Applying multivariate statistics for identification of groundwater chemistry and qualities in the Sugan Lake Basin, Northern Qinghai-Tibet Plateau, China

被引:0
作者
XIANG Juan [1 ]
ZHOU Jun-ju [1 ]
YANG Jun-cang [2 ]
HUANG Mei-hua [1 ]
FENG Wei [1 ]
LI Qiao-qiao [1 ]
XUE Dong-xiang [1 ]
ZHAO Ya-ru [1 ]
ZHU Guo-feng [1 ,3 ]
机构
[1] College of Geography and Environmental Science, Northwest Normal University
[2] Geological Environmental Monitoring Institute of Gansu Province
[3] State Key Laboratory of Cryosphere Science, Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences
来源
Journal of Mountain Science | 2020年 / 17卷 / 02期
基金
中国国家自然科学基金;
关键词
Hydrochemistry; Groundwater; Water quality assessment; Sugan Lake Basin; Water quality; Tibet;
D O I
暂无
中图分类号
X824 [水质评价]; P641.3 [水文地球化学];
学科分类号
071012 ; 0713 ; 0818 ; 081803 ; 083002 ;
摘要
The Sugan Lake Basin is located in the inland arid region of northwestern China,in which groundwater is of great significance to human and ecology.Therefore,it is necessary to understand the chemical characteristics and quality of groundwater in the basin.Based on samples collected from 35 groundwater wells in Sugan Lake Basin,the spatial distribution characteristics of groundwater chemistry,main hydrogeochemical processes and groundwater quality have been discussed in this paper by using the multivariate statistics and hydrochemistry analysis methods.The results showed that the groundwater is weakly alkaline,and its total dissolved solid(TDS)and total hardness(TH) are high,with the average values of 1244.03 mg/L and 492.10 mg/L,respectively.The types of groundwater are mainly HCO3~--SO42--Ca2+type in the runoff area and Cl~--SO42--Na~+type in the catchment area.Rock weathering and ion exchange are the main controlling factors of regional groundwater chemistry,followed by evaporative crystallization,and human activities have less impact on groundwater.The spatial difference of groundwater quality is obvious,the water quality of the catchment area is not suitable for drinking,and the suitability for plant growth is also poor.The groundwater in the runoff area can be used for drinking,but the hardness is slightly higher,which is more suitable for ecological purpose.
引用
收藏
页码:448 / 463
页数:16
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共 28 条
  • [1] Hydrochemical Characteristics and Solute Dynamics of Meltwater Runoff of Urumqi Glacier No.1;Eastern Tianshan;Northwest China.[J]..Journal of Mountain Science.2012, 04
  • [2] Groundwater chemistry and human health risk assessment in the mining region of East Singhbhum; Jharkhand; India.[J].Umesh Kumar Singh;A.L. Ramanathan;V. Subramanian.Chemosphere.2018,
  • [3] A regional scale investigation on factors controlling the groundwater chemistry of various aquifers in a rapidly urbanized area: A case study of the Pearl River Delta.[J].Guanxing Huang;Chunyan Liu;Jichao Sun;Ming Zhang;Jihong Jing;Liangping Li.Science of the Total Environment.2018,
  • [4] Identification of the hydrogeochemical processes and assessment of groundwater in a semi-arid region using major ion chemistry: A case study of Ardestan basin in Central Iran.[J].Kaveh Pazand;Davoud Khosravi;Mohammad Reza Ghaderi;Mohammad Reza Rezvanianzadeh.Groundwater for Sustainable Development.2018,
  • [5] Hydrogeochemical processes between surface and groundwaters on the northeastern Chinese Loess Plateau: Implications for water chemistry and environmental evolutions in semi-arid regions.[J].Fei Zhang;Zhangdong Jin;Jimin Yu;Yunkai Zhou;Ling Zhou.Journal of Geochemical Exploration.2015,
  • [6] Hydrogeochemistry of high-fluoride groundwater at Yuncheng Basin; northern China.[J].Chengcheng Li;Xubo Gao;Yanxin Wang.Science of the Total Environment.2015,
  • [7] The role of anthropogenic and natural factors in shaping the geochemical evolution of groundwater in the Subei Lake basin; Ordos energy base; Northwestern China.[J].Fei Liu;Xianfang Song;Lihu Yang;Dongmei Han;Yinghua Zhang;Ying Ma;Hongmei Bu.Science of the Total Environment.2015,
  • [8] Hydrochemical characteristics; controlling factors and solute sources of groundwater within the Tarim River Basin in the extreme arid region; NW Tibetan Plateau.[J].J. Xiao;Z.D. Jin;J. Wang;F. Zhang.Quaternary International.2015,
  • [9] Hydrochemical evolution and groundwater flow processes in the Galilee and Eromanga basins; Great Artesian Basin; Australia: A multivariate statistical approach.[J].Claudio E. Moya;Matthias Raiber;Mauricio Taulis;Malcolm E. Cox.Science of the Total Environment.2015,
  • [10] Multivariate statistical analysis of hydrochemical data to assess alluvial aquifer–stream connectivity during drought and flood: Cressbrook Creek; southeast Queensland; Australia.[J].A. C. King;M. Raiber;M. E. Cox.Hydrogeology Journal.2014, 2
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