Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-21T17:14:47.841Z Has data issue: false hasContentIssue false

A survey of cover crop practices and perceptions of sustainable farmers in North Carolina and the surrounding region

Published online by Cambridge University Press:  07 October 2014

S. O'Connell*
Affiliation:
Horticulture Department, University of Georgia, 1111 Plant Science Bldg, Athens, Georgia 30602, USA.
J.M. Grossman
Affiliation:
Department of Soil Science, North Carolina State University, Box #7619, Raleigh, North Carolina 27695, USA.
G.D. Hoyt
Affiliation:
Department of Soil Science, North Carolina State University, Box #7619, Raleigh, North Carolina 27695, USA. Department of Horticultural Science, North Carolina State University, Box #7609, Raleigh, North Carolina 27695, USA.
W. Shi
Affiliation:
Department of Soil Science, North Carolina State University, Box #7619, Raleigh, North Carolina 27695, USA.
S. Bowen
Affiliation:
Department of Sociology and Anthropology, North Carolina State University, Box #8107, Raleigh, North Carolina 27695, USA.
D.C. Marticorena
Affiliation:
Department of Horticultural Science, North Carolina State University, Box #7609, Raleigh, North Carolina 27695, USA.
K.L. Fager
Affiliation:
Department of Horticultural Science, North Carolina State University, Box #7609, Raleigh, North Carolina 27695, USA.
N.G. Creamer
Affiliation:
Department of Horticultural Science, North Carolina State University, Box #7609, Raleigh, North Carolina 27695, USA.
*
*Corresponding author: soco@uga.edu

Abstract

The environmental benefits of cover cropping are widely recognized but there is a general consensus that adoption levels are still quite low among US farmers. A survey was developed and distributed to more than 200 farmers engaged in two sustainable farming organizations in NC and the surrounding region to determine their level of utilization, current practices and perceptions related to cover cropping. The majority of farms surveyed had diverse crop production, production areas <8 ha, and total gross farm incomes <US$50,000. Approximately one-third of the survey population had an organic production component. Eighty-nine percent of participants had a crop rotation plan and 79% of the total survey population utilized cover cropping. More than 25 different cool- and warm-season cover crops were reported. The statements that generated the strongest agreement about cover crop benefits were that cover crops: increase soil organic matter, decrease soil erosion, increase soil moisture, contribute nitrogen to subsequent cash crops, suppress weeds, provide beneficial insect habitat and break hard pans with their roots. Economic costs associated with cover cropping were not viewed as an obstacle to implementation. A factor analysis was conducted to identify underlying themes from a series of positive and negative statements about cover crops. Pre- and post-management challenges were able to explain the most variability (30%) among participant responses. Overall, participants indicated that the incorporation of residues was their greatest challenge and that a lack of equipment, especially for no-till systems, influenced their decisions about cover cropping. Farmers did not always appear to implement practices that would maximize potential benefits from cover crops.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1 Dunlap, R.E., Beus, C.E., Howell, R.E., and Waud, J. 1993. What is sustainable agriculture? An empirical examination of faculty and farmer definitions. Journal of Sustainable Agriculture 3(1):540.Google Scholar
2 Janzen, H.H. and Schaalje, G.B. 1992. Barley response to nitrogen and non-nutritional benefits of legume green manure. Plant Soil 142:1930.Google Scholar
3 Lal, R., Regnier, E., Eckert, D.J., Edwards, W.M., and Hammond, R. 1991. Expectations of cover crops for sustainable agriculture. In Hargrove, W.L. (ed.). Cover Crops for Clean Water. SWCS, Ankeny, IA. p. 111.Google Scholar
4 Shepherd, M.A., Harrison, R., and Webb, J. 2002. Managing soil organic matter – implications for soil structure on organic farms. Soil Use and Management 18:284292.Google Scholar
5 Dabney, S.M., Delgado, J.A., and Reeves, D.W. 2001. Using winter cover crops to improve soil and water quality. Communications in Soil Science and Plant Analysis 32(7):12211250.Google Scholar
6 Singer, J.W., Nusser, S.M., and Alf, C.J. 2007. Are cover crops being used in the US corn belt? Journal of Soil and Water Conservation 62(5):353358.Google Scholar
7 Grau, S. 2010. Cropping decisions survey. Corn and Soybean Digest. Conservation Technology Information Center. Available at Web site http://www.ctic.org/media/pdf/Cover%20Crops/CTIC_HGBF_CroppingDecisionsSurvey_CoverCropSummary.pdf (accessed September 24, 2014).Google Scholar
8 Drost, D.T., Long, G., Wilson, D., Miller, B., and Campbell, W. 1996. Barriers to adopting sustainable agricultural practices. Journal of Extension 34(6):16.Google Scholar
9 Stivers-Young, L.J. and Tucker, F.A. 1999. Cover cropping practices of vegetables producers in western New York. HortTech 9(3):459465.Google Scholar
10 Maryland Department of Agriculture (MDA). 2012. Annual Report. Available at Web site http://mda.maryland.gov/Documents/12mda_ar.pdf (accessed September 24, 2014).Google Scholar
11 USDA Census of Agriculture. 2009. 2007 summary and state data. Vol. 1, Geographic area series, Part 20. Available at Web site http://www.agcensus.usda.gov/Publications/2007/Full_Report/Volume_1,_Chapter_1_State_Level/Maryland/mdv1.txt Google Scholar
12 Duram, L. 1999. Factors in organic farmers' decision making: Diversity, challenge, and obstacles. American Journal of Alternative Agriculture 14:29.Google Scholar
13 USDA Census of Agriculture. 2009. 2007 U.S. summary and state data. Vol. 1, Geographic area series, Part 51. AC-070A051 Available at Web site http://www.agcensus.usda.gov/Publications/2007/Online_Highlights/Fact_Sheets Google Scholar
14 Creamer, N.G. and Baldwin, K.R. 2000. An evaluation of summer cover crops for use in vegetable production systems in North Carolina. HortScience 35(4):600603.Google Scholar
15 Reberg-Horton, S.C., Burton, J., Danehower, D.A., Ma, G., Monks, D.W., Murphy, J.P., Ranells, N.N., Williamson, J.D., and Creamer, N.G. 2005. Changes over time in the allelochemical content of ten cultivars of rye (Secale cereal L.). Journal of Chemical Ecology 31:1.Google Scholar
16 Sainju, U.M. and Singh, B.P. 2008. Nitrogen storage with cover crops and nitrogen fertilization in tilled and nontilled soils. Agronomy Journal 100(3):619627.Google Scholar
17 Reberg-Horton, C.S., Grossman, J.M., Kornecki, T.S., Meijer, A.D., Price, A.J., Place, G., and Webster, T.M. 2012. Utilizing cover crop mulches to reduce tillage in organic systems in the Southeastern USA. Renewable Agriculture and Food Systems 27(1):4148.Google Scholar
18 Hansen, Z.R. and Keinath, A.P. 2013. Increased pepper yields following incorporation of biofumigation cover crops and the effects on soilborne pathogen populations and pepper diseases. Applied Soil Ecology 63:6777.Google Scholar
19 Ranells, N.N. and Wagger, M.G. 1996. Nitrogen release from grass and legume cover crop monocultures and bicultures. Journal of Agronomy 88(5):777782.Google Scholar
20 Wilson, D.O. and Hargrove, W.L. 1986. Release of nitrogen from crimson clover residue under two tillage systems. Soil Science Society of America Journal 50:12511254.Google Scholar
21 Hoyt, G.D., Monks, D.W., and Monaco, T.J. 1994. Conservation tillage for vegetable production. HortTechnology 4:129135.Google Scholar
22 Treadwell, D.D., Creamer, N.G., Hoyt, G.D., and Schultheis, J.R. 2008. Nutrient management with cover crops and compost affects development and yield in organically managed sweet potato systems. HortScience 43(5):14231433.Google Scholar
23 Parr, M.M., Grossman, J.M., Reberg-Horton, S.C., Brinton, C., and Crozier, C. 2011. Nitrogen delivery from legume cover crops in no-till organic corn production. Agronomy Journal 103(6):15781590.Google Scholar
24 Sainju, U.M., Schomberg, H.H., Singh, B.P., Whitehead, W.F., Tillman, P.G., and Lachnicht-Weyers, S.L. 2007. Cover crop effect on soil carbon fractions under conservation tillage cotton. Soil and Tillage Research 96(1–2):205218.Google Scholar
25 Abadi Ghadim, A.K. and Pannell, D.J. 1999. A conceptual framework of adoption of an agricultural innovation. Agricultural Economics 21:145154.Google Scholar
26 Bergtold, J.S., Duffy, P.A., Hite, D., and Raper, R.L. 2012. Demographic and management factors affecting the perceived benefit of winter cover crops in the Southeast. Journal of Agricultural and Applied Economics 44(1):99116.Google Scholar
27 Prokopy, L.S., Floress, K., Klotthor-Weinkauf, D., and Baumgart-Getz, A. 2008. Determinants of agricultural best management practice adoption: Evidence from the literature. Journal of Soil and Water Conservation 63:300311.Google Scholar
28 Soule, M.J. 2001. Soil management and the farm typology: Do small family farms manage soil and nutrient resources differently than large family farms? Agricultural and Resource Economics Review 30(2):179188.Google Scholar
29 Krueger, K. (ed.). 2012. North Carolina Department of Agriculture and Consumer Services and USDA Agricultural Statistics Service, 2012 NC Agricultural Statistics. Available at Web site http://www.ncagr.gov/stats/2013AgStat/AgStat2013.pdf (accessed September 23, 2014).Google Scholar
30 Rummel, R.J. 1970. Applied Factor Analysis. Northwestern University Press, Evanston.Google Scholar
31 Mohler, C.L. and Johnson, S.E. (Ed.) 2009. Crop Rotation on Organic Farms: A Planning Manual. Natural Resource, Agriculture, and Engineering Service – Series 177. PALS Publishing, Ithaca, NY.Google Scholar
32 Liebman, M. and Dyck, E. 1993. Crop rotation and intercropping strategies for weed management. Ecological Applications 3:92122.Google Scholar
33 McGuire, A.M., Bryant, D.C., and Denison, R.F. 1998. Wheat yields, nitrogen uptake, and soil moisture following winter legume cover crop vs. fallow. Agronomy Journal 90:404410.Google Scholar
34 Kornecki, T.S., Price, A.J., Raper, R.L., and Arriaga, F.J. 2009. New roller crimper concepts for mechanical termination of cover crops in conservation agriculture. Renewable Agriculture and Food Systems 24(3):165173.Google Scholar
35 Catroux, G., Hartmann, A., and Revellin, C. 2001. Trends in rhizobial inoculant production and use. Plant and Soil 230:2130.Google Scholar
36 Mothapo, N.V., Grossman, J.M., Sooksa-nguan, T., Maul, J., Brauer, S.L., and Shi, W. 2013. Cropping history affects nodulation and symbiotic efficiency of distinct hairy vetch (Vicia villosa Roth.) genotypes with resident soil rhizobia. Biology and Fertility Soils 49:471879.Google Scholar
37 Franzluebbers, A.J. 2007. Integrated crop–livestock systems in the Southeastern USA. Agronomy Journal 99:361372.Google Scholar
38 Bugg, R.L. and Waddington, C. 1994. Using cover crops to manage anthropod pest of orchards: A review. Agriculture, Ecosystems and Environment 50:1128.Google Scholar
39 Sirrine, J.R., Letourneau, D.K., Shennan, C., Sirrine, D., Fouch, R., Jackson, L., and Mages, A. 2008. Impacts of groundcover management systems on yield, leaf nutrients, weeds, and anthropods or tart cherry in Michigan, USA. Agriculture, Ecosystems and Environment 125(1–4):239245.Google Scholar
40 Wenger, E. 1998. Communities of Practice: Learning, Meaning, and Identity. Cambridge University Press, New York.Google Scholar
41 Habron, G. 2004. Adoption of conservation practices by agricultural landowners in three Oregon watersheds. Journal of Soil and Water Conservation 59(3):109115.Google Scholar
42 Westra, J. and Olson, K. 1997. Farmers’ decision processes and adoption of conservation tillage. Department of Applied Economics. Staff Paper P97–9. University of Minnesota.Google Scholar
43 Hoppe, R.A. and Banker, D.E. Structure and finances of U.S. farms: Family farm report, 2010 edition, EIB-66. U.S. Department of Agriculture, Economic Research Service. July 2010.Google Scholar
44 Buttel, F.H., Gillespie, G.W. Jr, Larson, G.W. III, and Harris, C.K. 1981. The social basis of agrarian environmentalism: A comprehensive analysis of New York and Michigan farm operators. Rural Sociology 46(3):391410.Google Scholar
45 Alston, D.G. and Reding, M.E. 1998. Factors influencing adoption and educational outreach of integrated pest management. Journal of Extension 36(3):18.Google Scholar