Integrated study of GRACE data derived interannual groundwater storage variability over water stressed Indian regions

Groundwater serves more than 80% of agriculture and 60% of drinking water in India thus making it a demandable resource in the study area. In this study the groundwater storage change was determined by using RL05 land data product (January, 2003 to December, 2016) which was accessed from the Gravity...

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Published in:Groundwater for sustainable development 2020-04, Vol.10, p.100376, Article 100376
Main Authors: Sarkar, Tandrila, Kannaujiya, Suresh, Taloor, Ajay Kumar, Champati Ray, Prashant Kumar, Chauhan, Prakash
Format: Article
Language:English
Subjects:
GPS
GRACE
Groundwater recharge
GWC
GWS
TWSC
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Summary:Groundwater serves more than 80% of agriculture and 60% of drinking water in India thus making it a demandable resource in the study area. In this study the groundwater storage change was determined by using RL05 land data product (January, 2003 to December, 2016) which was accessed from the Gravity Recovery and Climate Experiment (GRACE) satellite. Total soil moisture (up to 2m depth), canopy water storage and snow water equivalent derived from Global Land Data Assimilation System (GLDAS) NOAH was subtracted from terrestrial water storage (TWS) for extracting the groundwater component, revealing maximum groundwater storage change by −7.52 cm/year in Delhi, northern Uttar Pradesh and some parts of Haryana. In water stressed regions of India (January 2003 to December 2016) the groundwater depletion rate in the cities of Delhi, Meerut, Dehradun and Chandigarh are −3.682 ± 0.8 cm/year, −3.62 ± 0.7 cm/year, −3.1 ± 0.87 cm/year, −2.73 ± 0.6 cm/year respectively. The groundwater storage change (GWSC) depletion rate observed in Delhi, Meerut, Dehradun, Chandigarh in January 2003 to May 2010 are −3.43 ± 1.37, −3.41 ± 1.22, −3.72 ± 1.52, −3.43 ± 1.05 cm/year respectively and in August 2010 to December 2016 depletion rate is −5.53 ± 1.57, −7.12 ± 1.40, −4.98 ± 1.74,-3.92 ± 1.20 cm/year respectively. The data obtained by GRACE/GLDAS-derived total GWS (cm) and Global Positioning System (GPS)-derived vertical deformation of International GNSS services (IGS) station, at Indian Institute of Science (IISc) Bangalore (2014–2016) is correlated by 0.71. Analysis conducted in metro cities (Delhi, Chennai, Bengaluru, Kolkata and Mumbai) shows with time succession groundwater storage has suffered a major depletion in spite of quantified rainfall in these places. The GRACE-derived GWSC values agrees reasonably with in-situ well observations by Pearson's coefficient; 0.89, 0.88, 0.87 and 0.74 for Delhi, Haryana, Punjab and Uttar Pradesh thereby justifying remote sensing approach and further substantiate our research study that regional GWS mapping can be achieved by the GRACE mission rapidly and accurately. [Display omitted] •GRACE/GLDAS has been used to understand groundwater storage scenario across the water stressed and populated states of India.•GRACE/GLDAS has been used since January 2003 to December 2016 period for interannual groundwater variability.•Determined correlation between GRACE/GLDAS derived groundwater, groundwater level and vertical deformation.•Significant grou
ISSN:2352-801X
2352-801X
DOI:10.1016/j.gsd.2020.100376