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Journal Article 2018-10-06

Autor: Tirupathi, C. Shashidhar, T. Pandey, Vishnu P. Shrestha, S.

The objective of this research is to develop a fuzzy-based groundwater sustainability index (FGSI) model to evaluate the sustainability of groundwater system at selected cities in Asian. The new Mamdani type fuzzy-based inference system known as FGSI was developed. It contains five components an...

Enlace original: https://cgspace.cgiar.org/handle/10568/98592

Investigación en Agricultura
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Tirupathi, C.Shashidhar, T.Pandey, Vishnu P.Shrestha, S.[Fuzzy-based approach for evaluating groundwater sustainability of Asian cities]Fuzzy-based approach for evaluating groundwater sustainability of Asian cities
Journal Article 2018-01-15

Autor: Aslam, R.A. Shrestha, S. Pandey, Vishnu Prasad

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...

Enlace original: https://cgspace.cgiar.org/handle/10568/98532

Investigación en Agricultura
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Aslam, R.A.Shrestha, S.Pandey, Vishnu Prasad[Groundwater vulnerability to climate change: a review of the assessment methodology]Groundwater vulnerability to climate change: a review of the assessment methodology
Journal Article 2017-02-23

Autor: Shrestha, P.K. Shakya, N.M. Birkinshaw, S.J. Shrestha, S.

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...

Enlace original: https://cgspace.cgiar.org/handle/10568/98457

Investigación en Agricultura
Enlace permanente
Shrestha, P.K.Shakya, N.M.Birkinshaw, S.J.Shrestha, S.[Model-based estimation of land subsidence in Kathmandu Valley, Nepal]Model-based estimation of land subsidence in Kathmandu Valley, Nepal
Journal Article 2017-02-23

Autor: Shrestha, P.K. Shakya, N.M. Pandey, Vishnu Prasad Birkinshaw, S.J. Shrestha, S.

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...

Enlace original: https://cgspace.cgiar.org/handle/10568/98540

Investigación en Agricultura
Enlace permanente
Shrestha, P.K.Shakya, N.M.Pandey, Vishnu PrasadBirkinshaw, S.J.Shrestha, S.[Model-based estimation of land subsidence in Kathmandu Valley, Nepal]Model-based estimation of land subsidence in Kathmandu Valley, Nepal

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