Continental Flood Basalts(CFB)occupy one fourth of the world's land area.Hence,it is important to dis-cern the hydrological processes in this complex hydrogeological setup for the sustainable water resources development.A model assisted isotope,geochemical,geospatial and geophysical study was conducted to understand the monsoonal characteristics,recharge processes,renewability and geochemical evolution in one of the largest continental flood basalt provinces of India.HYSPLIT modelling and stable isotopes were used to assess the monsoonal characteristics.Rayleigh distillation model were used to understand the climatic conditions at the time of groundwater recharge.Lumped parameter models(LPM)were employed to quantify the mean transit time(MTT)of groundwater.Statistical and geochemical models were adopted to understand the geochemical evolution along the groundwater flow path.A geophysical model was used to understand the geometry of the aquifer.The back trajectory analysis confirms the iso-topic finding that precipitation in this region is caused by orographic uplifting of air masses originating from the Arabian Sea.Stable isotopic data of groundwater showed its meteoric origin and two recharge processes were discerned;(i)quick and direct recharge by precipitation through fractured and weathered basalt,(ii)low infiltration through the clayey black cotton soil and subjected to evaporation prior to the recharge.Tritium data showed that the groundwater is a renewable source and have shorter transit times(from present day to＜30 years).The hydrogeochemical study indicated multiple sources/processes such as:the minerals dissolution,silicate weathering,ion exchange,anthropogenic influences etc.control the chemistry of the groundwater.Based on the geo-electrical resistivity survey,the potential zones(weath-ered and fractured)were delineated for the groundwater development.Thus,the study highlights the usefulness of model assisted isotopic hydrogeochemical techniques for understanding the recharge and geochemical processes in a basaltic aquifer system.

Arzoo Ansari;Jacob Noble;Archana Deodhar;U.Saravana Kumar

Isotope and Radiation Application Division,Bhabha Atomic Research Centre,Trombay,Mumbai 400085,India;Isotope Hydrology Section,Division of Physical and Chemical Sciences,International Atomic Energy Agency(IAEA),Vienna,Austria

地学前缘（英文版）

[1]Arzoo Ansari;Jacob Noble;Archana Deodhar;U.Saravana Kumar-.Isotope hydrogeochemical models for assessing the hydrological processes in a part of the largest continental flood basalts province of India)[J].地学前缘（英文版）,2022(02):200-213

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