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Blanket NOP rules and regional realities: from the field

Published online by Cambridge University Press:  27 April 2022

Emily M. Miller*
Affiliation:
Rural Sociology, Division of Applied Social Sciences, University of Missouri, Columbia, MO, USA
Mary Hendrickson
Affiliation:
USDA, Rural Sociology, Division of Applied Social Sciences, University of Missouri, Columbia, MO, USA
Christopher Murakami
Affiliation:
Falk School of Sustainability & Environment, Chatham University, Pittsburgh, PA
Kerry Clark
Affiliation:
Rural Sociology, Division of Applied Social Sciences, University of Missouri, Columbia, MO, USA
*
*Corresponding author: Emily M. Miller, Email: [email protected]

Abstract

There are fewer Certified Organic producers in the Mid-South US (southern half of Missouri, western Kentucky and Tennessee, northern Arkansas and eastern Oklahoma) than in other regions of the country such as the Upper Midwest, West Coast, or Northeastern US. Taus et al. (2013) The Professional Geographer 65, 87–102, posit that these clusters suggest regional characteristics impact adoption of organic agriculture and admit that regional studies lack consensus on the role of factors that drive adoption. This paper seeks to understand if there are regionally distinct challenges and opportunities for organic production in the region. Fourteen certified organic producers in Missouri were interviewed and areas of challenges and opportunities specific to their certification were identified within the three a priori themes of (1) biophysical characteristics, (2) marketing infrastructure and (3) financial feasibility. We suggest directions for future policy support from the National Organic Program (NOP) and bolstered feedback structures within the National Organic Standards Board to address regional disparities.

Type
From the Field
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press

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References

Azadi, H, Schoonbeek, S, Mahmoudi, H, Derudder, B, De Maeyer, P, and Witlox, P (2011) Organic agriculture and sustainable food production system: Main potentials. Agriculture, Ecosystems & Environment 144, 429436.CrossRefGoogle Scholar
Bäumler, R, Zech, W, Heuberger, H and Weber-Diefenbach, K (1991) Investigations on the intensity of weathering of soils developed from glacial and fluvioglacial deposits and their relationship with the history of the landscape in the Mt. Everest region. Geoderma 48, 223243.CrossRefGoogle Scholar
Carusi, C, Gurda, A, McNair, R, Pfeiffer, A and Silva, E (2015) Organic Agriculture in Wisconsin: 2015 Status Report. Available at https://www.cias.wisc.edu/wp-content/uploads/2015/02/ciasorganicreport2015final041615.pdf.Google Scholar
Constance, D and Choi, JY (2010) Overcoming the Barriers to Organic Adoption in the United States: A Look at Pragmatic Conventional Producers in Texas. Sustainability 2, 163188.CrossRefGoogle Scholar
Fließbach, A, Oberholzer, HR, Gunst, L and Mäder, P (2007) Soil organic matter and biological soil quality indicators after 21 years of organic and conventional farming. Agriculture, Ecosystems & Environment 118, 273284.CrossRefGoogle Scholar
Greene, C, Dimitri, C, Lin, B-H, Mcbride, W, Oberholtzer, L and Smith, T (2009) Emerging Issues in the U.S. Organic Industry. Washington, DC: USDA-ERS.Google Scholar
Lambers, H, Raven, JA, Shaver, GR and Smith, SE (2008) Plant nutrient-acquisition strategies change with soil age. Trends in Ecology & Evolution 23, 95103.CrossRefGoogle ScholarPubMed
Mader, P, Fließbach, A, Dubois, D, Gunst, L, Fred, P and Miggli, U (2002) Soil Fertility and Biodiversity in Organic Farming. Science Magazine, 296, 16941697.Google ScholarPubMed
Marasteanu, I and Jaenicke, E (2016) Hot spots and spatial autocorrelation in certified organic operations in the United States. Agricultural and Resource Economics Review 45, 485521.CrossRefGoogle Scholar
Mosier, SL and Thilmany, D (2016) Diffusion of food policy in the U.S.: The case of organic certification. Food Policy 61, 8091.CrossRefGoogle Scholar
Reganold, JP and Wachter, JM (2016) Organic agriculture in the twenty-first century. Nature Plants 2, 15221.CrossRefGoogle ScholarPubMed
Sheldon, ND, Retallack, GJ and Tanaka, S (2002) Geochemical climofunctions from North American soils and application to paleosols across the Eocene-Oligocene boundary in Oregon. The Journal of Geology 110, 687696.CrossRefGoogle Scholar
Taus, A, Ogneva-Himmelberger, Y and Rogan, J (2013) Conversion to Organic Farming in the Continental United States: A Geographically Weighted Regression Analysis. The Professional Geographer 65, 87102.CrossRefGoogle Scholar
Uematsu, H and Mishra, AK (2012) Organic farmers or conventional farmers: Where's the money? Ecological Economics 78, 5562.CrossRefGoogle Scholar
USDA NASS (2015) Certified Organic Survey. Washington, DC: USDA.Google Scholar
USDA NASS (2016) Certified Organic Survey. Washington, DC: USDA.Google Scholar
Veldstra, MD, Alexander, CE and Marshall, MI (2014) To certify or not to certify? Separating the organic production and certification decisions. Food Policy 49, 429436.CrossRefGoogle Scholar
Wheeler, SA (2008) What influences agricultural professionals' views towards organic agriculture? Ecological Economics 65, 145154.CrossRefGoogle Scholar