Estimation of seasonal base flow contribution to a tropical river using stable isotope analysis

Bhagat, H and Ghosh, P and Nagesh Kumar, D (2021) Estimation of seasonal base flow contribution to a tropical river using stable isotope analysis. In: Journal of Hydrology, 601 .

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Abstract

Increase in water demand within the Cauvery River Basin is a cause of serious concern over sustainable utilization and managment of water resources. Sustainable, efficent and equitable managment of Cauvery riverwater requires a thorough understanding of the contributing sources and hydrological processes influencing avaliability of water resources. The study investigates the seasonal contribution of surface runoff and baseflow to the Cauvery streamflow using isotope mass balance approach. Stable Isotope measurements (δ2H, δ18O) of Cauvery river water along with groundwater are carried during seasonal time intervals spanning from 2014 � 2016, covering pre-monsoon (PM), south-west monsoon (SWM) and north-east monsoon (NEM) seasons. Field campaigns yielded seasonal datasets of Cauvery riverwater and groundwater isotopic composition. Stable isotope analysis showed a seasonal shift in the river water isotopic composition (δ2H 8�, δ18O 0.95�) between pre- monsoon (PM) and south-west monsoon (SWM) seasons. Isotopically heavier values are recorded during the pre-monsoon season; coinciding with the period of low flow condition, whereas the monsoon season is characterized by high discharge and recorded isotopically lighter values. The Krishna Raja Sagar (KRS) Reservoir controls the isotopic composition of riverwater by evaporative process, during the pre-monsoon season resulting in river water becoming isotopically lighter. We utilized two-component mixing model to estimate the seasonal base flow contribution to the Cauvery River, for which the river is segmented into three sectors. The average base flow contribution to river flow during pre-monsoon season in sector I is 85 ± 5, whereas in sector II and III the average groundwater contribution drops to 59 ± 3 and 39 ± 3 respectively. Similarly, the average base flow contribution to the river flow during south-west monsoon season drops to 32 ± 7 in sector I, whereas in sector II and III the average base flow contribution is estimated at 42 ± 7 and 47 ± 7 respectively. The base flow contribution is appreciably high in the upper Cauvery Basin comprising the Western Ghats, which plays a crucial role in sustaining stream flow during the pre-monsoon season. Assessment of spatial and temporal variability of surface water and groundwater isotopic composition within the Cauvery River Basin provides an important dataset for developing a sustainable river management plan in this tropical mesoscale riverine system. © 2021 Elsevier B.V.

Item Type:	Journal Article
Publication:	Journal of Hydrology
Publisher:	Elsevier B.V.
Additional Information:	The copyright for this article belongs to Elsevier B.V.
Keywords:	Atmospheric thermodynamics; Drops; Isotopes; Rain; Rivers; Runoff; Stream flow; Tropics; Underground reservoirs; Watersheds, Base flow contribution; Baseflows; Cauvery river; Isotopic composition; Krishna raja sagar reservoir; Monsoon season; Pre-monsoon; River water; Stable isotopes; Stable-isotope analysis, Groundwater, baseflow; estimation method; groundwater-surface water interaction; isotopic composition; river discharge; river pollution; seasonal variation; stable isotope; tropical environment, Cauvery Basin; India; Krishna River; Madhya Pradesh; Sagar; Western Ghats
Department/Centre:	Division of Mechanical Sciences > Centre for Earth Sciences Division of Mechanical Sciences > Divecha Centre for Climate Change Division of Interdisciplinary Sciences > Interdisciplinary Centre for Water Research Division of Mechanical Sciences > Centre for Atmospheric & Oceanic Sciences Division of Mechanical Sciences > Civil Engineering
Date Deposited:	24 Sep 2021 07:58
Last Modified:	24 Sep 2021 07:58
URI:	http://eprints.iisc.ac.in/id/eprint/69759

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