Spatial-Temporal Differentiation of Supra- and Sub-Permafrost Groundwater Contributions to River Runoff in the Eurasian Arctic and Qinghai-Tibet Plateau Permafrost Regions

Supra- and sub-permafrost groundwater are the two main components of groundwater in permafrost regions. However, due to the lack of groundwater observational data, the spatial-temporal differentiation of these groundwater components in permafrost basins remains unclear. Based on flow data from 17 hy...

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Bibliographic Details
Published in:Water Resources Research
Main Authors: Wang, Zhiwei, Sun, Shouqin, Wang, Genxu, Song, Chunlin
Format: Report
Language:English
Published: AMER GEOPHYSICAL UNION 2024
Subjects:
permafrost
groundwater components
supra-permafrost groundwater
sub-permafrost groundwater
ungauged basins
FLOW
BASEFLOW
IMPACTS
CLIMATE
SOIL
SITES
THAW
Environmental Sciences & Ecology
Marine & Freshwater Biology
Water Resources
Environmental Sciences
Limnology
Arctic
Yenisei River
lena river
ob river
Online Access:http://ir.imde.ac.cn/handle/131551/57952
https://doi.org/10.1029/2023WR035913
Description
Summary:Supra- and sub-permafrost groundwater are the two main components of groundwater in permafrost regions. However, due to the lack of groundwater observational data, the spatial-temporal differentiation of these groundwater components in permafrost basins remains unclear. Based on flow data from 17 hydrological stations in five permafrost rivers within the Eurasian Arctic and Qinghai-Tibet Plateau permafrost regions, this study tries to determine the proportion of supra- and sub-permafrost groundwater through the corresponding relationship between baseflow separation and baseflow index. The results showed that the annual average contribution of supra- and sub-permafrost groundwater in river runoff to total streamflow in the Yangtze River source basin was 36.81% and 14.56%, respectively. Correspondingly, the Yellow River source basin was 36.58% and 24.46%, the Ob River basin was 37.05% and 26.83%, the Yenisei River basin was 28.80% and 36.56%, and the Lena River basin was 39.13% and 9.54%. Over the past 50-80 years, the ratio of sub-permafrost groundwater discharge to river runoff and the flux of sub-permafrost groundwater have shown an increasing trend in all study basins, which was significantly affected by air temperature and permafrost area. Relative contribution of supra-permafrost groundwater exhibits a significant positive correlation with precipitation and permafrost area. Air temperature has both positive and negative effects on supra-permafrost groundwater discharge, leading to a rising or falling trend of supra-permafrost groundwater discharge. In the future, it is necessary to further explore the complex effects of groundwater discharge variations on streamflow in permafrost regions under climate warming.

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