Integrated parameterization of irrigation in the land surface model ORCHIDEE. Validation over Indian Peninsula

P. de Rosnay; J. Polcher; K. Laval; M. Sabre

doi:10.1029/2003GL018024

Integrated parameterization of irrigation in the land surface model ORCHIDEE. Validation over Indian Peninsula

P. de Rosnay
, J. Polcher
, K. Laval
, M. Sabre

Université Pierre et Marie Curie

Research output: Contribution to journal › Article › peer-review

Abstract

The work presented here describes a new modeling infrastructure of irrigation which is integrated in a land surface model and which will make this model a suitable tool for studies of interactions between irrigation water use and climate change. The model is presented and validated off-line over the Indian Peninsula. Numerical experiments are conducted with a 1 degree spatial resolution land surface model. Two 2-year simulations, forced by the ISLSCP (1987-88) data sets, are conducted with and without irrigation. The analysis focuses on irrigation modeling validation and briefly presents first results on irrigation's impact on the surface fluxes.

Original language	English
Pages (from-to)	HLS 2-1 - HLS 2-4
Journal	Geophysical Research Letters
Volume	30
Issue number	19
DOIs	https://doi.org/10.1029/2003GL018024
Publication status	Published - 1 Oct 2003

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10.1029/2003GL018024

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abstract = "The work presented here describes a new modeling infrastructure of irrigation which is integrated in a land surface model and which will make this model a suitable tool for studies of interactions between irrigation water use and climate change. The model is presented and validated off-line over the Indian Peninsula. Numerical experiments are conducted with a 1 degree spatial resolution land surface model. Two 2-year simulations, forced by the ISLSCP (1987-88) data sets, are conducted with and without irrigation. The analysis focuses on irrigation modeling validation and briefly presents first results on irrigation's impact on the surface fluxes.",

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AB - The work presented here describes a new modeling infrastructure of irrigation which is integrated in a land surface model and which will make this model a suitable tool for studies of interactions between irrigation water use and climate change. The model is presented and validated off-line over the Indian Peninsula. Numerical experiments are conducted with a 1 degree spatial resolution land surface model. Two 2-year simulations, forced by the ISLSCP (1987-88) data sets, are conducted with and without irrigation. The analysis focuses on irrigation modeling validation and briefly presents first results on irrigation's impact on the surface fluxes.

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Integrated parameterization of irrigation in the land surface model ORCHIDEE. Validation over Indian Peninsula

Abstract

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