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Climate variability risk analysis, WUE and NUE for cropping systems based on historical as well as future climate change scenarios

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Title Climate variability risk analysis, WUE and NUE for cropping systems based on historical as well as future climate change scenarios
 
Creator Whitbread, Anthony
 
Contributor NageswaraRao, V.
Ramilan, Thiagarajah
 
Subject agro-ecosystem
 
Description Water is the most crucial input for agricultural production. Globally, agriculture accounts for more than 80% of all freshwater used by humans, most of that is for crop production. Currently most of the water used to grow crops is derived from rainfed soil moisture, with non-irrigated agriculture accounting for about 60% of production in developing countries. Monsoon rainfall variability and declining water table due to over exploitation resulted in shortage of fresh water supplies for agricultural use in India, which calls for an efficient use of this resource. Water-use efficiency (WUE) and nitrogen-use efficiency (NUE) are important measures that can affect the productivity of cropping systems in different Agroeco-systems. Strategies for efficient management of water and nitrogen for agricultural use involves conservation and judicious use of water; optimal application to enhance of nitrogen use efficiency for crop productivity is of paramount importance especially in rainfed systems.
 
Date 2015-06-01
2016-02-01T21:26:14Z
2016-02-01T21:26:14Z
 
Type Internal Report
 
Identifier https://mel.cgiar.org/reporting/download/hash/SCKQN7GG
Anthony Whitbread, V. NageswaraRao, Thiagarajah Ramilan. (1/6/2015). Climate variability risk analysis, WUE and NUE for cropping systems based on historical as well as future climate change scenarios.
https://hdl.handle.net/20.500.11766/3180
Open access
 
Language en
 
Rights CC-BY-4.0
 
Format DOCX