Chamelia (catchment area = 1603 km2 ), a tributary of Mahakali, is a snow-fed watershed in Western Nepal. The watershed has 14 hydropower projects at various stages of development. This study simulated the current and future hydrological system of Chamelia using the Soil and Water Assessment Tool...
Study region: Kathmandu Valley, Capital city of Nepal.
Study focus: This study applied three hydrological models (i.e., SWAT, HBV, and BTOPMC) to analyze the water balance components and their temporal and seasonal variations in the Kathmandu Valley, Nepal. The water balance components were inves...
Thapa, B.R.
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Ishidaira, H.
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Pandey, Vishnu Prasad
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Shakya, N.M.
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[A multi-model approach for analyzing water balance dynamics in Kathmandu Valley, Nepal]
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A multi-model approach for analyzing water balance dynamics in Kathmandu Valley, Nepal
With the objective to provide a basis for regional climate models (RCMs) selection and ensemble generation for climate impact assessments, we perform the first ever analysis of climate projections for Western Nepal from 19 RCMs in the Coordinated Regional Downscaling Experiment for South Asia (CO...
Dhaubanjar, Sanita
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Pandey, Vishnu Prasad
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Bharati, Luna
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[Climate futures for western Nepal based on regional climate models in the CORDEX-SA [Coordinated Regional Downscaling Experiment for South Asia].]
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Climate futures for western Nepal based on regional climate models in the CORDEX-SA [Coordinated Regional Downscaling Experiment for South Asia].
Impacts of climate change on water resources, especially groundwater, can no longer be hidden. These impacts are further exacerbated under the integrated influence of climate variability, climate change and anthropogenic activities. The degree of impact varies according to geographical location a...
Aslam, R.A.
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Shrestha, S.
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Pandey, Vishnu Prasad
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[Groundwater vulnerability to climate change: a review of the assessment methodology]
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Groundwater vulnerability to climate change: a review of the assessment methodology
Basin-wide planning requires tools and strategies that allow comparison of alternative pathways and priorities at relevant spatial and temporal scales. In this paper, we apply a hydroeconomic model–the Western Nepal Energy Water Model–that better accounts for feedbacks between water and energy ma...
Pakhtigian, E.L.
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Jeuland, M.
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Dhaubanjar, Sanita
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Pandey, Vishnu Prasad
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[Balancing intersectoral demands in basin-scale planning: the case of Nepal’s western river basins]
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Balancing intersectoral demands in basin-scale planning: the case of Nepal’s western river basins
This study is the first to assess land subsidence in the Kathmandu Valley, Nepal. Land subsidence simulations were based on a fully calibrated groundwater (GW) flow model developed using a coupled surface–subsurface modelling system. Subsidence is predicted to occur as a result of deep aquifer co...
Shrestha, P.K.
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Shakya, N.M.
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Pandey, Vishnu Prasad
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Birkinshaw, S.J.
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Shrestha, S.
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[Model-based estimation of land subsidence in Kathmandu Valley, Nepal]
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Model-based estimation of land subsidence in Kathmandu Valley, Nepal