Abstract
A complete understanding of groundwater circulation as well as the transport and distribution of solutes in arid-semiarid basin regions is a prerequisite for the safe use of groundwater resources. The distributions of the groundwater flow systema and solutes are affected by the basin morphology, lithology, and climate variations; therefore, they can change over geologic time. In this study, we performed a case study of the Qaidam Basin in the northeastern Tibetan Plateau, in which we utilized reactive solute transport simulations to build a numerical model in TOUGHREACT for a typical section of the eastern Qaidam Basin since the last glacial period. The results show that the groundwater in the eastern Qaidam Basin developed into a three-level groundwater flow system and that the seepage velocity of the local water flow system is significantly higher than that of the intermediate and regional water flow systems. Although groundwater in the discharge region has been continuously concentrated and enriched since the last glacial period, the distributions of the groundwater flow system and solutes have been greatly affected by climate variations. During warm periods, the centres of groundwater discharge and solute concentration shifted to areas with more groundwater recharge; in contrast, both centres shifted to the central basin during drought periods. The groundwater in the basin mainly contains Na+and Cl−ions, which vary significantly from the recharge region to the discharge region. Evaporation of groundwater results in increases in the concentrations of most of the components except HCO3−. The groundwater in the discharge region is currently in the stage of carbonate precipitation and is far from gypsum and halite precipitation.
Highlights
As an important component of water resources, groundwater is the main and sometimes only source of water in the arid and semiarid regions of China
Based on the simulation results, we identify multiple levels of the groundwater flow system and present the distribution of the solutes in the groundwater during different geological periods
The variation in the simulated total dissolved solids (TDS) is smaller, they have the same trends from the shallow to the deep aquifers
Summary
As an important component of water resources, groundwater is the main and sometimes only source of water in the arid and semiarid regions of China. The reasonable development and utilization of groundwater resources has become the main factor affecting the sustainable development of local economies, and water security is a significant issue that China urgently needs to address [2]. In recent years, global climate warming has significantly influenced the Qaidam Basin, Geofluids making it the region experiencing the most significant climate changes in the Tibetan Plateau [4]. These changes have considerably influenced the local water resources [4,5,6]. A comprehensive understanding of the groundwater flow in the Qaidam Basin is key to the reasonable development and utilization of local water resources
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
