Glacier retreat and its impact on groundwater system evolution in the Yarlung Zangbo source region, Tibetan Plateau

He，Qiule1,2; Kuang，Xingxing2; Chen，Jianxin2; Hao，Yinlei2; Feng，Yuqing2; Wu，Pan3; Zheng，Chunmiao2

2023-06-01

10.1016/j.ejrh.2023.101368

Journal of Hydrology: Regional Studies   影响因子和分区

2214-5818

Study region: Jiemayangzong Glacier basin, source of the Yarlung Zangbo, Tibetan Plateau. Study focus: Mountain groundwater is an important water source to recharge rivers. However, there is still a lack of a suitable “climate-glacier-groundwater” modeling framework to project future changes of glacier and the consequent impacts on evolution of groundwater in the Tibetan Plateau (TP). The groundwater model HydroGeoSphere (HGS) is coupled with the glacier retreat method Δh - parameterization to simulate subglacial meltwater recharge to groundwater (SMRG), precipitation recharge to groundwater (PRG), and total groundwater recharge (TGR) in the Jiemayangzong Glacier basin, source of the Yarlung Zangbo. New hydrological insights for the region: Results show that the volume of the Jiemayangzong Glacier would continuously retreat from 2021 to 2100. For the SSP126 and SSP585 climate change scenarios, the glacier volume would maximum decrease to 26.1% and 14.7% in 2100 (reference ∼ 2021), respectively. The simulated rate of annual SMRG is 24 mm/yr, which accounts for 63% of TGR. SMRG and TGR would decrease to 26% and 73% in 2100 under SSP585 climate change scenarios. Although PRG would continuously increase to 151% for SSP585 in 2100, it could not counteract the loss of SMRG. The change in hydraulic head is significant in the glacier terminus and the aquifer shallow zones (elevation above 4000 m). Glacier retreat results from increasing temperature will seriously affect local groundwater resources, particularly for the SSP585 scenario.

Climate change Glacier retreat Groundwater system evolution HydroGeoSphere Yarlung Zangbo Basin source region

SCI

英语

通讯

National Natural Science Foundation of China[91747204];National Natural Science Foundation of China[92047202];

Water Resources

Water Resources

WOS:001044607300001

ELSEVIER

2-s2.0-85150754278

Scopus

1.School of Environment,Harbin Institute of Technology,Harbin,150090,China
2.School of Environmental Science and Engineering,Southern University of Science and Technology,Shenzhen,China
3.Wuhan Center,China Geological Survey,Wuhan,430205,China

He，Qiule,Kuang，Xingxing,Chen，Jianxin,et al. Glacier retreat and its impact on groundwater system evolution in the Yarlung Zangbo source region, Tibetan Plateau[J]. Journal of Hydrology: Regional Studies,2023,47.

He，Qiule.,Kuang，Xingxing.,Chen，Jianxin.,Hao，Yinlei.,Feng，Yuqing.,...&Zheng，Chunmiao.(2023).Glacier retreat and its impact on groundwater system evolution in the Yarlung Zangbo source region, Tibetan Plateau.Journal of Hydrology: Regional Studies,47.

He，Qiule,et al."Glacier retreat and its impact on groundwater system evolution in the Yarlung Zangbo source region, Tibetan Plateau".Journal of Hydrology: Regional Studies 47(2023).