARC and the National Livestock Breeding Centre under the
Department of Livestock Services have been managing semen of cattle and buffaloes for improving
dairy animals and their contribution to the economy. At both places, cryo-preservation technology is
being applied. The programme at the moment has been focused on transboundary (exotic) breeds of
cattle (jersey and holsteins) and murrah buffalo.
3.2.14Restoration and Safeguarding of Ecosystems, taking Into Account the Needs of
Disadvantaged Social Groups (Aichi Target 14)
The community forestry and pro-poor leasehold forestry programmes, conservation area
management programmes, and landscape management programmes are the main initiatives aimed at
restoring and safeguarding ecosystems by taking into account the needs of indigenous and
disadvantaged social groups. There is extensive involvement of local communities, including
women, poor, and other disadvantaged social groups and indigenous communities in all these
programmes.
Many studies have shown that the community forestry and other community based forest
management programmes have not only helped reversed the trends of deforestation and forest
degradation but also established traditional rights of the local people over the resources and
contributed to biodiversity conservation, increased supply of forest products, empowered rural
women, poor and the disadvantaged groups, promoted income generation and community
development activities, and improved livelihoods of people in rural areas (Gautam et al., 2003;
Gautam 2009; MFSC, 2013a; Niraula et al., 2013). Moreover, the community forest users’ groups
are helping in inculcating spirit of democracy among the people, gender balance, social justice,
societal empowerment and transformation (Kanel and Kandel, 2006).
The landscape management programmes implemented by the Ministry of Forest and Soil
Conservation in collaboration with its development partners are other efforts towards meeting this
target. Studies have shown that the Western Tarai Landscape Complex Project made substantial
progress toward enhancing biodiversity assets and sustainable livelihoods, and modest progress in
policy and institutional development. Some notable achievements have been reported in restoration
of forest, grassland and wetland habitats and increase in population of several important wildlife
species, including tiger, swamp deer and blackbuck, and conservation of local varieties of crops
(Acharya et al., 2010). Establishment of seed banks at the community level has empowered the
communities in having access to seeds of local genetic resourcesand conserving those varieties
(Shrestha et al., 2013). The wetlands management programme implemented in two Ramsar sites
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(Koshitappu and Ghodaghodi) helped improve the condition of the wetlands and associated
livelihoods of the local indigenous communities (MFSC, 2013b).
3.2.15Conservation, and Restoration of Degraded Ecosystems to Climate Change Mitigation
and Adaptation and Combating Desertification (Aichi Target 15)
In addition to the efforts and achievements described in the preceding section, the efforts
specifically related to achieving this target include: (i) restoration of 42,773 ha. degraded forest land
under the pro-poor leasehold forestry and forage development programme implemented in 52
districts across Nepal, (ii) promoting, since 2008, REDD+ and PES as mechanisms to control forest
loss and degradation, (iii) implementation of Rastrapati (i.e. President) Chure Conservation
programme in 26 districts, and (iv) the reforestation and afforestation programmes implemented by
the government agencies and forest user groups across Nepal.
3.2.16Operationalization of the Nagoya Protocol on Access to Genetic Resources by 2015
(Aichi Target 16)
Article 35(5) of the Interim Constitution of Nepal (2007) has emphasizedfor sustainable use of
forest, vegetation and biodiversity and equitable distribution of the benefit derived from it. The
government’s initiative to facilitate and regulate access and benefit sharing so far is limited to
drafting of the Genetic Resources (access, use and sharing of benefits) Bill in 2008, which is yet to
be finalized and enacted. Moreover, Nepal is yet to ratify the Nagoya Protocol on Access and
Benefit Sharing.
3.2.17Development and Implementation of National Biodiversity Strategy and Action Plan by
2015 (Aichi Target 17)
National Biodiversity Strategy and Action Plan, including a framework for management of
biodiversity at the local level, has just been developed by the Ministry of Forest and Soil
Conservation with supports from the GEF made available through UNEP, and broad-based
involvement of the stakeholders. The NBSAP is in the process of being formally endorsed by the
Council of Ministers1. The NBSAP development process is described in more detail in Chapter 2.
3.2.18Respecting the Traditional Knowledge, Innovations and Practices of Indigenous and
Local Communities and Ensuring their Effective Participation at All Relevant Levels (Aichi
Target 18)
Nepal’s ratification of the UN Declaration on the Rights of Indigenous People and ILO Convention
169 (Indigenous and Tribal Peoples Convention) shows the country’s commitment to the rights of
indigenous nationalities. The commitment has also been reflected in Article 35 (18) of the Interim
Constitutional of Nepal (2007), according to which the state is to pursue a policy aimed at
identifying and protecting traditional knowledge skills and practices. However, not much progress
has been made towards translating those commitments into actions, except for documentation of
traditional knowledge, innovations and practices associated with biological resources in few
districts Ministry of Forest and Soil Conservation with supports from IUCN, South Asia Watch and
1
This statement assumes that the NBSAP process reaches to this stage by the time this report is submitted to the CBD.
Nepal’s Fifth National Report to the CBD
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Trade Economics and Environment and LI-BIRD. The government is yet to take effective legal
measures in this regard.
3.2.19Improving, Sharing, Transferring, and Applying the Science Base and Technologies
Relating to Biodiversity (Aichi Target 19)
Efforts relating to this target are scattered across different agencies and sectors. The following are
some examples. The Department of Plant Resources, in collaboration with some national and
international agencies and funding support from the British Government's Darwin Initiative, has
been implementing the Flora of Nepal Project. The project aims at developing a detailed catalogue
of Nepal’s extraordinarily diverse but threatened flora using high-tech methods. Specifically the
project is contributing to implementation of the CBD by: (i) enhancing national coordination and
capacity building, through human resources, research and international cooperation, (ii) increasing
support for biodiversity research, (iii) reflecting the state of biodiversity knowledge through
identification and monitoring, (iv) strengthening the national biodiversity database network and
facilitating information exchange, and (v) endorsing indigenous people's knowledge and
innovations (Williams, 2005).
The Global Taxonomic Initiative Nepalhas been established with the objective of developing
national taxonomic capacity on flora and fauna and developing network of national institutions
working in this sector. The activities are to be carried out by an eleven-member steering committee
coordinated by the Department of Plant Resources with representation from various institutions
(DPR, 2007).
The Forest Research and Survey Department, with financial and technical supports from the
Government of Finland made available through the Forest Resources Assessment (FRA) Project,
has been conducting assessment of Nepal’s forest resources using high resolution satellite imageries
supplemented by ground surveys. Identification and mapping of biodiversity rich areas is one of the
activities of the FRA project.
3.2.20Mobilization of Financial Resources for Effective Implementation of the National
Biodiversity Strategy and Action Plan (Aichi Target20)
Successful implementation of the NBSAP is estimated to require nearly 3.5 times of the budget that
is currently allocated to the biodiversity sector. Both the internal and external sources of funding are
to be explored and mobilized to meet this requirement. As in the recent past, the bulk of the funding
is expected to come from the Government of Nepal. Funding from the local governments (DDCs,
VDCs and municipalities) could be another key source. NTNC-collected entry fee from visitors has
remained one of the main sources of funding for implementing biodiversity management
programmes in the Annapurna, Manaslu and Gaurishankar conservation areas, and this is expected
to continue in future. In-kind contributions by local communitiesand contributions from private
corporate sector will be some other sources of internal funding. Grants, loans and technical
assistance by international community will be the sources of external funding.
A major proportion of the future funding for biodiversity management is expected to come from the
climate change stream. The government has introduced a climate change budget code from this year
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and has reportedly allocated 10.34 percent (5.8 % direct and 4.6% indirect) of its budget for the
fiscal year 2013-2014 to climate funding. Some of the recently initiated donor funded projects and
programmes, such as the ecosystems based adaptation project supported by UNDP and UNEP and
the Hariyo Ban programme funded by USAID provide indication of increasing donor interest to
support Nepal to mitigate the negative impacts of climate change on biodiversity.
3.3 Key Targets and Milestones set by the National Biodiversity Strategy and Action Plan
Towards Meeting the Relevant Aichi Targets and MDGs
The NBSAP has formulated a number of strategic goals and targets to meet the Aichi Biodiversity
targets and the Millennium Development Goal of ensuring environmental sustainability, by 2020.
Each strategic goal is to be met through implementation of one or more specific strategies and a
number of priority actions linked to each of the strategies. The strategieshave been grouped into the
six biodiversity themes, namely protected area, forest, rangelands, wetlands, agriculture, and
mountain. Cross-sectoral issues have been dealt separately. The strategic goals, strategies, and
priority actions are designed to address the key national biodiversity threats, issues and gaps,
alongside meeting the relevant Aichi Targets MDGs.
Aichi Target 1: By 2020, at the latest, people are aware of the values of biodiversity and the steps
they can take to conserve and use it sustainably.
The NBSAP strategies for enhancing awareness are based on the lessons learned and built upon the
successful past efforts of the government and non-government sectors. Strengthening national,
district and local (VDC/municipality) level institutions for conservation and sustainable use of
components of biodiversity is a major strategic plan. A number ofspecific strategies have been
formulated and priorities for actions identified to meet this target. This, among other,
includessetting up of a separate Biodiversity Management Division at the Ministry of Forest and
Soil Conservation, which will also act as the NBCC secretariat and national CBD Focal Point. The
Biodiversity Management Division will take concrete steps to systematize the currently
disorganized biodiversity information collection and sharing system.
Educating and raising awareness of the policy-makers, corporate houses, local communities and
general public about the importance of biodiversity and ecosystem services is to be done through
effective communication, education and outreach programmes, and development and
implementation of demonstration programmes. The communication, extension and outreach (CEO)
strategy and the action plan included in the NBSAP have recommended a number of priority actions
to be carried out by 2020. Some examples of such priority actions aimed at raising awareness on
agrobiodiversity include: (i) creating awareness on the importance of genetic resources, (ii) raising
awareness on the value agro-biodiversity and related policies and strategies, (iii) organizing
exposure visits of farmers to biodiversity rich areas, (iv) effective dissemination of information
related to biodiversity, and (v) revising high school, college and university curricula by including
biodiversity.
The CEO provides a framework for use by organizations and community groups while developing
and implementing their own action plans based on the local ecological and socioeconomic context.
If implemented successfully, the CEO strategy will enable mechanisms for sharing knowledge,
building capacity, enhancing cooperation among relevant agencies at different levels.
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The strategy for management of protected areas includes provision for improving awareness among
the general public about the role and importance of protected areas through: (i) development of onsite lecturing, demonstration and interpretation infrastructure for selected protected areas, and (ii)
improving web-based dissemination of information. Designing and implementation of programmes
to raise awareness and build capacity of local FUGs in the corridors and buffer zone user groups for
climate responsive management of the forests is another strategic action recommended by the
NBSAP.
Aichi Target 2: By 2020, at the latest, biodiversity values have been integrated into national and
local development and poverty reduction strategies and planning processes and are being
incorporated into national accounting, as appropriate, and reporting systems.
Mainstreaming of biodiversity has not yet been a national priority. One of the priority actions
identified by the NBSAP for integration of biodiversity values into national and local policies,
strategies plans and programmes relates to incorporation of conservation of biodiversity, sustainable
use of its components and prevention and control of loss of biodiversity and degradation of
ecosystems in the mandate of Council of Ministers and all relevant ministries. Implementing this
action will require amendment of Government of Nepal (Work Division) Regulations (2012).
Promoting evidence based decision making that also takes into account of biodiversity values
requires better understanding of the country’s biodiversity and its direct and indirect contributions
to the economy. The NBSAP has provisioned for gradually undertaking a comprehensive inventory
of ecosystems and species throughout the country, and enhancement of national capacity for
biodiversity research.Strengthening the knowledge and understanding for controlling invasive alien
species by enhancing capacity for their identification, prevention, early detection and management
is a part of knowledge generation and management strategy.A National Biodiversity Information
Management System is to be established for collection and dissemination of biodiversity related
data with clear protocols for data sharing. All donor projects will be required to lay out a plan for
how they will make the data collected publicly accessible. This is expected to help enhance
evidence based decision making that will also take account of biodiversity values.
Successful incorporation of biodiversity into development and poverty reduction strategies and
planning processes and its incorporation into national accounting and reporting systems demands
for improvement in the governance system.The NBSAP strives to improving biodiversity
governance and management through: (i) mainstreaming biodiversity management in sectoral
policies and plans such as energy, industry, irrigation and roads, (ii) improving relevant legislations,
(iii) effective implementation of environment related provisions of different policies, strategies, and
legislations, and (iv) promoting transparency, accountability and participation at different levels.
Promoting synergies among biodiversity related international conventions is another target to be
met in the medium term (i.e. 5 years). The NBSAP has a strategy of formulating a separate
legislation for conservation and sustainable use of biodiversity.
Development and implementation of programmes for conservation of biodiversity by DDCs and
VDCs as per the provisions of the Local Self-governance Act 1999 [sections 189 (1) (G), and 28 (1)
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(H)]; development of a system for strategic environmental assessment; and ensuring its effective
implementation are some other strategic actions recommended by the NBSAP.
Some actions recommended by the NBSAP to promote transparency include: (i) respecting right to
information of individuals and communities by disseminating and providing information relating to
biodiversity and environment, and (ii) ensuring involvement of citizens and citizen groups in the
decision making related to conservation of biodiversity, sustainable use of its components and fair
and equitable benefit sharing at different stages.
Aichi Target 3: By 2020, at the latest, incentives, including subsidies, harmful to biodiversity are
eliminated, phased out or reformed in order to minimize or avoid negative impacts, and positive
incentives for the conservation and sustainable use of biodiversity are developed and applied,
consistent and in harmony with the Convention and other relevant international obligations, taking
into account national socio economic conditions.
So far, there has not been any serious effort in Nepal to identify incentives including subsidies that
are harmful to biodiversity and try to reduce and eliminate them. The problem is exacerbated by
lack of valuation and accounting of biodiversity and ecosystem goods and services. The NBSAP
attempts to address this gap through formulation or improvement of relevant legislations.
Harmonizing the sectoral policies, plans and programmes and even legislation to avoid any perverse
incentives is another strategic measure recommended by NBSAP.
The strategy related to further consolidating and promoting on-farm conservation of genetic
resources is expected to create or enhance positive incentives for conservation of agrobiodiversity.
The strategic actions relted to management of forest biodiversity will also promote incentive-based
resource management such as enterprise oriented community forestry which would link enterprise
creation to forest management in an effort to ensure the sustainable use of forest resources by
making local communities responsible for protecting and monitoring the resources which they are
managing and subsequently harvest/sell them. Thus the focus is on empowering the communities or
FUGs to operate the enterprises and manage the forest through capacity building to community
members, supported by the implementation of both a forest management plan and an enterprise
development plan. NBSAP also recommends establishing and implementation of a system of proper
valuation and accounting of biodiversity and ecosystem goods and services. Moreover, adequate
incentive programmes to compensate local communities for the loss of cattle and crops destroyed
by wildlife or reward the presence of wild animals on private lands through public payments is to be
implemented.
Aichi Target 4: By 2020, at the latest, Governments, business and stakeholders at all levels have
taken steps to achieve or have implemented plans for sustainable production and consumption and
have kept the impacts of use of natural resources well within safe ecological limits.
Strategies and priority actions relating to sustainable production and use of biological resources
have been included in the set of strategies related to management of forests, rangelands, wetlands,
mountains and agrobiodiversity. Strategies such as, promoting scientific management of forests to
improve forest productivity, biodiversity conservation, and climate resilience; supporting and
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improving community based forest governance and management; and promoting sustainable
management of NTFPs are examples of forest management strategies related to this target.
The rangeland management strategy includes development of appropriate legislation for
conservation and sustainable use of rangelands biodiversity. The strategy for management of
wetland biodiversity has recommended for development of a national programme for conservation
and wise use of wetlands. The NBSAP has also recommended for further strengthening and
promotion of successful practices initiated by the recently completed Conservation and Sustainable
Use of Wetlands in Nepal project. The strategy for managing mountain biodiversity strives to
enhancing environmental governance to drive green economy. The agrobiodiversity strategy has
included provisions for promotion of indigenous traditional knowledge, skills and practices, and
development and implementation of programmes for improving and promoting local species,
varieties or breeds for contributing to food security.
Aichi Target 5: By 2020, the rate of loss of all natural habitats, including forests, is at least halved
and where feasible brought close to zero, and degradation and fragmentation is significantly
reduced.
Priority action for addressing the drivers of deforestation and forest degradation include: (i)
directing infrastructure expansion into non-forest lands, (ii) controlling illegal harvest and trade of
timber and other forest products through effective enforcement of the law, (iii) promoting and
enhancing alternative livelihoods to reduce demand for agriculture land, (iv) promoting private
forestry and agro-forestry on private and community lands as alternative sources of forest products,
(v) promoting alternatives to woodfuel (e.g. green energy, bio-briquette) and promoting more
efficient forest products utilization technologies such as bio-briquette, improved stoves, particle
board, and improved harvest, storage and processing of NTFPs, and (vi) developing and
implementing plans to significantly reduce forest fires.
Four concrete priority actions have been identified for controlling further loss and degradation of
Siwalik forests by making it a priority strategy of the central and local governments (i.e. DDCs,
VDCs). Some of these actions include: (i) adopting “conservation with the people”, “limited
harvest” and “zero grazing” approach in the management of Siwalik forests, (ii) endorsing
implementing the draft Chure Conservation Strategy, (iii) designing and implementation of
integrated plans for conservation and development of Siwaliks by the relevant DDCs, VDCs, and
municipalities, and (iv) identifying priority areas, and preparing and implementing conservation
plan for more effective implementation of Rastrapati Chure Conservation Programme.
Other key strategies include: (i) removing or legalizing as per the country’s Law, at least 50 percent
of the existing illegal settlements and cultivations in forestland by 2020, and stopping new
encroachment, (ii) stopping mining of stone, gravel and sand from rivers, streams and other areas
within forest, (iii) promoting scientific forest management, (iv) scaling up the impacts of leasehold
forestry, and (v) implementation of PES, and REDD+ where feasible, are other main strategies.
Improvement in contiguity and connectivity of protected area systems is to be achieved through: (i)
establishment and conservation-friendly management of community, co-managed or protected
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ecological corridors, bottlenecks and climate refugia, and (ii) restoration of degraded forest,
rangeland, and wetland habitats located in corridors, bottlenecks and climate refugia.
Improvement in forest and protected area governance and management through: (i) reviewing, and
if necessary, revising the organizational structure and staffing of the DNPWC, (ii) enhancing law
enforcement capacities of the DOF and DNPWC staff, and training to the local communities for
enhancing biodiversity conservation and livelihoods, (iii) Effectively implement the existing forest
and protected area management plans and species conservation plans, and (vi) bringing stronger
commitments and enhancing capacity of front-line DOF and DNPWC staff (rangers) to stop forest
loss and degradation.
Designing and implementation of an integrated landscape management strategy that focuses on
local, community-led actions to solve resource management, biodiversity conservation, and climate
change challenges has been recommended. Identification and promotion of appropriate land use
(e.g. agroforestry, private forestry in marginal lands) and land management systems (e.g. SALT) to
improve biodiversity conservation, control watersheds degradation and reduce pressure on forests is
another key strategy included for management of landscapes. The strategy for controlling
degradation of rangelands includes pastoral development and management through integrated
approach for reducing pressure on rangelands.
Aichi Target 7: By 2020 areas under agriculture, aquaculture and forestry are managed sustainably,
ensuring conservation of biodiversity.
Successful implementation of the NBSAP will promote scientific management of forests for
effective conservation of biodiversity, to maximize the benefits of the forestry sector to the full
potential, and enhancing resilience of forests to negative impacts of climate change. Another key
strategy for management of forest biodiversity includes mandatory inclusion of a biodiversity
chapter in the district, community forest, collaborative forest, and leasehold forest management
plans. The chapter will have specific provisions for conservation and sustainable use of biodiversity,
and DFOs, CFUGs, Collaborative FUGs, and Leasehold FUGs will be implementing those
provisions. If implemented successfully, this strategic action will be crucial in scaling up
biodiversity conservation into broader geographical space, and beyond the protected areas.
The NBSAP aims at prioritizing the conservation and wise use of wetlands located outside
protected areas with meaningful and inclusive participation of local communities. Mismanagement,
over extraction of resources, infestation of invasive species, pollution will be minimized through
sustainable management practices. Sustainable utilization of wetlands will be the integral part of
biodiversity conservation. Comprehensive criteria, such as controlling conversion of wetlands to
other use, prevention of pollution and invasion of alien species and equitable use of water and other
resources will be developed and enforced. Other potential wetland sites will be included in the
Ramsar list.
Aichi Target 8: By 2020, pollution, including from excess nutrients, has been brought to levels that
are not detrimental to ecosystem function and biodiversity.
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The strategy for improving and expanding on-farm conservation supported by strengthening
community based biodiversity management in the form of actions plan in the NBSAP (2014) will
have clearly addressed this by promoting local and appropriate management practices e.g.
encouraging use of compost and green manure and other locally available organic fertilizers;
promoting local GRs, which can fit well with limited chemical fertilizers; promoting locally adapted
species/varieties/breeds that are environment friendly etc. The IPM as an important action has been
proposed in the NBSAP, which will contribute greatly to reduce pollution from excess nutrients.
Aichi Target 9: By 2020, invasive alien species and pathways are identified and prioritized,
priority species are controlled or eradicated, and measures are in place to manage pathways to
prevent their introduction and establishment.
Some of the priority actions provisioned by the NBSAP to control Invasive Alien Species (IAS) by
2020 include: (a) carrying out detail survey of the coverage and research on modes and pathways of
propagation, ecological and economic damage and loss, control measures, and possible uses of at
least five most problematic IAPS that have posed high threat to native species and habitats, (b)
developing and implementing programme to raise awareness of local people on identification of
IAS, their impacts and control techniques, (c) identification and use biological control agents, and
(iv) providing technical assistance to local people in the control and management of IAS.
Department of Plant Resources, NARC and Central Department of Botany, Tribhuwan University
will work closely and in cooperation with international organizations such as the CBD, Global
Invasive Species Information Network, and or Global Invasive Species Programme of
DIVERSITAS to develop Invasive Plant Atlas for identification, early detection, prevention and
management of invasive alien plants.
Aichi Target 10:By 2015, the multiple anthropogenic pressures on coral reefs, and other vulnerable
ecosystems impacted by climate change or ocean acidification are minimized, so as to maintain
their integrity and functioning.
The strategy and priority actions for managing mountain ecosystems and biodiversity are aimed at
conserving critical ecosystems and species and ensuring the continued supply of mountain
ecosystem goods and services that are critical to both upstream and downstream human and other
biological communities.
The NBSAP strategies for the mountains are grouped into two strategic goals, namely: (i) enhanced
understanding of mountain biodiversity and ecosystem services, and (ii) environment-friendly
economic development. Generating and strengthening knowledge on the ecology of mountain
ecosystems; promoting alternative livelihoods opportunities;building infrastructure for green
development; enhancing environmental governance to drive green economy; strengthening
implementation mechanisms; promoting public–private partnerships; andconsolidating diverse
funding mechanisms for biodiversity management, climate change, and sustainable development are
some of the key strategies.
Aichi Target 11: By 2020, at least 17 per cent of terrestrial and inland water, and 10 per cent of
coastal and marine areas, especially areas of particular importance for biodiversity and ecosystem
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services, are conserved through effectively and equitably managed, ecologically representative and
well connected systems of protected areas and other effective area-based conservation measures,
and integrated into the wider landscape and seascapes.
Nepal has already surpassed this target by putting 23.23 percent (i.e. 34,185.62 sq. km) of her land
area under protection. The country does not have any coastal or marine area. Some of the strategies
provisioned by the NBSAP to establish and strengthen ecological connectivity include: (i)
establishment and conservation-friendly management of ecological corridors, bottlenecks and
climate refugia outside protected area, (ii) restoration of degraded forest, rangeland, and wetland
habitats located in corridors, bottlenecks and climate refugia, (iii) facilitation of wildlife movements
between key adjacent habitats, and (iv) designing and implementation of an integrated landscape
management strategy that focuses on local, community-led actions to solve resource management,
biodiversity conservation, and climate change challenges.
Some priority actions to implement the strategies include: (a) identification of important corridors,
bottlenecks and climate refugia across the country (especially, north-south corridors), (b)
development and implementation of conservation oriented forest management plans by local forest
user groups located in the corridors, bottlenecks and climate refugia, (c) awareness raising, and
capacity building of the local forest user groups in the corridors for conservation-friendly
management of the forests, (d) planning and implementation of reforestation and afforestation
programmes by district forest offices and communities to restore degraded sites, (e) expansion of
protected forest where necessary and feasible, and (f) building “overpass and underpass” in key
areas (e.g. along the highway in Barandabhar corridor in Chitwan) to allow free movement of
wildlife species.
Aichi Target 12: By 2020 the extinction of known threatened species has been prevented and their
conservation status, particularly of those most in decline, has been improved and sustained.
The protected area management strategy of the NBSAP has included provision for improvement
and expansion of conservation of priority ecosystems (with highest level of species diversity) and
species (with highest level of endemism and endangerment). This is to be achieved through: (i)
effective implementation of the existing protected area management plans and species conservation
plans, (ii) identification of ecosystems and species needing priority conservation actions, and (iii)
development and implementation of conservation plans for more priority ecosystems and species.
Development and implementation of mechanisms to reduce human-wildlife conflicts is another
important strategy in the NBSAP aimed at protecting threatened species, which is to be achieved
through: (a) reviewing and, if necessary, revising the current policy and administrative procedure
related to compensating the loss and damage of human life and property by wildlife, and (b)
managing and controlling illegal settlements inside protected areas.
The NBSAP has a strategic goal of abating poaching and illegal trade of wildlife parts. This is to be
achieved by bringing stronger commitments and enhancing capacity of front-line staff (rangers) to
stop wildlife crime; heightening coordinated efforts between enforcement agencies; and designing
and implementing more community based programmes to elevate awareness.It has also
recommended restructuring and improving the mandate of the district level Wildlife Crime Control
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Bureau to significantly reduce the illegal trade of flora and fauna from outside protected areas.
Similarly, it includes a strategy and a number of priority actions to prevent the extinction of
threatened and endanger species of crops and animals.
Aichi Target 13: By 2020, the genetic diversity of cultivated plants and farmed and domesticated
animals and of wild relatives, including other socio-economically as well as culturally valuable
species is maintained, and strategies have been developed and implemented for minimizing genetic
erosion and safeguardingtheir genetic diversity.
One of the strategic goals for management of agro-biodiversity included in the NBSAP relates to
improving and expandingthe existing on farm conservation and use of agricultural genetic
resources. A number of priority actions have been recommended to realize this goal. The medium
term strategic goal also includes a provision for furthering strengthening the existing collection,
conservation, rejuvenation, characterization, and documentation capacities of the national Gene
Bank for improved and expanded ex-situ conservation of agricultural genetic resources.Enhanced
networking and collaboration with relevant stakeholders at national, regional and international
levels is another key strategy included in the NBSAP.The strategy for management of forest
biodiversity includes a provision for restoration and recovery of economically and socially valuable
wild species through in-situ and ex-situ conservation actions.
Aichi Target 14: By 2020, ecosystems that provide essential services, including services related to
water, and contribute to health, livelihoods and well-being, are restored and safeguarded, taking into
account the needs of women, indigenous and local communities, and the poor and vulnerable.
The NBSAP strategies to meet this target include: (i) development of legal base for access to
genetic resources and fair and equitable sharing of the benefits, and (ii) development and
institutionalization of a system of payment for ecosystem services, (iii) filling the policy and
legislative gaps related to access and benefit sharing andintellectual property rights,(iv) providing
continuity to documenting traditional knowledge, innovations and practices associated to biological
resources, and (v) protecting traditional knowledge, innovations and practices of indigenous and
local communities.
Restoration of degraded forest, rangeland and wetland habitats inside protected areas; reclaiming
and restoring encroached forestlands and controlling further encroachment; reversing or at least
controlling the loss and degradation of Siwalik forests by making it a priority of the central and
local governments (i.e. DDCs, VDCs); scaling up the coverage and impacts of leasehold forestry;
and implementation of afforestation and reforestation programmes by government line agencies and
user groups are some specific strategies aimed at restoring degraded forest ecosystems.
Aichi Target 15: By 2020, ecosystem resilience and the contribution of biodiversity to carbon
stocks has been enhanced, through conservation and restoration, including restoration of at least 15
per cent of degraded ecosystems, thereby contributing to climate change mitigation and adaptation
and to combating desertification.
The short-term and medium-term strategies of the NBSAP to meet this target include: (i) abating
deforestation and forest degradation, (ii) planning and implementation of reforestation and
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afforestation schemes, (iii) designing and implementation of targeted programmes to promote
agroforestry and private forestry, particularly on marginal and abandoned farmlands, and
(iv)implementation of PES and REDD+ where feasible. A number of priorities for actions have
been indentified to translate the strategies into actions.
Other strategies for mitigating and adapting to the effects of climate change include: (i) developing
knowledge base to broaden temporal and spatial perspectives and possible risks of climate change
on biodiversity, (ii) incorporating climate change adaptation measures in the design and
implementation of biodiversity management programmes, (iii) identifying, conserving and
promoting ecological corridors and landscape connectivity to enable movement of species in the
context of climate change, (iv) envisioning and planning for possible translocation of species that
are restricted to confined habitat types or have low reproductive rates, (v) promoting nonconventional energy sources, such as biogas, solar energy, and small hydropower, where feasible,
(vi) promoting scientific management of production forests, which will help forest managers to
reduce the risk of damage and possible losses from changing climatic conditions and also to
undertake effective mitigation actions, and (v) enhancing the capacities of actors to manage and
learn from climatic events.
Aichi Target 16: By 2015, the Nagoya Protocol on Access to Genetic Resources and the Fair and
Equitable Sharing of Benefits Arising from their Utilization is in force and operational, consistent
with national legislation.
Examples of priority actions recommended in the NBSAP to achieve this target include: (a)
finalization and enactment of Genetic Resources (access, use and sharing of the benefits) Bill in
order to provide legal base for access to genetic resources and the fair and equitable sharing of
benefits arising from their utilization, and (b) development of sui generis legislation for protection
of plant varieties with the aim to provide legal ownership to farmers for their varieties and
knowledge and also substantive rights provided to the farmers by the Agro-biodiversity Policy
2007.
Aichi Target 17: By 2015 each Party has developed, adopted as a policy instrument, and has
commenced implementing an effective, participatory and updated national biodiversity strategy and
action plan.
The Ministry of Forest and Soil Conservation, as the national focal agency for CBD, is in the
process of finalizing the National Biodiversity Strategy and Action Plan (NBSAP). The NBSAP has
been prepared by taking into account of the national needs and Nepal’s obligation to fulfill its
commitment made at theCOP-10 meeting of the CBD held at Aichi of Nagoya, Japan.
Aichi Target 18: By 2020, the traditional knowledge, innovations and practices of indigenous and
local communities relevant for the conservation and sustainable use of biodiversity, and their
customary use of biological resources, are respected, subject to national legislation and relevant
international obligations, and fully integrated and reflected in the implementation of the Convention
with the full and effective participation of indigenous and local communities, at all relevant levels.
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One of the NBSAP strategies to meet this target relates to enacting a new intellectual property rights
legislation by 2018, which would provide legislative measures for prior art, geographical indication
and also adequate protection for indigenous and local communities’ rights by patenting the products
developed by utilizing their bio-cultural heritage including knowledge, innovations and practices.
One of the priority actions identified for protection of traditional knowledge, innovations and
practices of indigenous and local communities is to extend support to the National Foundation for
Development of Indigenous Nationalities and Nepal Federation of Indigenous Nationalities to
protect and promote to traditional knowledge, innovations and practices of indigenous and local
communities relevant for the conservation and sustainable use of biodiversity, and their customary
use of biological resources.
Aichi Target 19: By 2020, knowledge, the science base and technologies relating to biodiversity,
its values, functioning, status and trends, and the consequences of its loss, are improved, widely
shared and transferred, and applied.
The NBSAP’s medium term strategies related to this target are grouped into two broad strategic
goals, namely: (A) reducing the knowledge gap on biodiversity, and (B) establishment of an
efficient Biodiversity Information Management System (BIMS). The specific strategies to meet
these goals include: (i) gradually undertaking comprehensive inventory of ecosystems and species
throughout the country, (ii) building government and civil societies’ ability to gather and synthesize
information necessary for informed decision-making, (iii) establishment of a national BIMS with
clear protocols for data sharing, (iv) setting up of a system where all relevant agencies (including
donor projects) will be required to lay out a plan for how they will contribute their data to the BIMS
and also make the data collected publicly accessible. Moreover, the monitoring and evaluation
strategies, if implemented successfully, will greatly promote evidence based decision making.
Aichi Target 20: By 2020, at the latest, the mobilization of financial resources for effectively
implementing the Strategic Plan 2011-2020 from all sources and in accordance with the
consolidated and agreed process in the Strategy for Resource Mobilization should increase
substantially from the current levels. This target will be subject to changes contingent to resources
needs assessments to be developed and reported by Parties.
The NBSAP has identified eight specific cost categories and 11 possible internal and external
sources of funding for its implementation. Government funding will remain the major source of
funding. Some of the specific sources include: (i) recycling of government revenues collected from
biodiversity-related products and services (such as wood and non-wood forest products, tourism,
trekking, mountaineering fees etc), (ii) donations by private sector, (iii) contributions by NGOs and
CBOs, (iv) investment by private sector (e.g. ecotourism, micro-hydropower), (v) in-kind
cooperation by local communities, (vi) technical assistance by international community, (vii) grants
from bilateral and multi-lateral donor agencies, and (viii) loan from international bodies. NTNCcollected entry fee from visitors has remained and will be one of the main sources of funding for
implementing biodiversity management programmes in the conservation areas. Funding from
REDD+ and other climate change streams is expected to be a major source in future.
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3.4 Summary of National Indicators
Awareness raising (Aichi Target 1)
1. Change in level of participation of women, disadvantaged and indigenous peoples and local
communities in biodiversity conservation activities
2. Number of events organized to raise awareness and capacity development programmes
3. Proportion of DFOs and FUGs giving priority to native and threatened species
4. Number of CEPA materials
5. Change in knowledge, attitude and capacity of stakeholders (government and non government)
towards biodiversity conservation and ecosystem services
6. Changes in number of awareness raising events and infrastructure (such as on-site lecturing,
demonstration and interpretation facilities in protected areas)
7. Changes in number and type of research based publications (books, journal articles, scientific reports,
proceedings of conferences etc)
Integration and incorporation of biodiversity values (Aichi Target 2)
1. Number and proportion of new and revised sectoral and cross-sectoral policies, plans, strategies,
legislations and programmesthat have integrated biodiversity
2. Changes in the accounting systems adopted by NPC and Ministry of Finance while assessing sectoral
contributions to national economy (GDP)
3. Changes in level of funding for conservation agencies and programmes
4. Number of DDC, VDC and municipality integrating biodiversity in respective district and village
development plans
5. Changes in legal status and functioning of the NBCC and capacity of its secretariat
Elimination of Perverse and Promotion of Positive Incentives (Aichi Target 3)
1. Changes in existence, scale and implementation status of perverse and positive incentive measures
2. Number of sectoral polices, plans and legislations harmonized
3. Measures taken to establish and implement a system of proper valuation and accounting of biodiversity
and ecosystem services
Sustainable Production and Consumption (Aichi Target 4)
1. Number of management plans developed and implemented for sustainable production and consumption
of forest, agriculture, rangelands, wetlands and other renewable natural resources
2. Number and proportion of carrying capacity-based species and habitat management plans developed
and implemented by protected areas
3. Number of protected areas having and implementing ecotourism plans
Reducing the Loss, Degradation and Fragmentation of Natural Habitats (Aichi Target 5)
1. Changes in the rate of deforestation and forest degradation
2. Change in patchiness of key forest habitats (e.g. Shape Complexity Index)
3. Change in forest area under encroachment
4. Change in community managed forest area
5. Change in forest area under scientific management
6. Change in number, area and quality of habitat corridors
7. Type and scale of measures taken to control invasive alien species
8. Area reforested/afforested
9. Number of PES and REDD+ schemes implemented and area covered
Sustainable Management of Aquatic Flora and Fauna (Aichi Target 6)
 Numberand coverage of wetlands added to the list of Ramsar sites
 Number and coverage of sustainable wetland management plans developed and implemented
 Type and scale of measures taken to control invasive alien plant and animal species
 Type and scale of measures taken to control pollution of water bodies
 Changes in status of ex-situ conservation of aquatic animals
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Sustainable Management of Agriculture, Aquaculture and Forestry (Aichi Target 7)
1. Change in organic-certified agricultural area
2. Change in status (coverage, number of activities and quality) of community based conservation of
agroiodiversity
3. Change in community managed forest area
4. Change in forest area under scientific management
5. Changes in scale, type and quality of aquaculture management
Reducing Pollution and Excessive Use of Fertilizer(Aichi Target 8)
1. Proportion of farmers in selected sample sites who are using fertilizers, insecticides and pesticides in
prescribed levels
2. Changes in physical and biological conditions of the Ramsar sites and other important wetlands
3. Change in spatial coverage and intensity of water hyacinth and other invasive aquatic plants in selected
wetlands
Controlling, Eradicating and Preventing Invasive Alien Species (Aichi Target 9)
1. Type and number of measures taken to control invasive alien species
2. Number and coverage of strategies and plans developed for management of invasive and alien species
and status of their implementation
Minimizing Impacts of Anthropogenic Pressures and Climate Change on Vulnerable Ecosystems
(Aichi Target 10)
 1. Number of climate resilient plans developed with considering climate risks and implemented by
DNPWC, CA committees, and BZ councils
2. Number and quality of initiatives aimed at conserving critical mountain ecosystems and species
3. Change in level of publications on mountain biodiversity and ecosystem services
4. Initiatives for environment-friendly economic development
5. Number, coverage and quality of forest management plans that have integrated climate change risks and
prescribed measures for mitigation and adaptation of climate change impacts on species and habitats
Conservation of Areas having Particular Importance for Biodiversity and Ecosystem Services (Aichi
Target 11)
1. Number and quality of measures taken to enhance connectivity between adjacent habitats
2. Changes in status of conservation of Middle Mountain ecosystems
3. Change in coverage and quality of landscape management
4. Change in coverage and quality of protected forests
5. Number and coverage of community forests with conservation-friendly management plans and status
of their implementation
Conservation of Threatened Species(Aichi Target 12)
1. Changes in population of threatened animal and plant species
2. Changes in number of poaching events
3. Proportion of DFOs and FUGs giving priority to native and threatened species in seedlings production
and plantation schemes
4. Changes in number of conflicts between threatened fauna and human
5. Number and proportion of threatened species under ex situ conservation
6. Changes in status of threatened species/breeds/varieties of crop, horticulture and livestock
Conservation of Agro-genetic Diversity(Aichi Target 13)
1. Changes in number and trends of conserved local crop landraces and animal breeds
2. Changes in number and quality of plant and animal germplasm collected and stored in the national and
community gene banks
Restoration and Safeguarding of Ecosystems, taking Into Account the Needs of Disadvantaged
Social Groups (Aichi Target 14)
1. Change in number and coverage of leasehold forests
2. Proportion of CFUGs and collaborative groups implementing specific livelihood enhancement
Nepal’s Fifth National Report to the CBD
Page63
programmes
3. Changes in number and quality of NTFP-based and other green micro-enterprises operational at the
local level
4. Change in participation of women and disadvantaged social groups in CBFM
5. Number of NTFP species management plan developed and implemented by DFOs
6. Number of events organized to raise awareness and enhance capacity of women and other
disadvantaged social groups
7. Gender and social inclusion strategies/guidelines for biodiversity management and benefit sharing
8. Participation of local and indigenous peoples in biodiversity conservation and management
Conservation, and Restoration of Degraded Ecosystems to Climate Change Mitigation and
Adaptation and Combating Desertification (Aichi Target 15)
1. Area of degraded forest conserved
2. Number and area of REDD+ schemes/projects
3. Number and area of climate vulnerable watershed restored
4. Status of integration of adaptation measures in landscape/ecosystems/watershed management
Operationalization of the Nagoya Protocol on Access to Genetic Resources by 2015 (Aichi Target 16)
Status of the Genetic Resources (access, use and sharing of the benefits) Bill
Development and Implementation of National Biodiversity Strategy and Action Plan by 2015 (Aichi
Target 17)
1. Status of development and implementation of the NBSAP
2. Number of DDC, VDC and municipality having and implementing local biodiversity management
plans
Respecting the Traditional Knowledge, Innovations and Practices of Indigenous and Local
Communities and Ensuring their Effective Participation at All Relevant Levels (Aichi Target 18)
1. Status of sui generis legislation for protection of plant varieties with the aim to provide legal ownership
to farmers
2. Progress towards ratification and implementation of the Nagoya Protocol on Access to Genetic
Resources
3. Status of the National Intellectual Property Policy
Improving, Sharing, Transferring, and Applying the Science Base and Technologies Relating to
Biodiversity (Aichi Target 19)
1. Status of the Flora of Nepal Project
2. Number and quality of inventory onecosystems and species
3. Number of exploratory surveys conducted in areas with possible existence of endangered wildlife
species
4. Changes in level of funding for biodiversity research and education
5. Changes in status of the National Clearing House Mechanism
6. Establishment and operationalization of National Biodiversity Information Management System
Mobilization of Financial Resources for Effective Implementation of the National Biodiversity
Strategy and Action Plan (Aichi Target 20)
Changes in level of funding for management of forest biodiversity, wetland biodiversity, rangeland
biodiversity and agrobiodiversity
Nepal’s Fifth National Report to the CBD
Page64
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Nepal’s Fifth National Report to the CBD
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ANNEXES
Annex1.1: Nationally assessed status of wildmammals in Nepal
Regionally Extinct (RE)
Pigmy Hog (Porcula salvania)
Critically Endangered (CR)
Blackbuck (Antilope cervicapra), Brown Bear (Ursus arctos), Csorba’s Mouse-eared Myotis (Myotis
csorbai), Great Evening Bat (la io), Grey Wolf (Canis lupus), Indian Chevrotain (Moschiola indica),
Ganges River Dolphin (Platanista gangetica), Tibetan Gazelle (Procapra picticaudata)
Endangered (EN)
Alpine Musk Deer (Moschus chrysogaster), Asian Elephant (Elephas maximus), Bengal Tiger (Panthera
tigris tigris), Black Giant Squirrel (Ratufa bicolour), Chinese Pangolin (Manis pentadactyla), Clouded
Leopard (Neofelis nebulosa), Dhole (Cuon alpines), Fishing Cat (Prionailurus viverrinus), Greater Onehorned Rhino (Rhinoceros unicornis), Harlequin Bat (Scotomanes ornatus), Himalayan Black Bear
(Ursus thibetanus), Himalayan Field Mouse (Apodemus gurkha), Himalayan Pika (Ohotona himalayana),
Himalayan Water Shrew (Chimarrogale himalayica), Hispid Hare (Caprolagus hispidus), Hog Deer
(Axis porcinus), Indian Pangolin (Manis crassicaudata), Red Panda (Ailurus fulgens), Sloth Bear
(Melursus ursinus), Smooth-coated Otter (Lutrogale perspicillata), Snow Leopard (Panthera uncia),
Spotted Linsang (Prionodon pardicolor), Striped Hyaena (Hyaena hyaena), Swamp Deer (Rucervus
duvaucelii), Water Buffalo (Bubalus arnee)
Vulnerable (VU)
Assam Macaque (Macaca assamensis), Axis Deer (Axis axis), Barking Deer (Muntiacus vaginalis),
Bengal Fox (Vulpes bengalensis), Common Leopard (Panthera pardus), Crab-eating Mongoose
(Herpestes urva), Gaur (Bos gaurus), Kiang (Equus kiang), Leopard Cat (Prionailurus bengalensis),
Lynx (Lynx lynx), Mandelli’s Mouse-eared Bat (Myotis sicarius), Nilgai (Boselaphus tragocamelus),
Sambar Deer (Rusa unicolor), Short-winged Pipistrelle (Philetor brachypterus)
Near Threatened (NT)
Andersen’s Leaf-nosed Bat (Hipposideros pomona), Blyth’s Horseshoe Bat (Rhinolophus Lepidus),
Eurasian Otter (Lutra lutra), Ghoral (Naemorhedus goral), Himalayan Tahr (Hemitragus jemlahicus),
Large Indian Civet (Viverra zibetha), Tibetan Tube-nosed Bat (Murina aurata)
Source: Jnyawali et al. (2011)
Nepal’s Fifth National Report to the CBD
Page71
Annex 1.2: Threatened tree species found in the mountains of Nepal
Botanical Name
Abies pindrow
Alnus nitida
Choerospondias
axillaris
Cinnamomum
glaucescens
Crataeva
unilocularis
Elaeocarpus
sphaericus
Larix griffithiana
Carriere
Larix himalaica
Local
Name
Thingre
salla
Utis
Elevation
Range (m)
2100-3600
Region of
Occurrence
West
IUCN Threat
Category
Rare
Reference
1800-2500
West-Central
Rare
Lapsi
1200-1500
Central-East
Rare
Shrestha and Joshi (1996);
Press et al. (2000)
Shrestha and Joshi (1996)
Sugandhak
okila
Siplikan
2000-2500
West-East
1200-1800
Central-East
Rare (GON
protected)
Rare
Rudrakchh
ya
Dhingre
sallo
Langtang
sallo
650-1700
Central-East
Vulnerable
1100-4000
East
Rare
2400-3600
Central
Rare
3200-3400
East
Rare
Magnolia globosa
Michelia champaca
Michelia kisopa
Champ
Champ
600-1300
1400-2800
Central-East
West-East
Endangered
Endangered
Olea ferruginea
Oroxylum indicum
Podocarpus
neriifolius
Olive tree
Tatelo
Gunsi
500-2600
200-1400
800-1500
West
West-East
Central-East
Talauma hodgsonii
Bhalu kath
900-1800
Central-East
Taxus wallichiana
Lauth sallo
Rare
Vulnerable
Endangered;
CITES
Appendix III
Endangered;
CITES
Appendix III
CITES
Appendix II
Rare; CITES
Appendix III
Rare/
Endangered
Tetracentron sinense
2150-3200
East
Ulmus wallichiana
1800-3000
West-Central
Nepal’s Fifth National Report to the CBD
Press et al. (2000)
Press et al. (2000)
Shrestha and Joshi (1996)
Shrestha and Joshi (1996);
Press et al. (2000)
Shrestha and Joshi (1996)
Shrestha and Joshi (1996);
Press et al. (2000)
Shrestha and Joshi (1996)
Shrestha and Joshi (1996);
Press et al. (2000)
Shrestha and Joshi (1996);
Press et al. (2000)
Press et al. (2000)
Shrestha and Joshi (1996)
Page72
Annex 3.1: Protected plant species in Nepal
Scientific Name
Common English
Local Name
IUCN Red CITES Appendix
Name
List Status Status
Species Banned for Collection, Use, Sale, Distribution, Transportation and Export
Angiosperms
Juglans regia
Walnut
Okhar
Orchis latifolia
Orchid
Panch aunle
Piccrohiza kurroa
Gentian
Kutki
II
Species Banned for Export Except for Processed with Permission of Department of Forests
Angiosperms
Cinnamomum glaucescens
Sugandakokila
Cordyceps sinensiss
Yarsagumba
Rauvolfia serpentina
Serpentine
Sarpagandha
VU
II
Valeriana Jatamansi
Spike nard
Jatamansi
Vleriana wallichii
Valerian
Sugandhawal
Gymnosperms
Abies spetabilis
Fir
Talis Patra
NT
Taxus buccata
Himlayan yew
Loth salla
EN
II
Taxus wallichiana
East Himalayan yew
Taxus contorta
West Himalayan yew
Bryophyte
Parmelia spp.
Lichen
Jhyau
Species Banned for Harvest, Transportation and Export for Commercial Purposes
Angiosperms
Acacia catechu
Cutch tree
Khayer
Bombax malabaricum
Silk cotton tree
Simal
Dalbergia latifolia
Rose wood
Satisal
VU
Michellia champaca
Magnolia
Champ
Pterocarpus marsupium
Indian kino tree
Bijaysal
Shorea robusta
Common sal
Sal
Source: Nepal Gazette, 12 February 2001, IUCN ( 2013b). Note: Protection of Walnut is from National Forest Only
Nepal’s Fifth National Report to the CBD
Page73
Annex 3.2: Protected Animal Species of Nepal
Scientific Name
Mammals
Macaca assamensis
Manis pentadactyla
Manis crassicaudata
Caprolagus hispidus
Canis lupus
Ursus arctos
Ailurus fulgens
Prionodon pardicolor
Felis bengalensis
(Prionailurus bengalensis)
Felis lynx (Lynx lynx)
Neofelis nebulosa
Panthera tigris
Panthera uncia
(Uncia uncial)
Elephas maximus
Rhinoceros unicornis
Sus salvanius
Moschus chrysogaster
Cervus duvauceli
Bos gaurus
Bos grunniens
Bubalus arnee
Ovis ammon
Pantholops hodgsoni
Antilope cervicapra
Tetraceros quadricornis
Hyaena hyaena
Platanista gangetica
Birds
Buceros bicornis
Catreus wallichii
Houbaropsis bengalensis
(Eupodotis bengalensis)
Lophophorus impejanus
Ciconia nigra
Ciconia ciconia
Tropan satyra
Common English Name
Local Name
Assam Macaque
Chinese Pangolin
Indian Pangolin
Hispid Hare
Grey Wolf
Brown Bear
Red Panda
Spotted Linsang
Leopard Cat
Asami Rato Bandar
Kalo Salak
Tame Salak
Laghukarna Kharayo
Bwanso
Himali Rato Bhalu
Habre
Silu Biralo
Chari Bagh
Lynx
Clouded Leopard
Royal Bengal Tiger
Snow Leopard
Asian Elephant
One-horned Rhino
Pygmy Hog
Alpine Musk Deer
Swamp Deer
Gaur
Wild Yak
Wild Water Buffalo
Great Tibetan Sheep
Tibetan Antelope
Blackbuck
Four-horned Antelope
Striped Hyaena
South Asian River
Dolphin
Pahan Biralo
Dwanse Chituwa
Pate Bagh
Hiun Chituwa
Hatti
Gainda
Pudke Bandel
Kasturi Mriga
Bahrasingha
Gauri Gai
Chauri Gai
Arna
Nayan
Chiru
Krishnasar
Chauka
Hundar
Shons
Giant Hornbill
Cheer Pheasant
Bengal Florican
Raj Dhanes
Cheer
Khar Mayur
Impeyon Pheasant
Black Stork
White Stork
Crimson-horned
Pheasant
Lesser Florican
Danphe
Kalo Bhundiphor
Seto Bhundiphor
Munal
IUCN Red
List Status
VU
EN
EN
EN
CR
CR
EN
EN
II
II
II
I
I
I
I
I
VU
VU
EN
EN
EN
EN
EN
RE
EN
EN
VU
EN
DD
DD
CR
DD
EN
CR
R
R
R
WV
R
Sypheotides indica
Sano Khar Mayur
R
(Eupodotis indica)
Grus antigona
Saras Crane
Saras
R
Reptiles
Gavialis gangeticus
Gharial Crocodile
Gharial Gohi
Python molurus
Asiatic Rock Python
Ajingar
Varanus flavescens
Golden Monitor Lizard
Sun Gohoro
Source : 1) Chapagain, D and Dhakal, J. 2003; 2) IUCN, 2011; 3) BCN and DNPWC, 2011.
Nepal’s Fifth National Report to the CBD
CITES Appendix
Status
II
I
I
I
I
I
I
I
I
I
I
III
I
I
III
III
I
I
I
I
I
II
I
III
II
II
I
I
I
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