TY - JOUR
T1 - Biogeochemical characteristics of the Hövsgöl–Ustilimsk water system in Mongolia and Russia
T2 - the effect of environmental factors on dissolved chemical components
AU - Hosoda, Ko
AU - Murata, Takahiro
AU - Mochizuki, Akihito
AU - Katano, Toshiya
AU - Tanaka, Yuji
AU - Mimura, Tetsuro
AU - Mitamura, Osamu
AU - Nakano, Shin ichi
AU - Sugiyama, Yuko
AU - Satoh, Yasuhiro
AU - Watanabe, Yasunori
AU - Dulmaa, Ayuriin
AU - Ayushsuren, Chananbaatar
AU - Ganchimeg, Darmaa
AU - Drucker, Valentin V.
AU - Fialkov, Vladimir A.
AU - Sugiyama, Masahito
N1 - Funding Information:
The authors thank the staff members of the Baikal Museum and the Limnological Institute, Siberian Branch of the Russian Academy of Sciences, and the Institute of Biology, Mongolian Academy of Sciences for their generous collaboration. We appreciate the supporting staff for the field survey on the Hövsgöl–Baikal–Yenisei water system, including the crew members of the R/V Trescov on Lake Baikal for their kind cooperation with sample collection. This study was supported partly by JSPS (Japan) KAKENHI grant numbers 18255001 and 21255002. In this research, we observed the laws and regulations of Mongolia, Russia, and Japan.
Funding Information:
The authors thank the staff members of the Baikal Museum and the Limnological Institute, Siberian Branch of the Russian Academy of Sciences, and the Institute of Biology, Mongolian Academy of Sciences for their generous collaboration. We appreciate the supporting staff for the field survey on the Hövsgöl–Baikal–Yenisei water system, including the crew members of the R/V Trescov on Lake Baikal for their kind cooperation with sample collection. This study was supported partly by JSPS (Japan) KAKENHI grant numbers 18255001 and 21255002. In this research, we observed the laws and regulations of Mongolia, Russia, and Japan.
Publisher Copyright:
© 2022, The Author(s) under exclusive licence to The Japanese Society of Limnology.
PY - 2022/4
Y1 - 2022/4
N2 - The objective of this study is to clarify the biogeochemical characteristics of the Hövsgöl–Ustilimsk water system in Mongolia and Russia. For this purpose, we measured dissolved major elements, minor elements, and nutrients in surface water throughout the system. Calcium ions and HCO3 + 2CO3 were the dominant cations and anions in Lake Hövsgöl, respectively. As the water flows down from Lake Hövsgöl to the Egiin Gol and Selenga Rivers in Mongolia, the water quality derived from carbonate rock was found to be influenced by river confluences. In the Selenga River in Russia, major elements were diluted with low-salinity waters from the tributaries. At the boundaries between the Angara River and Bratsk or Ustilimsk Reservoirs, the behaviors of nutrients were affected by the transition of the water area from a riverine zone to a lacustrine zone. Although the composition of cations and anions changes gradually as river water flows further downstream, the water type remains to be Ca–HCO3 throughout the system. Thus, it can be concluded that the fundamental water quality of this system was determined in northern Mongolia, the source area of this water system, and that the environmental factors such as the climate, geology and, geography in its basin from Hövsgöl to Ustilimsk regulated the dissolved chemical components.
AB - The objective of this study is to clarify the biogeochemical characteristics of the Hövsgöl–Ustilimsk water system in Mongolia and Russia. For this purpose, we measured dissolved major elements, minor elements, and nutrients in surface water throughout the system. Calcium ions and HCO3 + 2CO3 were the dominant cations and anions in Lake Hövsgöl, respectively. As the water flows down from Lake Hövsgöl to the Egiin Gol and Selenga Rivers in Mongolia, the water quality derived from carbonate rock was found to be influenced by river confluences. In the Selenga River in Russia, major elements were diluted with low-salinity waters from the tributaries. At the boundaries between the Angara River and Bratsk or Ustilimsk Reservoirs, the behaviors of nutrients were affected by the transition of the water area from a riverine zone to a lacustrine zone. Although the composition of cations and anions changes gradually as river water flows further downstream, the water type remains to be Ca–HCO3 throughout the system. Thus, it can be concluded that the fundamental water quality of this system was determined in northern Mongolia, the source area of this water system, and that the environmental factors such as the climate, geology and, geography in its basin from Hövsgöl to Ustilimsk regulated the dissolved chemical components.
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U2 - 10.1007/s10201-021-00694-8
DO - 10.1007/s10201-021-00694-8
M3 - Article
AN - SCOPUS:85122234853
SN - 1439-8621
VL - 23
SP - 385
EP - 402
JO - Limnology
JF - Limnology
IS - 2
ER -