Kashutina Ekaterina

Position: 
Acting Head of Laboratory
Degree: 
D.Sc.
Phone: 
+7(499)1290474
Email: 
kashutina [at] igras.ru
Department: 
Laboratory of Hydrology

Research interests

Impact of the surface anthropogenic modifications and the climate change on the hydrological processes in the catchment areas and river beds, synchronicity of hydrological and meteorological fields, simulation of the water cycle at the mesoscale level. Diffuse pollution of water bodies. The main areas of research: the Russian Plain, Lena’s watershed and other watersheds of the Arctic Ocean basin

Selected Publications

  1. S. V. Yasinskii, E. V. Venitsianov, E. A. Kashutina, M. V. Sidorova, A. A. Ershova, and I. N. Makeeva. Contribution of microparticles to the transport of pollution by rivers and groundwaters in a large city // IOP Conference Series: Earth and Environmental Science, 834:012047, 2021. DOI: 10.1088/1755-1315/834/1/012047
  2. A. G. Georgiadi and E. A. Kashutina. Hydroclimate characteristics of extreme droughts observed on the   Russian plain since the 1970s // Arid Ecosystems, 11:117–123, 2021. DOI: 10.1134/S2079096121020050
  3. S. V. Yasinskii, E. A. Kashutina, M. V. Sidorova, and A. N. Narykov. Anthropogenic load and the effect of drainage area on the diffuse runoff of nutrients into a large water body: Case study of the Cheboksary reservoir // Water Resources, 47(5):810–827, 2020. DOI: 10.1134/S009780782005022X
  4. A. G. Geordiadi, I. P. Milyukova, and E. A. Kashutina. Contemporary and scenario changes in river runoff in the Don basin // Water Resources, 47(6):913–923, 2020. DOI: 10.1134/s0097807820060068
  5. N. I. Koronkevich, E. A. Kashutina, K. S. Mel'nik, and K. V. Luk'yanov. Modern hydrological changes in the Moskva river basin // Russian Meteorology and Hydrology, 45(8):533–537, 2020. DOI: 10.3103/s1068373920080026
  6. S. V. Yasinsky, N. I. Koronkevich, E. A. Kashutina, M. V. Sidorova, and A. N. Narykov. Diffuse biogenic pollution of water bodies in the Volga river basin — example of Cheboksary reservoir basin // Water Resources Management: Methods, Applications and Challenges, Water Resource Planning, Development and Management, pages 123–152, United States, 2020.
  7. N. I. Koronkevich, E. A. Barabanova, A. G. Georgiadi, S. V. Dolgov, I. S. Zaitseva, and E. A. Kashutina. Assessing the anthropogenic impact on the water resources of Russia // Herald of the Russian Academy of Sciences, 89(3):287–297, 2019. DOI: 10.1134/s1019331619030067
  8. A. G. Georgiadi, N. I. Koronkevich, E. A. Barabanova, E. A. Kashutina, and I. P. Milyukova. Contribution of climatic and anthropogenic factors to changes in the flow of large rivers of the Russian plain and Siberia // Doklady Earth Sciences, 488:1211–1216, 2019. DOI: 10.1134/S1028334X19100106
  9. N. I. Koronkevich, S. V. Dolgov, E. A. Kashutina, and K. S. Mel’nik. Specific features of the formation of water flow and pollution export from agricultural, forest, and urbanized landscapes // Water Resources, 46(S1):S137–S144, 2019. DOI: 10.1134/s0097807819070121
  10. Alexander G. Georgiadi, Еkaterina A. Kashutina, and Irina P. Milyukova. Long-term changes of water flow, water temperature and heat flux of the largest siberian rivers. Polarforschung, 87(2):167–176, 2018. DOI: 10.2312/polarforschung.87.2.167
  11. A. G. Georgiadi, N. I. Koronkevich, E. A. Kashutina, and E. A. Barabanova. Natural climatic and anthropogenic changes in the Volga and the Don rivers runoff. FUNDAMENTAL AND APPLIED CLIMATOLOGY, 2:55–78, 2016. DOI: 10.21513/2410-8758-2016-2-55-78
  12. E. A. Kashutina and N. I. Koronkevich. Impact of changes in the conditions of European Russia forests on annual river runoff // Water Resources, 40(4):371–381, 2013. DOI: 10.1134/s0097807813040064
  13. S. V. Yasinskii and E. A. Kashutina. Effect of regional climate variations and economic activity on changes in the hydrological regime of watersheds and small-river runoff // Water Resources, 39(3):272–293, 2012. DOI: 10.1134/s0097807812020091
  14. A.G. Georgiadi, I.P. Milyukova, E.A. Kashutina. Response of River Runoff in the  Cryolithic Zone of Eastern Siberia (Lena River Basin) to Future Climate Warming // Chapter 10 H. Balzter (ed.), Environmental Change in Siberia: Earth Observation, Field Studies and Modelling, Advances in Global Change Research 40, DOI 10.1007/978-90-481-8641-9_10, © Springer Science+Business Media B.V. 2010, 157-169. DOI: 10.1007/978-90-481-8641-9_10
  15. S.V. Yasinskii, E.M. Gusev, Е.А. Kashutina The efficiency of agrotechnical practices for the control of hydrological processes on small catchment areas during spring snow melting / / Eurasian Soil Science, 2008. № 3. 286-293. DOI: 10.1134/s106422930803006x