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Climate Impacts on Agriculture: Implications for Forage and Rangeland Production
Author(s) -
Izaurralde R. C.,
Thomson A. M.,
Morgan J. A.,
Fay P. A.,
Polley H. W.,
Hatfield J. L.
Publication year - 2011
Publication title -
agronomy journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.752
H-Index - 131
eISSN - 1435-0645
pISSN - 0002-1962
DOI - 10.2134/agronj2010.0304
Subject(s) - rangeland , environmental science , climate change , precipitation , productivity , vegetation (pathology) , primary production , ecosystem , agronomy , perennial plant , pasture , agroforestry , forage , rangeland management , ecology , geography , biology , medicine , macroeconomics , pathology , meteorology , economics
Projections of temperature and precipitation patterns across the United States during the next 50 yr anticipate a 1.5 to 2°C warming and a slight increase in precipitation as a result of global climate change. There have been relatively few studies of climate change effects on pasture and rangeland (grazingland) species compared to those on crop species, despite the economic and ecological importance of the former. Here we review the literature on responses of pastureland and rangeland species to rising atmospheric CO 2 and climate change (temperature and precipitation) and discuss plant and management factors likely to influence pastureland and rangeland responses to change (e.g., community composition, plant competition, perennial growth habit, seasonal productivity, and management methods). Overall, the response of pastureland and rangeland species to increased [CO 2 ] is consistent with the general responses of C 3 and C 4 vegetation, although exceptions exist. Both pastureland and rangeland species may experience accelerated metabolism and advanced development with rising temperature, often resulting in a longer growing season. However, soil resources will often constrain temperature effects. In general, it is expected that increases in [CO 2 ] and precipitation will enhance rangeland net primary production (NPP) whereas increased air temperatures will either increase or decrease NPP. Much of the uncertainty in predicting how pastureland and rangeland species will respond to climate change is due to uncertainty in future projections of precipitation, both globally and regionally. This review reveals the need for comprehensive studies of climate change impacts on pastureland and rangeland ecosystems that include an assessment of the mediating effects of grazing regimes and mutualistic relationships (e.g., plant roots‐nematodes; N‐fixing organisms) as well as changes in water, carbon, and nutrient cycling.

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