Jianhong E. Mu scite author profile

Follow this and additional works at: https://digitalcommons.unl.edu/usgsstaffpub Mu, Jianhong E.; McCarl, Bruce A.; and Wein, Anne W., "Adaptation to Climate Change: Changes in Farmland Use and Stocking Rate in the U.S." (2013). USGS Staff --Published Research. 743.Abstract This paper examines possible adaptations to climate change in terms of pasture and crop land use and stocking rate in the United States (U.S.). Using Agricultural Census and climate data in a statistical model, we find that as temperature and precipitation increases agricultural commodity producers respond by reducing crop land and increasing pasture land. In addition, cattle stocking rate decreases as the summer Temperature-humidity Index (THI) increases and summer precipitation decreases. Using the statistical model with climate data from four General Circulation Models (GCMs), we project that land use shifts from cropping to grazing and the stocking rate declines, and these adaptations are more pronounced in the central and the southeast regions of the U.S. Controlling for other farm production variables, crop land decreases by 6 % and pasture land increases by 33 % from the baseline. Correspondingly, the associated economic impact due to adaptation is around −14 and 29 million dollars to crop producers and pasture producers by the end of this century, respectively. The national and regional results have implications for farm programs and subsidy policies.

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Climate impacts on agricultural land use in the USA: the role of socio-economic scenarios

Sleeter

Abatzoglou

et al. 2017

Climatic Change

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We examine the impacts of climate on net returns from crop and livestock production and the resulting impact on land-use change across the contiguous USA. We first estimate an econometric model to project effects of weather fluctuations on crop and livestock net returns and then use a semi-reduced form land-use share model to study agricultural land-use changes under future climate and socio-economic scenarios. Estimation results show that crop net returns are more sensitive to thermal and less sensitive to moisture variability than livestock net returns; other agricultural land uses substitute cropland use when 30-year averaged degree-days or precipitation are not beneficial for crop production. Under future climate and socio-economic scenarios, we project that crop and livestock net returns are both increasing, but with crop net returns increasing at a higher rate; cropland increases with declines of marginal and pastureland by the end of the twenty-first century. Projections also show that impacts of future climate on agricultural land uses are substantially different and a larger variation of land-use change is evident when socio-economic scenarios are incorporated into the climate impact analysis.

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Methods to assess between-system adaptations to climate change: Dryland wheat systems in the Pacific Northwest United States

Antle

Zhang

et al. 2018

Agriculture, Ecosystems & Environment

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Adaptation with climate uncertainty: An examination of agricultural land use in the United States

McCarl

Sleeter

et al. 2018

Land Use Policy

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Jianhong E. Mu

Adaptation to climate change: changes in farmland use and stocking rate in the U.S.

Climate impacts on agricultural land use in the USA: the role of socio-economic scenarios

Methods to assess between-system adaptations to climate change: Dryland wheat systems in the Pacific Northwest United States

Adaptation with climate uncertainty: An examination of agricultural land use in the United States

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