Journal of Geological Society of India (Online archive from Vol 1 to Vol 78)

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Hydrogeochemistry of Sambhar Salt Lake, Rajasthan: Implication to Recycling of Salt and Annual Salt Budget


Affiliations
1 Bhabha Atomic Research Centre, Trombay, Mumbai - 400085, India
2 Physical Research Laboratory, Earth Science Division, Ahmedabad - 380 009, India
     

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Geochemical analysis of groundwater samples and brines from the Sambhar Salt lake shows a predominance of NaCl with respect to total salt content (TDS), which varies from 0.5 to -400 g/L. All brine (lake + shallow subsurface) samples indicate a Na-Cl type alkaline solutions with pH varying from 8.5 to 10. All this suggests a general provenance for halite or dissolution of desiccated salt minerals in the catchment and drainage areas of the lake. Adjacent groundwaters are mostly neutral Na-Cl type with TDS ranging from 0.5 to 13 g/L. In contrast to groundwaters, the river waters from Roopangarh and Mendha reflect that out of the TDS, the major ions constitute Na, Alk and Cl with an average equivalent Na/Cl ratio of 2.7, indicating dissolution of Na from silicate weathering of rocks. However, the lake water composition overwhelms the river water upon mixing during the recharge period. A complete annual wetting and drying cycles of evolution of lake brine shows generation of Na-Cl type of brine with steady increase in major ions except Ca and Mg ions which decrease in successive stages of evaporation. Relative change in Na and Cl ions is also observed during the late stage of evaporation at or beyond halite saturation stage. Observation of such chemical change in brine composition is in line with the identification of salt minerals in lake sediments and salt encrustation by XRD technique.

In present-day hydrologic set-up, the estimated salt inventory in lake is _106 tons as compared to riverine input of 6x104 tons and an upper limit of aeolian input of about 5xl04 tons. Such an estimate indicates that majority of salt is derived from the recycling and re-solution of salt encrustation from the lake bed during recharge period.


Keywords

Hydrogeochemistry, TDS, Nacl, Brines, Annual Wetting and Drying Cycles, Evaporation, Brine Evolution, Salt Encrustation, Aeolian Salt Input, Recharge Period, Sambhar Salt Lake, Rajasthan.
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  • Hydrogeochemistry of Sambhar Salt Lake, Rajasthan: Implication to Recycling of Salt and Annual Salt Budget

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Authors

D. N. Yadav
Bhabha Atomic Research Centre, Trombay, Mumbai - 400085, India
M. M. Sarin
Physical Research Laboratory, Earth Science Division, Ahmedabad - 380 009, India
S. Krishnaswami
Physical Research Laboratory, Earth Science Division, Ahmedabad - 380 009, India

Abstract


Geochemical analysis of groundwater samples and brines from the Sambhar Salt lake shows a predominance of NaCl with respect to total salt content (TDS), which varies from 0.5 to -400 g/L. All brine (lake + shallow subsurface) samples indicate a Na-Cl type alkaline solutions with pH varying from 8.5 to 10. All this suggests a general provenance for halite or dissolution of desiccated salt minerals in the catchment and drainage areas of the lake. Adjacent groundwaters are mostly neutral Na-Cl type with TDS ranging from 0.5 to 13 g/L. In contrast to groundwaters, the river waters from Roopangarh and Mendha reflect that out of the TDS, the major ions constitute Na, Alk and Cl with an average equivalent Na/Cl ratio of 2.7, indicating dissolution of Na from silicate weathering of rocks. However, the lake water composition overwhelms the river water upon mixing during the recharge period. A complete annual wetting and drying cycles of evolution of lake brine shows generation of Na-Cl type of brine with steady increase in major ions except Ca and Mg ions which decrease in successive stages of evaporation. Relative change in Na and Cl ions is also observed during the late stage of evaporation at or beyond halite saturation stage. Observation of such chemical change in brine composition is in line with the identification of salt minerals in lake sediments and salt encrustation by XRD technique.

In present-day hydrologic set-up, the estimated salt inventory in lake is _106 tons as compared to riverine input of 6x104 tons and an upper limit of aeolian input of about 5xl04 tons. Such an estimate indicates that majority of salt is derived from the recycling and re-solution of salt encrustation from the lake bed during recharge period.


Keywords


Hydrogeochemistry, TDS, Nacl, Brines, Annual Wetting and Drying Cycles, Evaporation, Brine Evolution, Salt Encrustation, Aeolian Salt Input, Recharge Period, Sambhar Salt Lake, Rajasthan.