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Climate Impacts on Agriculture: Implications for Crop Production

Permanent URL:
http://handle.nal.usda.gov/10113/48657
File:
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Abstract:
Changes in temperature, CO2, and precipitation under the scenarios of climate change for the next 30 yr present a challenge to crop production. This review focuses on the impact of temperature, CO2, and ozone on agronomic crops and the implications for crop production. Understanding these implications for agricultural crops is critical for developing cropping systems resilient to stresses induced by climate change. There is variation among crops in their response to CO2, temperature, and precipitation changes and, with the regional differences in predicted climate, a situation is created in which the responses will be further complicated. For example, the temperature effects on soybean [Glycine max (L.) Merr.] could potentially cause yield reductions of 2.4% in the South but an increase of 1.7% in the Midwest. The frequency of years when temperatures exceed thresholds for damage during critical growth stages is likely to increase for some crops and regions. The increase in CO2 contributes significantly to enhanced plant growth and improved water use efficiency (WUE); however, there may be a downscaling of these positive impacts due to higher temperatures plants will experience during their growth cycle. A challenge is to understand the interactions of the changing climatic parameters because of the interactions among temperature, CO2, and precipitation on plant growth and development and also on the biotic stresses of weeds, insects, and diseases. Agronomists will have to consider the variations in temperature and precipitation as part of the production system if they are to ensure the food security required by an ever increasing population.
Author(s):
Hatfield, J.L. , Boote, K.J. , Kimball, B.A. , Ziska, L.H. , Izaurralde, R.C. , Ort, D. , Thomson, A.M. , Wolfe, D.
Subject(s):
crop production , climate change , literature reviews , temperature , carbon dioxide , ozone , cropping systems , precipitation , Glycine max , crop yield , plant growth , plant development , Midwestern United States
Format:
p. 351-370.
Note:
Includes references
Source:
Agronomy journal 2011 Mar., v. 103, no. 2
Language:
English
Year:
2011
Collection:
Journal Articles, USDA Authors, Peer-Reviewed
Rights:
Works produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted.