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The Ganges basin faces considerable spatial and temporal imbalance between water demand and availability. Lack of water storage infrastructure has led to this mismatch, wherein there are limited options to store flood water during the wet season and limited groundwater and surface water resources...


Chinnasamy, PennanMuthuwatta, Lal P.Eriyagama, NishadiPavelic, PaulLagudu, S.[Modeling the potential for floodwater recharge to offset groundwater depletion: a case study from the Ramganga basin, India]Modeling the potential for floodwater recharge to offset groundwater depletion: a case study from the Ramganga basin, India

Although the Ganges River Basin (GRB) has abundant water resources, the seasonal monsoon causes a mismatch in water supply and demand, which creates severe water-related challenges for the people living in the basin, the rapidly growing economy and the environment. Addressing these increasing cha...


Amarasinghe, Upali A.Muthuwatta, Lal P.Smakhtin, Vladimir U.Surinaidu, LaguduNatarajan, R.Chinnasamy, PennanKakumanu, Krishna ReddyPrathapar, Sanmugam A.Jain, S.K.Ghosh, N.C.Singh, S.Sharma, A.Jain, S.K.Kumar, S.Goel, M.K.[Reviving the Ganges water machine: potential and challenges to meet increasing water demand in the Ganges River Basin]Reviving the Ganges water machine: potential and challenges to meet increasing water demand in the Ganges River Basin

Storing excess rainwater underground can become key in mitigating the frequency and magnitude of flood events. In this context, assessment of depleted groundwater storage that can be refilled in water surplus periods is imperative. The study uses Gravity Recovery and Climate Experiment (GRACE) da...


Chinnasamy, Pennan[Depleting groundwater – an opportunity for flood storage?: a case study from part of the Ganges River Basin, India]Depleting groundwater – an opportunity for flood storage?: a case study from part of the Ganges River Basin, India

Lacombe, GuillaumeChinnasamy, PennanNicol, Alan[Review of climate change science, knowledge and impacts on water resources in South Asia. Background Paper 1]Review of climate change science, knowledge and impacts on water resources in South Asia. Background Paper 1

The Indian Ocean Tsunami of December 26, 2004 devastated coastal ecosystems across South Asia. Along the coastal regions of South India, increased groundwater levels (GWL), largely caused by saltwater intrusion, infiltration from inundated land, and disturbance of freshwater lenses, were reported...


Chinnasamy, PennanSunde, M.G.[Improving spatiotemporal groundwater estimates after natural disasters using remotely sensed data: a case study of the Indian Ocean Tsunami]Improving spatiotemporal groundwater estimates after natural disasters using remotely sensed data: a case study of the Indian Ocean Tsunami

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