Abdulhussein, F.M. Hydrochemical Assessment of Groundwater of Dibdibba Aquifer in Al-Zubair Area,Basra, South of Iraq and its Suitability for IrrigationPurposes. Iraqi J. Sci. 2018, 59, 135–143.
Anantha, R.V .; Chandrakanta, G. Major ion chemistry , hydro-geochemical studies and mapping of variability in ground water quality of Sitanadi basin, Southern Karnataka. Octa J. Environ. Res. 2014, 2, 178–196.
Barzegar, R.; Moghaddam, A.A.; Tziritis, E.; Fakhri, M.S.; Soltani, S. Identification of hydrogeochemical processes and pollution sources of groundwater resources in the Marand plain, northwest of Iran.Environ. Earth Sci. 2017, 76, 297.
BIS (1991) Bureau of Indian Standards - Indian standard specification for drinking water IS: 10500.
Bureau of Quality and Technical Supervision of China. National Standard of the People’s Republic of China:Quality Standard for Groundwater; GB/T 14848-2017; Bureau of Quality and Technical Supervision of China:Beijing, China, 2017. (In Chinese)
Boukhemacha M A, Gogu C R, Serpescu I, Gaitanaru D, Bica I. A hydrogeological conceptual approach to study urban groundwater flow in Bucharest City, Romania[J]. Hydrogeology Journal, 2015, 23(3): 437-450.
Carol, E.S.; Kruse, E.E.; Laurencena, P .C.; Rojo, A.; Deluchi, M.H. Ionic exchange in groundwater hydrochemical evolution. Study case: The drainage basin of El Pescado creek (Buenos Aires province,Argentina).Environ. Earth Sci. 2012, 65, 421–428.
Chang F D,Wang G L,Zhang X L,Zhang H Y,Song J K,Lu C,Feng H C,Ji H J,Li Y Y.Regulation effect of spring irrigation combined with straw interlayer onsaline-alkali soil temperature in Hetao Irrigation District[J].Journal of Plant Nutrition and Fertilizers,2020,26(11):1987-1997.(In Chinese)
Chen C, Gao Z J, Li W, Lu Y,Lv L, Liu Y Q,Deng Q J, Qi X J. Characteristics and possible factors hydrochemistry in the groundwater in Tailai basin [J]. Environmental Chemistry, 2019a, 38(6): 1339-1347.(In Chinese)
Chen, J.; Huang, Q W.; Lin, Y .; Fang, Y .; Qian, H.; Liu, R.; Ma, H. Hydrogeochemical Characteristics and Quality Assessment of Groundwater in an Irrigated Region, Northwest China. Water 2019b, 11(1).
Chen, J.; Qian, H.; Gao, Y .; Li, X. Human Health Risk Assessment of Contaminants in Drinking Water Based on Triangular Fuzzy Numbers Approach in Yinchuan City , Northwest China. Expo. Health 2018, 10, 155–166.
Chen, J.; Wu, H.; Qian, H.; Gao, Y . Assessing nitrate and fluoride contaminants in drinking water and their health risk of rural residents living in a semiarid region of Northwest China. Expo. Health 2017, 9, 183–195.
Christensen, J.N.; Dafflon, B.; Shiel, A.E.; Tokunaga, T.K.; Wan, J.; Faybishenko, B.; Dong, W.; Williams, K.H.;Hobson, C.; Brown, S.T.; et al. Using strontium isotopes to evaluate the spatial variation of groundwater recharge. Sci. T otal Environ. 2018, 637–638, 672–685.
Doneen LD (1962) The influence of crop and soil on percolating waters. In: Schiff L (ed.) Proceedings of the 1961 Biennial conference on Groundwater recharge, pp 156–163.
Duan, L.; Wang, W.K.; Sun, Y .B.; Zhang, C.C. Iodine in groundwater of the Guanzhong Basin, China: Sources and hydrogeochemical controls on its distribution. Environ. Earth Sci. 2016, 75, 970.
Gailla Jrdet J,Dupré B,Louvat P. 1999.Global silicate weathering andCO2consumption rates deduced from the chemistry of largerivers[J].Chemical Geology, 159( 14) : 3-30.
Ghalib, H.B. Groundwater chemistry evaluation for drinking and irrigation utilities in east Wasit province, Central Iraq. Appl. Water Sci. 2017, 7, 3447–3467.
Gibbs, R.J. Mechanisms controlling world water chemistry . Science 1970, 170, 1088–1090.
Groundwater environment testing technical specification,HJ/T164-2004[S].(In Chinese)
Gupta SK, Gupta IC (1987) Management of saline soils and water. Oxford and IBM Publ. Co, New Delhi, p 399.
Hao Y R, Wang P , Zhang M Z, Zhang J, Li D, Pang Y. Hydrochemical characteristic and its driving force of groundwater in the covered karst in Pearl River Basin[J]. Ecology and Environmental Sciences, 2020, 29(2): 337-344.(In Chinese)
He M X,Zhang B,Xia W X, Cui X, Wang Z L.Hydrochemical Characteristics and Analysis of Qilihai Wetland, Tianjin[J].Environmental Science, ,2021,42(02):776-785.(In Chinese)
Hosseinifard, S.J.; Aminiyan, M.M. Hydrochemical Characterization of Groundwater Quality for Drinking and Agricultural Purposes: A Case Study in Rafsanjan Plain, Iran. Water Qual. Expo. Health 2015, 7, 531–544.
Iqbal,H.H.;Shahid, N.;Qadir,A.;Ahmad,S.R.;Sarwar, S.; Ashraf, M.R.; Arshad, H.M.; Masood, N.Hydrological and Ichthyological Impact Assessment of Rasul Barrage, River Jhelum, Pakistan. Pol. J. Environ.Stud. 2017, 26.
Jang, C.-S.; Chen, C.-F.; Liang, C.-P .; Chen, J.-S. Combining groundwater quality analysis and a numerical flow simulation for spatially establishing utilization strategies for groundwater and surface water in the Pingtung Plain. J. Hydrol. 2016, 533, 541–556.
Jang, C.-S.; Chen, J.-S. Probabilistic assessment of groundwater mixing with surface water for agricultural utilization. J. Hydrol. 2009, 376, 188–199.
Joshi, D.M.; Kumar, A.; Agrawal, N. Assessment of the irrigation water quality of river Ganga in Haridwar district. Rasayan J Chem. 2009, 2, 285–292.
Kawo, N.S.; Karuppannan, S. Groundwater quality assessment using water quality index and GIS technique in Modjo River Basin, central Ethiopia. J. Afr. Earth Sci. 2018, 147, 300–311.
Khalid, S. An assessment of groundwater quality for irrigation and drinking purposes around brick kilns in three districts of Balochistan province, Pakistan, through water quality index and multivariate statistical approaches. J. Geochem. Explor. 2019, 197, 14–26.
Krishnakumar, P .; Lakshumanan, C.; Kishore, V .P .; Sundararajan, M.; Santhiya, G.; Chidambaram, S. Assessment of groundwater quality in and around V edaraniyam, South India. Environ. Earth Sci. 2014, 71,2211–2225.
20.Kumar, M.; Kumari, K.; Ramanathan, A.; Saxena, R. A comparative evaluation of groundwater suitability for irrigation and drinking purposes in two intensively cultivated districts of Punjab, India. Environ. Geol. 2007,53, 553–574.
Kumar, M.; Ramanathan, A.; Rao, M.; Kumar, B. Identification and evaluation of hydrogeochemical processes in the groundwater environment of Delhi, India. Environ. Geol. 2006, 50, 1025–1039.
Lin C Y , Abdullah M H, Praveena S M, Yahaya Y H B, Musta B. Delineation of temporal variability and governing factors influencing the spatial variability of shallow groundwater chemistry in a tropical sedimentary island[J]. Journal of Hydrology, 2012, 432-433: 26-42.
Li J, Zou S Z, Zhao Y,Zhao R K, Dang Z W, Pan M Q, Zhu D N, Zhou C S. Major Ionic Characteristics and Factors of Karst Groundwater at Huixian Karst Wetland,China[J/OL].Environmental Science:1-15[2021-01-08].https://doi.org/10.13227/j.hjkx.202009027.(In Chinese)
Li P;He S;He X;Tian,R.Seasonal hydrochemical characterization and groundwater quality delineation based on matter element extension analysis in a paper wastewater irrigation area,northwest China.Expo.Health 2018a,10,241–258.
Li, P.; Qian, H.; Wu, J.; Zhang, Y .; Zhang, H. Major ion chemistry of shallow groundwater in the Dongsheng Coalfield, Ordos Basin, China. Mine Water Environ. 2013a, 32, 195–206.
Li, P .; Qian, H.; Zhou, W. Finding harmony between the environment and humanity: An introduction to the thematic issue of the Silk Road. Environ. Earth Sci. 2017, 76, 105.
Li P Y,Wu J H,Qian H. Assessment of groundwater quality for irrigation purposes and identification of hydrogeochemical evolution mechanisms in Pengyang County, China[J]. Environmental Earth Sciences,2013b,69(7).
Li, P .; Wu, J.; Qian, H. Hydrochemical appraisal of groundwater quality for drinking and irrigation purposes and the major influencing factors: A case study in and around Hua County, China. Arab. J. Geosci. 2016a,9, 15.
Li, P; Wu J; Qian H; Zhang Y;Yang N;Jing L;Yu P.Hydrogeochemical characterization of groundwater in and around a wastewater irrigated forest in the southeastern edge of the Tengger Desert, Northwest China.Expo. Health 2016b, 8, 331–348.
Li, P .; Wu, J.; Tian, R.; He, S.; He, X.; Xue, C.; Zhang, K. Geochemistry , Hydraulic Connectivity and Quality Appraisal of Multilayered Groundwater in the Hongdunzi Coal Mine, Northwest China. Mine Water Environ.2018b, 37, 222–237.
Li, P .; Zhang, Y .; Yang, N.; Jing, L.; Yu, P . Major ion chemistry and quality assessment of groundwater in and around a mountainous tourist town of China. Expo. Health 2016c, 8, 239–252.
Liang C P;Jang C S;Chen C F, Chen J S. Zonal management of multi-purposes groundwater utilization based on water quality and impact on the aquifer. Environ. Monit. Assess.2016,188,431.
Liu Q M,Cheng Q M,Wang X, Li X J.Soil salinity inversion in Hetao Irrigation district using microwave Radar[J].Transactions of the CSAE,2016,32(16):109-114.(In Chinese)
Liu X,Xiang W,Si B C.Hydrochemical and isotope characteristics in the shallow groundwater of the Fenhe River basin and indicative siginificance[J]. Environmental Science, 2021, 42(4),doi: 10.13227/j.hjkx.202008315.(In Chinese)
Ma J H,Yang S Q,Shi H B, Ding X H, Han W G. Irrigation System of Maize in Hetao Irrigation District Based on Soil Water and Salt Threshold[J].Transactions of the CSAE,2014,30(11):83-91.(In Chinese)
Marghade, D.; Malpe, D.; Zade, A. Major ion chemistry of shallow groundwater of a fast growing city of Central India. Environ. Monit. Assess. 2012, 184, 2405–2418.
Ministry of Health of PRC, Standardization Administration of PRC. Standard Examination Methods for Drinking Water; GB/T5750-2006; Standards Press of China: Beijing, China, 2006. (In Chinese)
Nishanthiny SC, Thushyanthy M, Barathithasan T, Saravanan S(2010) Irrigation water quality based on hydro chemical analysis,Jaffna, Sri Lanka. Am-Eur J Agric Environ Sci 7:100–102.
49.Prasanth, S.V .S.; Magesh, N.S.; Jitheshlal, K.V .; Chandrasekar, N.; Gangadhar, K. Evaluation of groundwater quality and its suitability for drinking and agricultural usein the coastal stretch of Alappuzha District, Kerala,India. Appl. Water Sci. 2012, 2, 165–175.
Ravikumar, P .; Somashekar, R.; Angami, M. Hydrochemistry and evaluation of groundwater suitability for irrigation and drinking purposes in the Markandeya River basin, Belgaum District, Karnataka State, India. Environ. Monit. Assess. 2011, 173, 459–487.
Ren D Y ,Wei B Y ,Xu Xu,Engel B,Li G Y ,Huang Q Z ,Xiong Y W ,Huang G H. Analyzing spatiotemporal characteristics of soil salinity in arid irrigated agro-ecosystems using integrated approaches[J]. Geoderma,2019,356.
Saxena, V .; Ahmed, S. Dissolution of fluoride in groundwater: A water-rock interaction study. Environ. Geol.2001, 40, 1084–1087.
Shi H B,Guo J W,Zhou H, Wang G S, Fu X J,Li Z Z. Effects of irrigation amount and groundwater regulation on soil water andsalt distribution in arid areas[J].Transactions of the Chinese Society for Agricultural Machinery,2020,51(04):268-278.(In Chinese)
Singh, A.K.; Mondal, G.; Tewary , B.; Sinha, A. Major Ion Chemistry , Solute Acquisition Processes and Quality Assessment of Mine Water in Damodar Valley Coalfields, India. In Proceedings of the International Mine Water Conference, Pretoria, South Africa, 19–23 October 2009.
Taheri, M.; Gharaie, M.H.M.; Mehrzad, J.; Afshari, R.; Datta, S. Hydrogeochemical and isotopic evaluation of arsenic contaminated waters in an argillic alteration zone. J. Geochem. Explor. 2017, 175, 1–10.
Tahmasebi, P .; Mahmudy-Gharaie, M.H.; Ghassemzadeh, F.; Karouyeh, A.K. Assessment of groundwater suitability for irrigation in a gold mine surrounding area, NE Iran. Environ. Earth Sci. 2018, 77, 766.
Tang J P, Zhang Q,Hu Y, Zhang Y, Nie B W. Groudwater chemical characteristics and controlling factors nalysis in alluvial fan of Jianjiang River [J]. Environmental Science, 2019, 40(7): 3089-3098.(In Chinese)
Wang G S,Shi H B,Li X Y, Zheng Q, Guo J Q, Wang W G. Water and salt transport law and equilibrium analysis among cultivated land, wasteland and Haizi in Hetao irrigation area[J].Journal of Hydraulic Engineering,2019,50(12):1518-1528.(In Chinese)
Wang J B,Zhu L P,Ju J T, Wang Y. Water chemistry of eastern Nam lake area and inflowing rivers in Tibet[J].Scientia Geographica Sinica, 2009, 29(2): 288-293.(In Chinese)
Wen Y,Qiu J H,Cheng S, Xu C C, Gao X J. Hydrochemical Evolution Mechanisms of Shallow Groundwater and Its Quality Assessment in the Estuarine Coastal Zone: A Case Study of Qidong, China[J]. International Journal of Environmental Research and Public Health,2020,17(10).
Wilcox, L. Classification and Use of Irrigation Waters; Agriculture Circular: Washington, DC, USA, 1955; p. 19.
World Health Organization (WHO). Guidelines for Drinking Water Quality, 4th ed.; WHO: Geneva, Switzerland,2011.
World Health Organization (WHO). Guidelines for Drinking Water Quality; World Health Organization:Geneva, Switzerland, 2004.
Wu, J.; Li, P .; Qian, H.; Duan, Z.; Zhang, X. Using correlation and multivariate statistical analysis to identify hydrogeochemical processes affecting the major ion chemistry of waters: A case study in Laoheba phosphorite mine in Sichuan, China. Arab. J. Geosci. 2014, 7, 3973–3982.
Wu, J.; Li, P .; Qian, H. Hydrochemical characterization of drinking groundwater with special reference to fluoride in an arid area of China and the control of aquifer leakage on its concentrations. Environ. Earth Sci.2015, 73, 8575–8588.
Xu P P, Feng W W, Qian H, Zhang Q Y. Hydrogeochemical Characterization and Irrigation Quality Assessment of Shallow Groundwater in the Central-Western Guanzhong Basin, China[J]. International Journal of Environmental Research and Public Health,2019,16(9).
Yuan H Y,Yang S Q,Ding X H, Wang Bo, Yang X M. Evolution characteristics of nutrients and chemical compositions of groundwater before and after autumn irrigation —Taking Wulate Irrigation Area as an Example[J].Environmental Chemistry,2019,38(10):2336-2347.(In Chinese)
Zeng H B, Su C L, Xie X J, Pan H J, Ji Q N, Tao Y Z. Mechanism of Salinization of Shallow Groundwater in Western Hetao Irrigation Area[J/OL]. Earth Science :1-17[2021-01-08].http://kns.cnki.net/kcms/detail/42.1874.P.20200902.0756.002.html.(In Chinese)
Zhang T, He J, Li J J, Cao Y T, Gong L, Liu J W, Bian C, Cai Y M. Major ionic features and possible controls in the groundwater in the Hamatong River Basin[J]. Environmental Science, 2018, 39(11): 4981-4989.(In Chinese)
Zhang W, Wang D W, Lei K, Lv X B, Chen Y, Yang L B. Hydrochemical characteristics and impact factors in the middle and lower reaches of the Yellow River in the wet season [J]. Research of Soil and Water Conservation, 2020, 27(1): 380-386.(In Chinese)