Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-29T07:16:11.542Z Has data issue: false hasContentIssue false

A history of organic farming: Transitions from Sir Albert Howard's War in the Soil to USDA National Organic Program

Published online by Cambridge University Press:  12 February 2007

J. Heckman*
Affiliation:
Plant Biology and Pathology Department, Rutgers University, New Brunswick, NJ, 08901, USA,.
*
*Corresponding author: Email: [email protected]

Abstract

The organic farming concept developed in the period prior to 1940 and was pioneered by Sir Albert Howard (1873–1947). Howard, born and educated in England, directed agricultural research centers in India (1905–1931) before permanently returning to England. His years of agricultural research experiences and observations gradually evolved into a philosophy and concept of organic farming that he espoused in several books. Howard's thinking on soil fertility and the need to effectively recycle waste materials, including sewage sludge, onto farmland was reinforced by F.H. King's book, Farmers of Forty Centuries. Howard developed a system of composting that became widely adopted. Howard's concept of soil fertility centered on building soil humus with an emphasis on how soil life was connected to the health of crops, livestock, and mankind. Howard argued that crop and animal health was a birthright and that the correct method of dealing with a pathogen was not to destroy the pathogen but to see what could be learned from it or to ‘make use of it for tuning up agricultural practice’. The system of agriculture advocated by Howard was coined ‘organic’ by Walter Northbourne to refer to a system ‘having a complex but necessary interrelationship of parts, similar to that in living things’. Lady Eve Balfour compared organic and non-organic farming and helped to popularize organic farming with the publication of The Living Soil. Jerome Rodale, a publisher and an early convert to organic farming, was instrumental in the diffusion and popularization of organic concepts in the US. Both Howard and Rodale saw organic and non-organic agriculture as a conflict between two different visions of what agriculture should become as they engaged in a war of words with the agricultural establishment. A productive dialogue failed to occur between the organic community and traditional agricultural scientists for several decades. Organic agriculture gained significant recognition and attention in 1980, marked by the USDA publication Report and Recommendations on Organic Farming. The passage of the Federal Organic Foods Production Act in 1990 began the era of accommodation for organic farming in the USA, followed by another milestone with official labeling as USDA Certified Organic in 2002. Organic agriculture will likely continue to evolve in response to ongoing social, environmental, and philosophical concerns of the organic movement.

Type
Review Article
Copyright
Copyright © Cambridge University Press 2006

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

01Tate,, W.B. The development of the organic industry and market: an international perspective. In Lampkin,, N.H. and Padel,, S. (eds). The Economics of Organic Farming. CAB, Wallingford, UK. p. 1125.Google Scholar
02Harwood,, R.R. (1984) Organic farming research at the Rodale Research Center. In Bezdicek,, D.F., Power,, J.F., Keeney,, D.R. and Wright,, M.J. (eds). Organic Farming: Current Technology and its Role in a Sustainable Agriculture. American Society of Agronomy, Crop Science Society of America, Soil Science Society of America. Madison, WI, 117.Google Scholar
03Thicke,, F. (2003) Ecological Organic Agriculture.Acres USA.Google Scholar
04Rodale,, J.I. 1956. Places to visit.Organic Gardening and Farming.Google Scholar
05Conford,, P. (2001) The Origins of the Organic Movement. Floris Books,Glasgow, UK.Google Scholar
06Steiner,, R. (1958) Agriculture: A Course of Eight Lectures, Biodynamic Agriculture Association, London. p. 175.Google Scholar
07Gieryn,, T.F. (1999) Cultural Boundaries of Science: Credibility on the Line. University of Chicago Press, Chicago, IL. p. 233335 .Google Scholar
08Howard,, A. (1943) An Agricultural Testament. Oxford University Press, New York.Google Scholar
09Fitzpatrick,, G.F., Worden,, E.C. and Vendrame,, W.A. (2005) Historical development of composting technology during the 20th Century. HortTechnology 15: 4851.CrossRefGoogle Scholar
10King,, F.H. (1911) Farmers of Forty Centuries. Rodale Press, Emmaus, PA.Google Scholar
11Schwartz,, R. 2001. France in the Age of Les Misérables. Mount Holyoke College. Website: http://www.mtholyoke.edu/courses/rschwart/hist255-s01/index.html (verified on May 19, 2005).Google Scholar
12Howard,, A. (1972) The Soil and Health. Schocken Books, New York.Google Scholar
13van der Ploeg,, R.R., Bohm,, W. and Kirkham,, M.B. (1999) On the origin of the theory of mineral nutrition of plants and the law of the minimum. Soil Science Society of America Journal 63: 10551062.CrossRefGoogle Scholar
14Brady,, N.C. and Weil,, R.R. (2002) The Nature and Properties of Soils. 13th ed. Prentice-Hall, Upper Saddle, River, NJ.Google Scholar
15Magdoff,, F.R. and Weil, R.R. (2004) Soil Organic Matter in Sustainable Agriculture. CRC Press, Boca Raton, FL.CrossRefGoogle Scholar
16Howard,, A. (1946) The War in the Soil. Rodale Press, Emmaus, PA.Google Scholar
17Rodale,, J.I. (1946) Pay Dirt. Rodale Press, Emmaus, PA.Google Scholar
18Owen,, A.G. and Jones,, D.L. (2001) Competition for amino acids between wheat roots and rhizosphere microorganisms and the role of amino acids in plant N acquisition. Soil Biology and Biochemistry 33: 651657.CrossRefGoogle Scholar
19ENVIRO-BRIEFS No. 1. Crop plants take up absorb nutrients only in inorganic form. Website: http://www.ppi-ppic.org/enviro-briefs (verified on May 19, 2005).Google Scholar
20Reich,, W. (1973) Ether, God and Devil. Farrar, Straus & Giroux, New York.Google Scholar
21Hershey,, D.R. (1992) Sir Albert Howard and the Indore Process. HortTechnology 2: 267269.CrossRefGoogle Scholar
22Howard,, A. (1945) Introduction. In Darwin on Humus and the Earthworm. Faber and Faber, London. p. 918.Google Scholar
23Balfour,, E.B. (1976) The Living Soil and the Haughley Experiment. Universe Books, New York.Google Scholar
24Scofield,, A.M. (1986) Organic farming—the origin of the name. Biological Agriculture and Horticulture 4: 15.CrossRefGoogle Scholar
25Margulis,, L. (1998) Symbiotic Planet. Basic Books, New York.Google Scholar
26Rodale,, J.I. 1942. An introduction to organic farming. Organic Farming and Gardening May.Google Scholar
27Kelly,, W.C. (1992) Rodale Press and Organic Gardening. HortTechnology 2: 270271.CrossRefGoogle Scholar
28Rodale,, J.I. (1984) The Organic Front. Rodale Press, Emmaus, PA.Google Scholar
29Mergentime,, K. 1994. History of Organic. Website: http://www.ofrf.org/press/otherreports.html (verified on May 19, 2005).Google Scholar
30Bear,, F.E. (1947) Facts … and fancies about fertilizer. Plant Food Journal April: 16.Google Scholar
31Truog,, E. (1963) The organic gardening myth. Soil Survey Horizons 4: 1219.CrossRefGoogle Scholar
32Truog,, E. (1946) Organics only?—Bunkum!. The Land 5: 317321.Google Scholar
33Manchester,, H. (1962) The great organic gardening myth. Reader's Digest July: 102105.Google Scholar
34Beeman,, R. (1993) The Trash Farmer: Edward Faulkner and the Origins of Sustainable Agriculture in the United States, 19431953. Journal of Sustainable Agriculture 4: 91102.Google Scholar
35Bromfield,, L. (1945) Pleasant Valley. Harper, New York.Google Scholar
36Bromfield,, L. (1948) Malabar Farm. Harper, New York.CrossRefGoogle Scholar
37Bromfield,, L. (1950) Out of the Earth. Harper, New York.Google Scholar
38Faulkner,, E.H. (1943) Plowmans Folly. Grosset & Dunlap, New York.Google Scholar
39Harwood,, R.R. (1990) A history of sustainable agriculture. In Edwards,, C.A., Lal,, R., Madden,, P., Miller,, R.H. and House,, G. (eds). Sustainable Agriculture Systems. Soil and Water Conservation Society, Ankeny, Iowa. p. 319.Google Scholar
40Ford,, D. (1982) The Cult of the Atom. Simon and Schuster, New York.Google Scholar
41Carson,, R. (1963) Silent Spring. Houghton Mifflin, Boston, MA.Google Scholar
42Beyl,, C.A. (1992) Rachel Carson Silent Spring the Environmental Movement. HortTechnology 2: 272275.CrossRefGoogle Scholar
43Lotter,, D.W. (2003) Organic Agriculture. Journal of Sustainable Agriculture 21: 59128.CrossRefGoogle Scholar
44Oelhaf,, R.C. (1978) Organic Agriculture, Economic and Ecological—Comparisons with Conventional Methods. John Wiley & Sons, New York.Google Scholar
45USDA. 1980. Report and recommendations on organic farming. USDA 620-220-3641. p. 94.Google Scholar
46Bezdicek,, D.F., Power,, J.F., Keeney,, D.R., and Wright,, M.J. (eds) (1984). Organic Farming: Current Technology and its Role in a Sustainable Agriculture. American Society of Agronomy, Crop Science Society of America, Soil Science Society of America. Madison, WI.CrossRefGoogle Scholar
47Alternative Farming Systems Information Center. 1991. Oral history interview with Garth Yangburg. Oral History Interview Series. Website: http://www.nal.usda.gov/afsic/ (verified on May 19, 2005).Google Scholar
48Treadwell,, D.D., McKinney,, D.E. and Creamer, N.G. (2003) From Philosophy to Science: A Brief History of Organic Horticulture in the United States. HortScience 38: 10091013.CrossRefGoogle Scholar
49Grubinger,, V. (1992) Organic Vegetable Production and How it Relates to LISA. HortScience 27: 759760.CrossRefGoogle Scholar
50Nowels,, K.E. (2002) Happy trails. CropLife July: 3032.Google Scholar
51Liebhardt,, W.C., Andrews,, R.W., Culik,, M.N., Harwood,, R.R., Janke,, R.R., Radke,, J.K., and Rieger-Schwartz,, S.L. (1989) Crop production during conversion from conventional to low-input methods. Agronomy Journal 81: 150159.CrossRefGoogle Scholar
52Congressional Record. 1990. Public Law 101-624. 28 Nov. 1990. Food, Agriculture, Conservation and Trade Act of 1990. Title XXI, Organic Certification. Congressional Record S10959, Washington, DC.Google Scholar
53Harrison,, E. 2005. Cornell Waste Management Institute. Website: http://cwmi.css.cornell.edu/Sludge.html (verified on May 19, 2005).Google Scholar
54Walz,, E. 2004. Fourth National Organic Farmers' Survey: Sustaining Organic Farms in a Changing Organic Marketplace. Organic Farming Research Foundation, Santa Cruz, CA.Google Scholar
55USDA-ERS (USDA-Economic Research Service). 2004. USDA-ERS, Washington, DC. Website: http://www.ers.usda.gov/data/Organic/ (verified on May 19, 2005).Google Scholar
56USDA-AMS (USDA-Agricultural Marketing Service). 2004. USDA-AMS, Washington, DC. Website: http://www.ams.usda.gov/nop (verified on May 19, 2005).Google Scholar
57Fromartz,, S. 2002. Why I can no longer say I am ‘certified organic’.New York Times.Google Scholar
58Norberg-Hodge,, H. (2000) Is organic enough? Ecologist 30: 45.Google Scholar
59Fallon,, S. 2005. Weston A. Price Foundation. Website: http://www.realmilk.com (verified on May 19, 2005).Google Scholar
60Johnson,, J. (2003) Quantum Agriculture, A Complementary Approach to Sustainable Agriculture. Windsor, CA.Google Scholar
61Claymond,, H.J. (1985) Preliminary indications for an energetic concept of soil fertility. Offshoots of Orgonomy 11: 812.Google Scholar
62Andersen,, A.B. (1989) The Anatomy of Life & Energy in Agriculture. Acres USA, Kansas City, MO.Google Scholar
63DeMeo,, J. (2002) Orgone Accumulator Stimulation of Sprouting Mung Beans. Pulse of the Planet 5: 168175.Google Scholar
64Cierpka,, T. and Geir, B. (2003) A social agenda for organic agriculture. In Organization for Economic Co-operation and Development (ed.). Organic Agriculture, Sustainability Markets and Policies. CABI Publishing, Wallingford, UK. p. 171173.Google Scholar
65Organic Trade Association. 2005. Grocery Store Wars. Website: http://www.storewars.org/flash/index.html. (verified on June 9, 2005).Google Scholar
66Delate,, K. and DeWitt, J. (2004) Building a Farmer Centered Land Grant University Organic Agriculture Program: A Midwestern Partnership. Renewable Agriculture and Food Systems 19: 8091.CrossRefGoogle Scholar
67Phelan,, P.L. (2004) Connecting belowground and aboveground food webs: the role of organic matter in biological buffering. In Magdoff,, F. and Weil,, R.R. (eds). Soil Organic Matter in Sustainable Agriculture. CRC Press, Boca Raton, FL. p. 199225.Google Scholar
68Mikkelson,, R.L. (2000) Nutrient Management for Organic Farming: A Case Study. Journal of Natural Resources and Life Sciences Education 29: 8892.CrossRefGoogle Scholar
69Jenkins,, J. (1999) The Humanure Handbook, Guide to Composting Human Manure. Jenkins Publishing, Grove City, PA. website: http://www.jenkinspublishing.com.Google Scholar
70Magdoff,, F.R., Lanyon,, L.E., and Liehardt,, W. (1997) Nutrient cycling, transformations, and flows: implications for a more sustainable agriculture. In Sparks,, D.L. (ed.). Advances in Agronomy, Vol. 60. Academic Press, Boca Raton, FL. p. 273 .Google Scholar
71Soule,, J.D. and Piper,, J.K. (1992) Farming in Nature's Image: An Ecological Approach to Agriculture. Island Press, Washington, DCGoogle Scholar