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A DISTRIBUTED MODEL OF SNOWMELT PROCESSES (ON EXAMPLE OF VOTKINSKOE RESERVOIR CATCHMENT AREA)
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Komlev A.M. The rivers of Perm Krai. Russia, Perm, 2011. P. 144.
Kuzmin P.P. The process of snowmelt. USSR, Leningrad, 1961. P. 346.
Lebedeva N.D. The method of short-term forecasting of the unit hydrograph of water inflow to the Kamskaya hydropower station reservoir. The works of Central forecasting institute. USSR, Moskow, 1963, vol. 130, pp. 87-125.
Shikhov A.N, and Sviyazov E.M. The forecasting of snowmelt dynamics on the Western Ural, using the WRF/ARW mesoscale model. The modern problems of science and education, Russia. 2013, vol.4. URL: www.science-education.ru/110-9962 .
Shutov V.A. The methods of analysis of spatial variability of snow water equivalent. Izvestiya of Russian Academy of Sciense, geographical series, Russia. 1998, vol. 1, pp 122-132.
Kuchment L.S., Romanov P., Gelfan A.N., Demidov V.N. Use of satellite-derived data for characterization of snow cover and simulation of snowmelt runoff through a distributed physically based model of runoff generation // HESS (Eur opean geoscience union), 2010, vol. 14, PP 339-350.
Wigmosta, M.S., Nijssen B, and Storck P. The Distributed Hydrology Soil Vegetation Model // Mathematical Models of Small Watershed Hydrology and Applications (USA), 2002, pp 7 – 42.
Komlev A.M. The rivers of Perm Krai. Russia, Perm, 2011. P. 144.
Kuzmin P.P. The process of snowmelt. USSR, Leningrad, 1961. P. 346.
Lebedeva N.D. The method of short-term forecasting of the unit hydrograph of water inflow to the Kamskaya hydropower station reservoir. The works of Central forecasting institute. USSR, Moskow, 1963, vol. 130, pp. 87-125.
Shikhov A.N, and Sviyazov E.M. The forecasting of snowmelt dynamics on the Western Ural, using the WRF/ARW mesoscale model. The modern problems of science and education, Russia. 2013, vol.4. URL: www.science-education.ru/110-9962 .
Shutov V.A. The methods of analysis of spatial variability of snow water equivalent. Izvestiya of Russian Academy of Sciense, geographical series, Russia. 1998, vol. 1, pp 122-132.
Kuchment L.S., Romanov P., Gelfan A.N., Demidov V.N. Use of satellite-derived data for characterization of snow cover and simulation of snowmelt runoff through a distributed physically based model of runoff generation // HESS (Eur opean geoscience union), 2010, vol. 14, PP 339-350.
Wigmosta, M.S., Nijssen B, and Storck P. The Distributed Hydrology Soil Vegetation Model // Mathematical Models of Small Watershed Hydrology and Applications (USA), 2002, pp 7 – 42.
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