Litcius/Paper detail

Inter-basin groundwater flow in the Ordos Basin: Evidence of environmental isotope and hydrological investigations

Yitong Zhang, Jiaqi Chen, Jiaqi Chen, Jiansheng Chen, Jiansheng Chen, Wang Wang

2024Geoscience Frontiers14 citationsDOIOpen Access PDF

Abstract

• Mantle-derived helium was found in groundwater in sedimentary basins. • The lakes on the hilltops surrounding the basin receive recharge from sources other than precipitation. • Groundwater in artesian basins receive upwelling recharge through basement faults zone. The Ordos Basin, located in arid and semi-arid region of China, is famous for its abundant groundwater resources and artesian features. The source of groundwater recharge, whether from local precipitation or external sources, has been debated. This study aims to elucidate the groundwater circulation mechanism in the Ordos Basin through scientific expedition, environmental isotope method, and hydrological drilling exploration, providing valuable insights for other artesian basins. Comprehensive analysis indicates that groundwater in the Ordos Basin is recharged by modern precipitation, primarily from high-elevation areas outside the basin. Deep groundwater from these external sources ascends to the aquifer through basement fault zones. Evidence from hydrogen and oxygen isotopes, hydraulic gradients, and water quantities suggests that the Tibetan Plateau is the most potential recharge source. Based on the distribution of Cenozoic basalt and data from seismic observation wells, we propose that leakage water from the Tibetan Plateau rift valley is transported to the Ordos Basin through fast channels, possibly lava tubes, and then upwelling through basement fault zones. This work provides a new perspective on the mechanism of inter-basin groundwater circulation.

Topics & Concepts

Structural basinGeologyGroundwaterGroundwater flowHydrology (agriculture)GeochemistryEarth scienceAquiferGeomorphologyGeotechnical engineeringGroundwater and Isotope GeochemistryGeophysics and Gravity MeasurementsGroundwater flow and contamination studies