Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model

Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model

Groundwater guarantees water resources and ecological environment security in semi-arid areas. Studying the chemical evolution of groundwater in semi-arid areas is of great significance to regional ecological environment protection and water resources management. The water storage basin is not only...

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Main Authors: Mingqian Li, Xiujuan Liang, Changlai Xiao, Yuqing Cao, Shuya Hu
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Water
Subjects:
hydrogeochemical evolution
zoning model
semi-arid area
groundwater storage basin
Online Access:https://www.mdpi.com/2073-4441/11/7/1334
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spelling doaj-8f3a05cdcd5a4b108d41cf360d9422012020-11-25T00:37:05ZengMDPI AGWater2073-44412019-06-01117133410.3390/w11071334w11071334Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning ModelMingqian Li0Xiujuan Liang1Changlai Xiao2Yuqing Cao3Shuya Hu4Key Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun 130026, ChinaKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun 130026, ChinaKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun 130026, ChinaKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun 130026, ChinaKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun 130026, ChinaGroundwater guarantees water resources and ecological environment security in semi-arid areas. Studying the chemical evolution of groundwater in semi-arid areas is of great significance to regional ecological environment protection and water resources management. The water storage basin is not only a space for groundwater storage and movement but also a place for water−rock−gas interaction and elemental migration, dispersion, and enrichment. Due to its unique climate and geological environment, the semi-arid water storage basins have different hydrochemical environments, forming a zonal hydrogeochemical character. In this study, a typical semi-arid water storage basin (west of Jilin Province) is taken as an example, through the cross section of the recharge−runoff−excretion zone. A three-level hydrogeochemical zoning model is constructed to reveal the hydrogeochemical evolution of the area. The model is divided into three layers from bottom to top. The first layer shows the geological and hydrogeological conditions, including the topography, lithology, geological time, and hydrodynamic characteristics of the study area. The second layer represents the hydrogeochemical processes, divided into the recharge zone, runoff zone, and discharge zone in the horizontal direction according to the hydrodynamic environment and hydrochemistry type. The hydrogeochemical action gradually changes from lixiviation to cation exchange, evaporation, and concentration, as the landform plays a key role in hydrochemistry formation in the discharge area. The third layer gives the characteristics of the groundwater chemical components, including chemistry type, total dissolved solids, main anion and cation, and characteristic element F. Qualitative and quantitative characterizations of hydrochemistry evolution by reverse simulation and hydrodynamic, hydrochemical and thermodynamic indicators are given.https://www.mdpi.com/2073-4441/11/7/1334hydrogeochemical evolutionzoning modelsemi-arid areagroundwater storage basin
collection DOAJ
language English
format Article
sources DOAJ
author Mingqian Li
Xiujuan Liang
Changlai Xiao
Yuqing Cao
Shuya Hu
spellingShingle Mingqian Li
Xiujuan Liang
Changlai Xiao
Yuqing Cao
Shuya Hu
Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model
Water
hydrogeochemical evolution
zoning model
semi-arid area
groundwater storage basin
author_facet Mingqian Li
Xiujuan Liang
Changlai Xiao
Yuqing Cao
Shuya Hu
author_sort Mingqian Li
title Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model
title_short Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model
title_full Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model
title_fullStr Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model
title_full_unstemmed Hydrochemical Evolution of Groundwater in a Typical Semi-Arid Groundwater Storage Basin Using a Zoning Model
title_sort hydrochemical evolution of groundwater in a typical semi-arid groundwater storage basin using a zoning model
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2019-06-01
description Groundwater guarantees water resources and ecological environment security in semi-arid areas. Studying the chemical evolution of groundwater in semi-arid areas is of great significance to regional ecological environment protection and water resources management. The water storage basin is not only a space for groundwater storage and movement but also a place for water−rock−gas interaction and elemental migration, dispersion, and enrichment. Due to its unique climate and geological environment, the semi-arid water storage basins have different hydrochemical environments, forming a zonal hydrogeochemical character. In this study, a typical semi-arid water storage basin (west of Jilin Province) is taken as an example, through the cross section of the recharge−runoff−excretion zone. A three-level hydrogeochemical zoning model is constructed to reveal the hydrogeochemical evolution of the area. The model is divided into three layers from bottom to top. The first layer shows the geological and hydrogeological conditions, including the topography, lithology, geological time, and hydrodynamic characteristics of the study area. The second layer represents the hydrogeochemical processes, divided into the recharge zone, runoff zone, and discharge zone in the horizontal direction according to the hydrodynamic environment and hydrochemistry type. The hydrogeochemical action gradually changes from lixiviation to cation exchange, evaporation, and concentration, as the landform plays a key role in hydrochemistry formation in the discharge area. The third layer gives the characteristics of the groundwater chemical components, including chemistry type, total dissolved solids, main anion and cation, and characteristic element F. Qualitative and quantitative characterizations of hydrochemistry evolution by reverse simulation and hydrodynamic, hydrochemical and thermodynamic indicators are given.
topic hydrogeochemical evolution
zoning model
semi-arid area
groundwater storage basin
url https://www.mdpi.com/2073-4441/11/7/1334
work_keys_str_mv AT mingqianli hydrochemicalevolutionofgroundwaterinatypicalsemiaridgroundwaterstoragebasinusingazoningmodel
AT xiujuanliang hydrochemicalevolutionofgroundwaterinatypicalsemiaridgroundwaterstoragebasinusingazoningmodel
AT changlaixiao hydrochemicalevolutionofgroundwaterinatypicalsemiaridgroundwaterstoragebasinusingazoningmodel
AT yuqingcao hydrochemicalevolutionofgroundwaterinatypicalsemiaridgroundwaterstoragebasinusingazoningmodel
AT shuyahu hydrochemicalevolutionofgroundwaterinatypicalsemiaridgroundwaterstoragebasinusingazoningmodel
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