Agricultural yield geographies in the United States

We examine the geographies of agricultural yields in the United States, home to some of the most productive agricultural systems on the planet. We model and map yield divergence from biophysical expectations and regional norms for five major crops—corn, soy, wheat, alfalfa, and hay—and assess how th...

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Published in:	Environmental research letters Vol. 16; no. 5; pp. 54051 - 54063
Main Authors:	Burchfield, Emily K, Nelson, Katherine S
Format:	Journal Article
Language:	English
Published:	Bristol IOP Publishing 01-05-2021
Subjects:	Agricultural aircraft Agricultural practices Agricultural production Alfalfa Cereal crops Crop yield Expenditures Farmers Farming systems Farms Federal programs Innovations Norms Soil water United States yield United States > US
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Abstract	We examine the geographies of agricultural yields in the United States, home to some of the most productive agricultural systems on the planet. We model and map yield divergence from biophysical expectations and regional norms for five major crops—corn, soy, wheat, alfalfa, and hay—and assess how this divergence interacts with farm-level resources, farm(er) characteristics, and landscape context. Our results highlight the ways in which human activity has reinforced and intensified the yield geographies defined by sun, soil, and water alone. Yield gains brought by human activity are strongly associated with increased expenditure on inputs to production and receipts from federal programs, but not with net revenue gains for farmers. These yield gains vary across operator race, gender, farm size, and major US region. We also find that beyond a threshold, increased input expenditure is associated with marginally decreasing yields, raising important questions about the interactions between yields and farmer livelihoods. We conclude by discussing the importance of broadening the production-centric paradigm that has dominated agricultural innovation over the last century to include the well-being of the farmers and ecological systems on which agricultural production ultimately depends.
AbstractList	We examine the geographies of agricultural yields in the United States, home to some of the most productive agricultural systems on the planet. We model and map yield divergence from biophysical expectations and regional norms for five major crops—corn, soy, wheat, alfalfa, and hay—and assess how this divergence interacts with farm-level resources, farm(er) characteristics, and landscape context. Our results highlight the ways in which human activity has reinforced and intensified the yield geographies defined by sun, soil, and water alone. Yield gains brought by human activity are strongly associated with increased expenditure on inputs to production and receipts from federal programs, but not with net revenue gains for farmers. These yield gains vary across operator race, gender, farm size, and major US region. We also find that beyond a threshold, increased input expenditure is associated with marginally decreasing yields, raising important questions about the interactions between yields and farmer livelihoods. We conclude by discussing the importance of broadening the production-centric paradigm that has dominated agricultural innovation over the last century to include the well-being of the farmers and ecological systems on which agricultural production ultimately depends. We examine the geographies of agricultural yields in the United States, home to some of the most productive agricultural systems on the planet. We model and map yield divergence from biophysical expectations and regional norms for five major crops—corn, soy, wheat, alfalfa, and hay—and assess how this divergence interacts with farm-level resources, farm(er) characteristics, and landscape context. Our results highlight the ways in which human activity has reinforced and intensified the yield geographies defined by sun, soil, and water alone. Yield gains brought by human activity are strongly associated with increased expenditure on inputs to production and receipts from federal programs, but not with net revenue gains for farmers. These yield gains vary across operator race, gender, farm size, and major US region. We also find that beyond a threshold, increased input expenditure is associated with marginally decreasing yields, raising important questions about the interactions between yields and farmer livelihoods. We conclude by discussing the importance of broadening the production-centric paradigm that has dominated agricultural innovation over the last century to include the well-being of the farmers and ecological systems on which agricultural production ultimately depends.
Author	Nelson, Katherine S Burchfield, Emily K
Author_xml	– sequence: 1 givenname: Emily K orcidid: 0000-0003-0459-6270 surname: Burchfield fullname: Burchfield, Emily K organization: Emory University Department of Environmental Sciences, 400 Dowman Drive, Atlanta, GA 30322, United States of America – sequence: 2 givenname: Katherine S orcidid: 0000-0002-4240-5474 surname: Nelson fullname: Nelson, Katherine S organization: Kansas State University Department of Geography and Geospatial Sciences, 920 N. 17th Street, Manhattan, KS, United States of America
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Snippet	We examine the geographies of agricultural yields in the United States, home to some of the most productive agricultural systems on the planet. We model and...
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SubjectTerms	Agricultural aircraft Agricultural practices Agricultural production Alfalfa Cereal crops Crop yield Expenditures Farmers Farming systems Farms Federal programs Innovations Norms Soil water United States yield
Title	Agricultural yield geographies in the United States
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