机构地区:[1]Department of Geology,Institute of Science,Banaras Hindu University,Varanasi,Uttar Pradesh 221005,India [2]Isotope and Radiation Application Division,Bhabha Atomic Research Centre,Trombay,Mumbai 400085,India [3]Environmental Hydrology Division,National Institute of Hydrology,Roorkee,Uttarakhand 247667,India [4]School of Engineering,Design and Built Environment,Western Sydney University,Australia [5]Isotope Hydrology Section,Division of Physical and Chemical Sciences,International Atomic Energy Agency(IAEA),Vienna,Austria [6]Department of Earth Sciences,Indian Institute of Technology,Roorkee,Uttarakhand 247667,India [7]Laboratory of Organic Chemistry and Environmental Science,Department of Chemistry,University of Kara,PO Box 404,Kara,Togo
出 处:《Geoscience Frontiers》2024年第4期134-147,共14页地学前缘(英文版)
基 金:extend their gratitude to Banaras Hindu University for the financial assistance granted through the Institute of Eminence(IoE,Dev Scheme 6031)Research Grant;Appreciation is conveyed to the Head,Department of Geology,B.H.U.,Varanasi,for his valuable support during this study;This study constitutes a segment of Mr.Abhinav’s Ph.D.thesis and would like to thank UGCCSIR(F.No.16-9 June 2018/2019)for the fellowship(JRF,SRF)for the financial assistance during this study;The authors are thankful to the National Institute of Hydrology,Roorkee for carrying out major ions and stable isotopic analysis.
摘 要:Densely populated region of Ganga Plain is facing aquifer vulnerability through waterborne pollutants and groundwater stress due to indiscriminate abstraction,causing environmental and socio-economic instabilities.To address long-term groundwater resilience,it is crucial to understand aquifer heterogeneity and connectivity,groundwater recharge sources,effects of groundwater abstraction etc.In this con-text,present study aims to understand factors responsible for vertical and spatial variability of groundwater chemistry and to identify groundwater recharge sources in an intensively exploited agrarian region of the Ganga Plain.Interpretation of chemometric,statistical,and isotopic analysis categorises the alluvial aquifer into zone 1(G1;ground surface to 100 m)and zone 2(G2;>100 m-210 m).The group G1 samples are characterized by a wide variation in hydrochemical species,noted with pockets of F-and NO3-rich groundwater,and fresh to more evolved water types,while group G2 groundwater is characterized by a sharp increase in freshwater types and limited variation in their isotopic and hydrochemical species.The G1 groundwater chemistry is governed by soil mineralogy,local anthropogenic inputs(SO42-,Cl-,and NO3-),and manifested by multiple recharge sources(local precipitation,river,canal water,pond).The G2 group is dominated by geogenic processes and mainly recharged by the local precipitation.Geospatial signatures confirm more evolved water type for group G1 in northwestern region,while fresh-water type covers the rest of the study area.Fluoride rich groundwater is attributed to sodic water under alkaline conditions and enrichedδ18O values emphasizing role of evaporation in F-mobilization from micas and amphiboles abundant in the soil.The findings provide insight into potential groundwater vulnerability towards inorganic contaminants,and ground water recharge sources.The outcome of this study will help to develop aquifer resilience towards indiscriminate groundwater extraction for agricultural practices and aim towards
关 键 词:Stable isotopes Hydrogeochemical attributes Groundwater recharge sources Ganga Plain
分 类 号:P641.8[天文地球—地质矿产勘探]
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