Affiliation:
1. School of Environmental Studies, China University of Geosciences, Wuhan 430074, China
2. Wuhan Geological Survey Center, China Geological Survey, Wuhan 430205, China
3. School of Economics and Management, China University of Geosciences, Wuhan 430074, China
4. Langfang Natural Resources Comprehensive Survey Center, China Geological Survey, Langfang 065000, China
Abstract
The Dongting Lake Plain is a major ecological reserve for river and lake wetlands in the Yangtze River Basin, with complex river and lake relationships and frequent water flow exchange. Studies on the hydrochemical characteristics and the mechanism of interaction between groundwater and surface water will actively promote the scientific management, utilization of water resources, and protection of the ecological environment in the Dongting Lake Plain. Based on hydrogeochemical statistics, Gibbs diagrams, ion ratios, rock weathering end-element diagrams, hydrogen–oxygen isotope relationship diagrams, and other technical methods, the chemical characteristics, ion sources, and the distribution of hydrogen–oxygen isotopes of groundwater and surface water in “the Three Inlets” and “the Four Rivers” water system areas as well as the Dongting Lake water were analyzed. Additionally, the interactions between groundwater and surface water and the proportions of these contributions were discussed. The results show that both groundwater and surface water in the Dongting Lake Plain are weakly acidic or alkaline, and the anions are mainly HCO3−, the cations are mainly Ca2+and Mg2+, with the hydrochemical types being mainly HCO3−Ca−Mg and HCO3−Ca. The chemical characteristics of groundwater and surface water are mainly affected by the interaction between water and rock; the ions in surface water mainly come from the weathered dissolution of carbonate and silicate rocks, while the ions in groundwater mainly come from the weathered dissolution of carbonate and silicate rocks, with the dissolution of evaporite rocks locally. Groundwater and surface water are mainly distributed near the local meteoric water line (LMWL), and the slope of the local evaporation line is less than that of the LMWL, which indicates that atmospheric rainfall is an important recharge source for groundwater and surface water and that at the same time, it is affected by evaporation to a certain extent. Part of the groundwater in the Dongting Lake Plain is discharged into the surface rivers in “the Three Inlets” and “the Four Rivers” water system areas, and the other part is directly discharged into Dongting Lake. According to the mass balance relationship of isotopes, the proportions of surface water in “the Three Inlets” and “the Four Rivers” water system areas contributing to Dongting Lake’s water are 18.48% and 60.38%, respectively, and the proportion of groundwater in the lake plain contributing to Dongting Lake water is 21.14%.
Funder
Geological Survey Project of China Geological Survey
Reference56 articles.
1. Water resources research to support as sustainable China;Li;Int. J. Water Resour. Dev.,2018
2. Hydro-chemical characteristics and controlling factors of karst groundwater in middle and upper reaches of Dawen River basin;Gao;Bull. Geol. Sci. Technol.,2022
3. Study on hydro-chemical characteristics and controlling factors of the upper reach of Dagu River basin;Chen;Geol. Rev.,2022
4. Hydro-chemical characteristics of surface water and groundwater in oasis edge in the middle reaches of the Heihe River basin;Wang;Sci. Geogr. Sin.,2022
5. Hydro-chemical and Isotopic Evidence for Groundwater Conversion of Surface Water in Alpine Ard Areas: A Case Study of the Datong River Basin;Yi;Environ. Sci.,2023