Email this article Assessment of runoff, water and sediment quality in the Selenga River basin aided by a web-based geoservice
- Authors: Karthe D.1,2, Chalov S.3, Moreido V.4, Pashkina M.3, Romanchenko A.3, Batbayar G.1, Kalugin A.4, Westphal K.1, Malsy M.5, Flörke M.5
-
Affiliations:
- Helmholtz Centre for Environmental Research
- The Faculty of Geoscience and Geography
- Faculty of Geography
- Water Problems Institute
- Center for Environmental Systems Research
- Issue: Vol 44, No 3 (2017)
- Pages: 399-416
- Section: Water Resources and the Regime of Water Bodies
- URL: https://journals.rcsi.science/0097-8078/article/view/174197
- DOI: https://doi.org/10.1134/S0097807817030113
- ID: 174197
Cite item
Open Access
Access granted
Subscription Access
Abstract
The Selenga River is the main artery feeding Lake Baikal. It has a catchment of ~450000 km² in the boundary region between Northern Mongolia and Southern Siberia. Climate, land use and dynamic socioeconomic changes go along with rising water abstractions and contaminant loads originating from mining sites and urban wastewater. In the future, these pressures might have negative impacts on the ecosystems of Lake Baikal and the Selenga River Delta, which is an important wetland region in itself and forms the last geobiochemical barrier before the Selenga drains into Lake Baikal. The following study aims to assess current trends in hydrology and water quality in the Selenga-Baikal basin, identify their drivers and to set up models (WaterGAP3 framework and ECOMAG) for the prediction of future changes. Of particular relevance for hydrological and water quality changes in the recent past were climate and land use trends as well as contaminant influx from mining areas and urban settlements. In the near future, additional hydrological modifications due to the construction of dams and abstractions/water diversions from the Selenga’s Mongolian tributaries could lead to additional alterations.
About the authors
Daniel Karthe
Helmholtz Centre for Environmental Research; The Faculty of Geoscience and Geography
Author for correspondence.
Email: daniel.karthe@ufz.de
Germany, Magdeburg, 39114; Göttingen, 37077
Sergey Chalov
Faculty of Geography
Email: daniel.karthe@ufz.de
Russian Federation, Moscow, 119991
Vsevolod Moreido
Water Problems Institute
Email: daniel.karthe@ufz.de
Russian Federation, Moscow, 119333
Margarita Pashkina
Faculty of Geography
Email: daniel.karthe@ufz.de
Russian Federation, Moscow, 119991
Anna Romanchenko
Faculty of Geography
Email: daniel.karthe@ufz.de
Russian Federation, Moscow, 119991
Gunsmaa Batbayar
Helmholtz Centre for Environmental Research
Email: daniel.karthe@ufz.de
Germany, Magdeburg, 39114
Andrei Kalugin
Water Problems Institute
Email: daniel.karthe@ufz.de
Russian Federation, Moscow, 119333
Katja Westphal
Helmholtz Centre for Environmental Research
Email: daniel.karthe@ufz.de
Germany, Magdeburg, 39114
Marcus Malsy
Center for Environmental Systems Research
Email: daniel.karthe@ufz.de
Germany, Kassel, 34109
Martina Flörke
Center for Environmental Systems Research
Email: daniel.karthe@ufz.de
Germany, Kassel, 34109
Supplementary files
