Debreceni Egyetem A környezetgazdálkodási mérnöki, illetve a természetvédelmi és vadgazda mérnöki alapképzési (BSc) szakok képesítési követelményeinek kidolgozása, a szakok beindítása. HEFOP- 3.3.1-P.-2004-09-0071/1.0 projekt Course description 1. Title of the course: Water management, hydrology 2. Name and title of the lecturer: 3. Name of the degree programme: Bsc. in nature conservation 4. Type of course: compulsory (A) 5. Schedule of education: 2+0 (14 weeks, 2 lessons/week) 6. Credit value of the course: 2 7. Educational objective: Review of technological practices, activities of water management concerning agriculture and environmental management Review of theoretical knowledge and exercises in practice. 8. Personnel background: lecturer: Csaba Juhász Dr. habil 9. Course content: 1. Importance of water, European Water Charta. 2. Water management in Hungary. 3. Basics of hydrology, hydrological cycle. 4. Elements of hydrologic cycle: precipitation, evaporation, infiltration, run off. 5. Surface water types. 6. Subsurface water types. 7. Physical, organoleptic, chemical, biological and microbiological qualification of water, water quality groups. 8. Needs and utilization of water. Water supplement and canalling. Waste water treatment. 9. The effect of agriculture for water pollution. Self purification of watersource. Surface water contamination. Pollution source of surface water. 10. Pollution of still water, eutrophication. Eutrophication control. Debreceni Egyetem Pannon Egyetem Debreceni Egyetem A környezetgazdálkodási mérnöki, illetve a természetvédelmi és vadgazda mérnöki alapképzési (BSc) szakok képesítési követelményeinek kidolgozása, a szakok beindítása. HEFOP- 3.3.1-P.-2004-09-0071/1.0 projekt 11. Pollution sources of underground waters. 12. Basics of geodesy. 13. Soil protection and drainage on hilly areas. 14. Legislation of water management. 10. Mode of assessment during the semester: 11. Type of exam: colloquium at the end of the semester 12. Compulsory practice related to the course: 13. Compulsory and recommended literature: Vermes L. (szerk.) (1997.): Vízgazdálkodás. Mezőgazdasági Szaktudás Kiadó. Budapest. Fehér T.-Horváth J.-Ondruss L. (1986.): Területi vízrendezés. Műszaki Könyvkiadó. Budapest. Somlyódy L. (szerk.) (2000.): A hazai vízgazdálkodás stratégiai kérdései. MTA Vízgazdálkodási Kutatócsoport. Budapest. Thyll Sz. (szerk.) (1992.): Talajvédelem és vízrendezés. Mezőgazda Kiadó. Budapest. 14. Exam themes: 1. Group and define the natural resources! 2. Define water management and its fields! 3. Define the main points of European Water Charta! 4. Define sustainable development and rehears the main rules of it! 5. Define the relationship between sustainable development and economy! 6. Define the main properties of Hungarian water management! 7. Define the specialized sectors of water management! 8. Define hydrologic cycle and its elements! 9. Define water cycle in soils and water volume equation! 10. Define the elements of simple water volume balance! 11. Define the waterflow types of soils at temperate zone! 12. Define water volume and precipitation properties in Hungary! 13. Define evaporation and evapotranspiration! Debreceni Egyetem Pannon Egyetem Debreceni Egyetem A környezetgazdálkodási mérnöki, illetve a természetvédelmi és vadgazda mérnöki alapképzési (BSc) szakok képesítési követelményeinek kidolgozása, a szakok beindítása. HEFOP- 3.3.1-P.-2004-09-0071/1.0 projekt 14. Define run off and agglomeration processes! 15. Define interception and infiltration! 16. Group the surface water types and define them! 17. Group and define underground water types! 18. Analyze the exploitation of underground water types and their present status! 19. Define the methods of water qualification! 20. Define organoleptic properties! 21. Define the physical, chemical and biological methods of water qualification! 22. Define bacteriological water qualification! 23. Define the water quality categories! 24. Describe pollution migration and transport in rivers! 25. Describe self-cleaning process! 26. Define and describe biomagnification! 27. Define and describe sedimentation! 28. Describe the effects of oil pollution! 29. Describe eutrophication! 30. Rehearse and describe the input way of eutrophication regulation! 31. Rehearse and describe the output way of eutrophication regulation! 32. Describe acidification! 33. Rehearse and describe the possible pollution sources of underground waters! 34. Rehearse and describe the pollution types! 35. Describe the transport processes in soils! 36. Describe the oil transport in soils! 37. Describe the roles and parts of geodesy! 38. Define the methods of linear appointing! 39. Define the methods of right angle and base point appointment with doubled angle prism! Debreceni Egyetem Pannon Egyetem Debreceni Egyetem A környezetgazdálkodási mérnöki, illetve a természetvédelmi és vadgazda mérnöki alapképzési (BSc) szakok képesítési követelményeinek kidolgozása, a szakok beindítása. HEFOP- 3.3.1-P.-2004-09-0071/1.0 projekt 40. Define irregular polygon area with dividing it to regular polygons (triangle, quadrangle)! 41. Define irregular polygon area with using theodolite (polarcoordinates)! 42. Describe theodolite and its main parts! 43. Describe the national triangulation grid! 44. Describe the main rules of leveling! 45. Describe national leveling base point network! 46. Rehearse the temporary and definitive appointing gauges! 47. Define erosion and describe erosion types! 48. Define the generating and influencing factors of erosion! 49. Define Wischmeier-Smith soil loss equation! 50. Analyze the role of agrotechnics, technology and forestry in soil protection! 51. Describe trenching! 52. Describe terracing! 53. Define mountain entrapment methods! 54. Define European Water Directive! 55. Define the goals, principles, regulations and force of European Water Directive! 56. Define the main tasks for drinking water supplement based on EU directives! 57. Define the main tasks for waste water treatment and diversion based on EU directives! Debreceni Egyetem Pannon Egyetem