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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
Book Chapter 2017

Autor: Bastakoti, Ram C. Sugden, Fraser Raut, M. Shrestha, S.
Enlace original: https://cgspace.cgiar.org/handle/10568/92807

Investigación en Agricultura
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Bastakoti, Ram C.Sugden, FraserRaut, M.Shrestha, S.[Key constraints and collective action challenges for groundwater governance in the eastern Gangetic Plains]Key constraints and collective action challenges for groundwater governance in the eastern Gangetic Plains
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
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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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