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Basin approach to evaluation of human impact on the environment in oil production regions

Authors: O.P. Yermolaev, B.M. Usmanov (Kazan (Volga Region) Federal University, RF, Kazan), O.E. Mishanina, E.V. Khisamutdinova (TatNIPIneft, RF, Bugulma)

Key words: basin approach, human impact, integral assessment, 3D analysis, geo-information systems, environment, use of natural resources.

The article demonstrates efficiency of basin approach to environmental area assessment based on Tatneft’s experience. Basin approach when used in combination with 3D geo-information analysis techniques enables to evaluate human impact on the environment, extent of landscape disturbance as well as impact of particular industries.
References
1. Yermolaev O.P., Assessment of the suspended sediment yield in the rivers'
basin of the Russian Plain, World Applied Sciences Journal 27 (5): 626-631,
2013.
2. Trofimov A.M., Rubtsov V.A., Ermolaev O.P., Regional'nyy geoekologicheskiy
analiz (Regional geo-ecological analysis), Kazan': Brig Publ., 2009, 270 p.
3. Yermolaev O.P., Erosion processes of the forest and forest-steppe zones in
the eastern part of the Russian Plain, World Applied Sciences Journal, 2014, 29 (3), pp. 453-459.
4. Yermolaev O., Avvakumova A., Cartographic-geoinformational estimation
of spatio-temporal erosion dynamics of arable soils in forest-steppe landscapes of the Russian Plain, IAHS-AISH Publication, 2012, V. 356, pp. 332-337.
5. Ermolaev O.P., Mal'tsev K.A., Ivanov M.A., Automated plotting of boundaries
of basin geosystems for the Volga Federal District (In Russ.), Geografiya i
prirodnye resursy = Geography and Natural Resources, 2014, no. 3, pp. 32–39.
6. Horton, R.E., Erosional development of streams and their drainage basins: a
hydrophysical approach to quantitative morphology, Geological Society of
America Bulletin, 1945, 56(3), pp. 275-370.
7. Ibragimov N.G., Gareev R.M., Ibatullin R.R. et al., Current status of the
ecosystems in the territory of Tatneft OAO industrial activity (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 2009, no. 5, pp. 108–111.
8. Arkhipov Yu.R. et al., Matematicheskie metody v geografii (Mathematical
methods in Geography), Kazan': Publ. of KSU, 1976, 352 p.
9. Boyko F.F., Change in Tatar ASSR forest cover as a result the human impact (In Russ.), Collected papers “Problemy otraslevoy i kompleksnoy geografii” (Problems of industrial and complex geography), Kazan': Publ. of KSU, 1976, pp. 179–184.
10. Kuznetsov V.I., Milyaev V.B., Tarakanov A.O., Matematicheskiy apparat
kompleksnoy ekologicheskoy otsenki (The mathematical apparatus of integrated environmental assessment), St. Petersburg: Publ. of NII Okhrany Atmosfernogo Vozdukha, 1998, 75 p.
11. Viktorov A.S., Matematicheskaya morfologiya landshafta (Mathematical
morphology of landscape), Moscow: Tratek Publ., 1998, 180 p.

Key words: basin approach, human impact, integral assessment, 3D analysis, geo-information systems, environment, use of natural resources.

The article demonstrates efficiency of basin approach to environmental area assessment based on Tatneft’s experience. Basin approach when used in combination with 3D geo-information analysis techniques enables to evaluate human impact on the environment, extent of landscape disturbance as well as impact of particular industries.
References
1. Yermolaev O.P., Assessment of the suspended sediment yield in the rivers'
basin of the Russian Plain, World Applied Sciences Journal 27 (5): 626-631,
2013.
2. Trofimov A.M., Rubtsov V.A., Ermolaev O.P., Regional'nyy geoekologicheskiy
analiz (Regional geo-ecological analysis), Kazan': Brig Publ., 2009, 270 p.
3. Yermolaev O.P., Erosion processes of the forest and forest-steppe zones in
the eastern part of the Russian Plain, World Applied Sciences Journal, 2014, 29 (3), pp. 453-459.
4. Yermolaev O., Avvakumova A., Cartographic-geoinformational estimation
of spatio-temporal erosion dynamics of arable soils in forest-steppe landscapes of the Russian Plain, IAHS-AISH Publication, 2012, V. 356, pp. 332-337.
5. Ermolaev O.P., Mal'tsev K.A., Ivanov M.A., Automated plotting of boundaries
of basin geosystems for the Volga Federal District (In Russ.), Geografiya i
prirodnye resursy = Geography and Natural Resources, 2014, no. 3, pp. 32–39.
6. Horton, R.E., Erosional development of streams and their drainage basins: a
hydrophysical approach to quantitative morphology, Geological Society of
America Bulletin, 1945, 56(3), pp. 275-370.
7. Ibragimov N.G., Gareev R.M., Ibatullin R.R. et al., Current status of the
ecosystems in the territory of Tatneft OAO industrial activity (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 2009, no. 5, pp. 108–111.
8. Arkhipov Yu.R. et al., Matematicheskie metody v geografii (Mathematical
methods in Geography), Kazan': Publ. of KSU, 1976, 352 p.
9. Boyko F.F., Change in Tatar ASSR forest cover as a result the human impact (In Russ.), Collected papers “Problemy otraslevoy i kompleksnoy geografii” (Problems of industrial and complex geography), Kazan': Publ. of KSU, 1976, pp. 179–184.
10. Kuznetsov V.I., Milyaev V.B., Tarakanov A.O., Matematicheskiy apparat
kompleksnoy ekologicheskoy otsenki (The mathematical apparatus of integrated environmental assessment), St. Petersburg: Publ. of NII Okhrany Atmosfernogo Vozdukha, 1998, 75 p.
11. Viktorov A.S., Matematicheskaya morfologiya landshafta (Mathematical
morphology of landscape), Moscow: Tratek Publ., 1998, 180 p.


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