Spatial variability of lacustrine groundwater discharge in the largest urban lake in Asia: Coupled influence from land use and hydrogeology

Spatial variability of lacustrine groundwater discharge in the largest urban lake in Asia: Coupled influence from land use and hydrogeology

Lacustrine groundwater discharge (LGD) has a profound impact on the status of lake ecosystems. The distinct spatial variability of LGD has been acknowledged, but corresponding research has rarely been conducted, especially in urban lakes with changing land use. In this study, the spatial variability...

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Veröffentlicht in:Hydrological processes 2023-07, Vol.37 (7), p.n/a
Hauptverfasser: Sun, Pengbo, Du, Yao, Sun, Xiaoliang, Deng, Yamin, Gan, Yiqun, Ma, Teng
Format: Artikel
Sprache:eng
Schlagworte:
Aquatic ecosystems
Catchment area
Catchments
Changing environments
Discharge
Environmental changes
Geology
Groundwater
Groundwater discharge
Hydrogeology
lacustrine groundwater discharge (LGD)
Lake shores
Lake water
Lakes
Land use
Mass balance
Radon isotopes
Spatial variability
Spatial variations
urban lake
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creator Sun, Pengbo
Du, Yao
Sun, Xiaoliang
Deng, Yamin
Gan, Yiqun
Ma, Teng
description Lacustrine groundwater discharge (LGD) has a profound impact on the status of lake ecosystems. The distinct spatial variability of LGD has been acknowledged, but corresponding research has rarely been conducted, especially in urban lakes with changing land use. In this study, the spatial variability of LGD in Tangxun Lake, the largest urban lake in Asia, was quantitatively estimated using the 222Rn mass balance model. Catchments with different land use and hydrogeological conditions within the study area are divided into five regions. The results revealed three ranges of the LGD rate in five regions: the first range of 25 mm/day (region II: 27.25 ± 8.38 mm/day and region IV: 23.04 ± 7.51 mm/day), the second range of 15 mm/day (region III: 14.16 ± 5.64 mm/day), and the third range of 10 mm/day (region I: 10.61 ± 4.31 mm/day, region V: 9.05 ± 3.60 mm/day). Here, we found that the LGD rate of urban lakes was largely controlled by land use patterns, although it was also inherently affected by hydrogeological conditions, which is consistent with a significant positive correlation between the proportion of impermeable/total surfaces within 1 km of the lakeshore and the LGD rate of the corresponding region. The proposed reason is that the head difference between groundwater and lake water decreases with increasing proportion of impermeable surfaces around the urban lake because of reduced infiltration, leading to the decrease of LGD rate. This study provides new insights into the spatial variability of LGD for lakes in a changing environment. Spatial variability of lacustrine groundwater discharge (LGD) in Asia's largest urban lake was quantified. Spatial variability of LGD was jointly influenced by land use and hydrogeology. The ratio of impermeable/total surface on the lakeshore regulated LGD.
doi_str_mv 10.1002/hyp.14942
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The distinct spatial variability of LGD has been acknowledged, but corresponding research has rarely been conducted, especially in urban lakes with changing land use. In this study, the spatial variability of LGD in Tangxun Lake, the largest urban lake in Asia, was quantitatively estimated using the 222Rn mass balance model. Catchments with different land use and hydrogeological conditions within the study area are divided into five regions. The results revealed three ranges of the LGD rate in five regions: the first range of 25 mm/day (region II: 27.25 ± 8.38 mm/day and region IV: 23.04 ± 7.51 mm/day), the second range of 15 mm/day (region III: 14.16 ± 5.64 mm/day), and the third range of 10 mm/day (region I: 10.61 ± 4.31 mm/day, region V: 9.05 ± 3.60 mm/day). Here, we found that the LGD rate of urban lakes was largely controlled by land use patterns, although it was also inherently affected by hydrogeological conditions, which is consistent with a significant positive correlation between the proportion of impermeable/total surfaces within 1 km of the lakeshore and the LGD rate of the corresponding region. The proposed reason is that the head difference between groundwater and lake water decreases with increasing proportion of impermeable surfaces around the urban lake because of reduced infiltration, leading to the decrease of LGD rate. This study provides new insights into the spatial variability of LGD for lakes in a changing environment. Spatial variability of lacustrine groundwater discharge (LGD) in Asia's largest urban lake was quantified. Spatial variability of LGD was jointly influenced by land use and hydrogeology. 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Here, we found that the LGD rate of urban lakes was largely controlled by land use patterns, although it was also inherently affected by hydrogeological conditions, which is consistent with a significant positive correlation between the proportion of impermeable/total surfaces within 1 km of the lakeshore and the LGD rate of the corresponding region. The proposed reason is that the head difference between groundwater and lake water decreases with increasing proportion of impermeable surfaces around the urban lake because of reduced infiltration, leading to the decrease of LGD rate. This study provides new insights into the spatial variability of LGD for lakes in a changing environment. Spatial variability of lacustrine groundwater discharge (LGD) in Asia's largest urban lake was quantified. Spatial variability of LGD was jointly influenced by land use and hydrogeology. 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source Wiley Online Library Journals Frontfile Complete
subjects Aquatic ecosystems
Catchment area
Catchments
Changing environments
Discharge
Environmental changes
Geology
Groundwater
Groundwater discharge
Hydrogeology
lacustrine groundwater discharge (LGD)
Lake shores
Lake water
Lakes
Land use
Mass balance
Radon isotopes
Spatial variability
Spatial variations
urban lake
title Spatial variability of lacustrine groundwater discharge in the largest urban lake in Asia: Coupled influence from land use and hydrogeology
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