Abstract
The present work considers the section of the Mesta River on Bulgarian territory using the integral method for evaluation of climate and anthropogenic impact on the river flow.
The level of this impact is determined by the index K i (flow module), the coefficient C i for the deviation of the average annual water volume Q i from the flow norm Q o and the index h i for the deviation of the average annual rainfall volume H i from the average multi-annual rainfall volume H o .
The dynamics of the average annual flow Q i at two typical hydrometric stations – Yakoruda and Khadzhidimovo, as well as the dynamics of the average annual rainfall for the Yakoruda station was examined for the period 1955–2003.
The data for the considered period 1955–2003 exhibit a decreasing trend of the average annual water volumes dynamics for both stations due to the impact of climate changes in the Mesta River catchment.
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References
Amoros, C., & Tetts, G. (1993). Hydrosysteme fluvieux. Paris: Masson, 330.
Anderson, M.G., & Burst, T.P. (1985). Hydrological forecasting. Chichester: John Wiley and Sons.
Bilger, B. (1992). Global warming: earth at risk. New York: Chelsea Hous Publishers.
Diadovski, I. (1995). Ecological assessment and pollution water flow protection. Sofia: Tilia, p. 240.
Diadovski, I., Petrov, M., Ilkova, T., & Ivanov., I. (2005). A model for the Mesta river pollution assessment based on the integral indices. Chemical and Biochemical Engineering Quarterly, Zagreb, 3, 291–296.
Diadovski, I., & Bratanova-Doncheva, S. (2001). Conception and Measures for integrated water quality management. Journal of Balkan Ecology, 7(3), 211–216.
Diadovski, I., & Bratanova-Dontcheva, S. (2000). Integrated ecological indices and criteria for assessment of anthropogenic impact on river ecosystems. Proceeding of the international Symposium in ecology, Bourgas, 2000, 163– 169.
Diadovski, I., Petrov, M., Brankova, L., & Bournaski, E. (2004). Integral pollution assessment of the Mesta River in Bulgaria. Journal of Environmental Protection and Ecology, 5(3), 487–494.
Diadovski, I., Bratanova-Doncheva, S., Raykovska, Y., de Pauw, N., & Rousseau, D. (2004). Integral assessment of economic activity impact on river flow formation. Journal of Balkan Ecology, 7(2), 2004.
Frecaut, R., & Pagney, P. (1983). Dinamique des climates et de l'ecoulement fluvial. Paris: Masson.
Herschy, R.W., & Fairbridge, R. (1998). Encyclopedia of hydrology and water researches. Dordrecht: Kluwer Acad. Publ., 324.
Ivanov, I., Diadovski, I., Bournaski, E., & Tetkov, R. (2004). The transboundary Mesta river water use and preservation in according to the requirements of the EU Water Framework Directive. Proceedings, Sofia, 250.
Mandadjiev, D. (1991). Assessment of the water research in Bulgaria. Disertation, 330.
McGuen, R.H. (1989). Hydrologic analysis and design. New York: Prentice Hall.
Meybeck, M., de, G., & Fustec, E. (1998). La Seine et son bassin. Paris: Elsevier, 732.
Silver, C.S., & Defries, R.S. (1990). One earth, one future: our changing global environmental, national academy of science. Washington, D.C.: National Academy Press.
Sing, V. (1995). Environmental hydrology. Dordrecht: Cluver Acad. Publ., 368.
Tardy, Y. (1986). Le cycle de l'eau, climats, paleoclimats et geochimie global. Paris: Masson.
Ward, A., & Elliot W. (1998). Environmental hydrology. New York: Levis publishers, 360.
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Diadovski, I.K., Atanassova, M.P. & Ivanov, I.S. Integral assessment of climate impact on the transboundary Mesta River flow formation in Bulgaria. Environ Monit Assess 127, 383–388 (2007). https://doi.org/10.1007/s10661-006-9287-5
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DOI: https://doi.org/10.1007/s10661-006-9287-5