An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal

Detalles Bibliográficos
Autores principales:	Alvar-Beltran, J., Soldan, R., Vanuytrecht, E., Heureux, A., Shrestha, Nirman, Manzanas, R., Pant, K. P., Franceschini, G.
Formato:	Journal Article
Lenguaje:	Inglés
Publicado:	Elsevier 2023
Materias:	crop modelling agroecological zones climate change crop yield maize rice wheat irrigation management rainfed farming water productivity soil texture temperature river basins fao
Acceso en línea:	https://hdl.handle.net/10568/131226

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author	Alvar-Beltran, J. Soldan, R. Vanuytrecht, E. Heureux, A. Shrestha, Nirman Manzanas, R. Pant, K. P. Franceschini, G.
author_browse	Alvar-Beltran, J. Franceschini, G. Heureux, A. Manzanas, R. Pant, K. P. Shrestha, Nirman Soldan, R. Vanuytrecht, E.
author_facet	Alvar-Beltran, J. Soldan, R. Vanuytrecht, E. Heureux, A. Shrestha, Nirman Manzanas, R. Pant, K. P. Franceschini, G.
author_sort	Alvar-Beltran, J.
collection	Repository of Agricultural Research Outputs (CGSpace)
format	Journal Article
id	CGSpace131226
institution	CGIAR Consortium
language	Inglés
publishDate	2023
publishDateRange	2023
publishDateSort	2023
publisher	Elsevier
publisherStr	Elsevier
record_format	dspace
spelling	CGSpace1312262025-10-26T12:54:55Z An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal Alvar-Beltran, J. Soldan, R. Vanuytrecht, E. Heureux, A. Shrestha, Nirman Manzanas, R. Pant, K. P. Franceschini, G. crop modelling agroecological zones climate change crop yield maize rice wheat irrigation management rainfed farming water productivity soil texture temperature river basins fao 2023-09 2023-07-20T08:49:26Z 2023-07-20T08:49:26Z Journal Article https://hdl.handle.net/10568/131226 en Limited Access Elsevier Alvar-Beltran, J.; Soldan, R.; Vanuytrecht, E.; Heureux, A.; Shrestha, Nirman; Manzanas, R.; Pant, K. P.; Franceschini, G. 2023. An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal. Environmental Development, 47:100882. [doi: https://doi.org/10.1016/j.envdev.2023.100882]
spellingShingle	crop modelling agroecological zones climate change crop yield maize rice wheat irrigation management rainfed farming water productivity soil texture temperature river basins fao Alvar-Beltran, J. Soldan, R. Vanuytrecht, E. Heureux, A. Shrestha, Nirman Manzanas, R. Pant, K. P. Franceschini, G. An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal
title	An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal
title_full	An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal
title_fullStr	An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal
title_full_unstemmed	An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal
title_short	An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal
title_sort	fao model comparison python agroecological zoning pyaez and aquacrop to assess climate change impacts on crop yields in nepal
topic	crop modelling agroecological zones climate change crop yield maize rice wheat irrigation management rainfed farming water productivity soil texture temperature river basins fao
url	https://hdl.handle.net/10568/131226
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An FAO model comparison: Python Agroecological Zoning (PyAEZ) and AquaCrop to assess climate change impacts on crop yields in Nepal

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