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The concept of integrated systems in lower input/sustainable agriculture

Published online by Cambridge University Press:  30 October 2009

Clive A. Edwards
Clive A. Edwards
Affiliation:
Chairman, Department of Entomology, 1735 Neil Avenue, The Ohio State University, Columbus, OH 43210
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Abstract

Conventional agriculture has caused economic problems associated with overproduction of crops, increased costs of energy-based inputs and lessened farm incomes. It has also produced ecological problems such as poor ecological diversity, soil erosion, and soil and water pollution. The adoption of integrated systems of agricultural production involving lower inputs of fertilizer, pesticides and cultivations can alleviate these economic and ecological problems. Such systems are dependent upon a good understanding of the nature of interactions between the four main components of such systems, which are fertilizers, pesticides, cultivations and rotations and how these interactions influence crop yields and farm income. Alternatives to energy-based inputs include legume rotations, use of waste organic matter as well as that from animals and crops, integrated pest management, pest and disease forecasting, biological and cultural pest control, living mulches and mechanical weed control, conservation tillage methods, and specialized innovative cultural techniques, including intercropping, strip cropping, undersowing, trap crops, double-row cropping. Two commercial farms in Europe operated on integrated lower input systems have increased farm incomes by 5–20 percent. Further research on such techniques is needed, as well as computer-aided management systems, appropriate extension aids and farmer education.

Keywords

lowered inputfewer cultivationsmore rotationsless fertilizerless ground water contaminationintegrated farm management
Type
Articles
Information
American Journal of Alternative Agriculture , Volume 2 , Issue 4 , Fall 1987 , pp. 148 - 152
Copyright
Copyright © Cambridge University Press 1987

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References

1.Altieri, M. A. 1985. Diversification of agricultural landscapes—a vital element for pest control in sustainable agriculture. In Edens, T. C., Fridgen, C., Battenfield, S. L. (eds.). Sustainable Agriculture and Integrated Farming Systems, pp. 124136.Google Scholar
2.Altieri, M. A. 1987. Agroecology, the scientific basis of alternative agriculture. Westview Press Company.Google Scholar
3.Berardi, G. M. 1978. Organic and conventional wheat production: Examination of energy and economics. AgroEcosystems 4:367376.Google Scholar
4.Buttel, F. H., Gillespie, G. W. Jr., Janke, R., Caldwell, B., and Sarrantonio, M.. 1986. Reduced-input agricultural systems: Rationale and prospects. American Journal of Alternative Agriculture 1(2):5864.CrossRefGoogle Scholar
5.Dabbert, S., and Madden, P.. 1986. The transition to organic agriculture: A multi-year simulation model of a Pennsylvania farm. American Journal of Alternative Agriculture 1(3):107114.CrossRefGoogle Scholar
6.Edens, T. C., Fridgen, C., and Battenfield, S. L. (eds.). 1985. Sustainable Agriculture and Integrated Farming Systems. Michigan State University Press. 344 pp.Google Scholar
7.Edwards, C. A. 1966. Pesticide residues in soils. Residue Reviews 13:83132.Google Scholar
8.Edwards, C. A. 1973. Environmental Pollution by Pesticides. Plenum Publ. Co., London, England, and New York, New York. 542 pp.CrossRefGoogle ScholarPubMed
9.Edwards, C. A. 1988. The importance of integration in lower input agricultural systems. In Paoletti, M. G., Stinner, B. R., and House, G. J. (eds.). Agricultural Ecology and Environment. Publ. Elsevier, Amsterdam (In press).Google Scholar
10.Edwards, C. A., and Heath, G. W.. 1964. The Principles of Agricultural Entomology. Chapman and Hall, London, England. 416 pp.Google Scholar
11.Edwards, C. A., and Lofty, J. R.. 1977. The Biology of Earthworms (Second Edition). Chapman and Hall, London, England. 333 pp.CrossRefGoogle Scholar
12.El Titi, A. 1986. Management of cereal pests and diseases in integrated farming systems. In Proceedings British Crop Protection Conference, Pests and Diseases, pp. 147155.Google Scholar
13.Jenkins, D. 1984. Agriculture and the Environment. In Proceedings of ITE Symposium No. 13. Natural Environment Research Council. Lavenham Press, Suffolk, United Kingdom.Google Scholar
14.Jenkyn, J. F. 1976. Nitrogen and leaf diseases of spring barley. In Proceedings of the 12th Colloquium of the International Potash Institute, Worblaufen, Bern, Switzerland, pp. 119128.Google Scholar
15.Jenkyn, J. F., and Finney, M. E.. 1981. Fertilizers, fungicides and saving date. In Jenkyn, J. F. and Plumb, R. T. (eds.). Strategies for the Control of Cereal Diseases. Blackwell, Oxford, England, pp. 179188.Google Scholar
16.Kerry, B. 1988. Fungal parasites of nematodes and their role in controlling nematode populations. In Edwards, C. A., Stinner, B. R., and Stinner, D. H. (eds.). Interactions Between Soil Organisms. Elsevier, Netherlands (In press).Google Scholar
17.Klein, R. N., Wicks, G. A., and Moomaw, R. S.. 1987. Cultural practices for weed control—ridge planting. In Sustainable Agriculture: Wise and Profitable Use of Our Resources in Nebraska. Nebraska Cooperative Extension Service, Lincoln, Nebraska, pp. 190191.Google Scholar
18.Klepper, R., Lockeretz, W., Commoner, B., Gertler, M., Fast, S., O'Leary, D., and Blobaum, R.. 1977. Economic performance and energy intensiveness of organic and conventional farms in the corn belt: A preliminary comparison. American Journal of Agricultural Economics 59:112.CrossRefGoogle Scholar
19.Kowalski, R., and Visser, P. E.. 1979. Nitrogen in a crop-pest interaction: cereal aphids. In Lee, J. A., McNeill, S., and Rorison, I. H. (eds.). Nitrogen as an Ecological Factor, 2nd Symposium. British Ecological Society, Oxford, England.Google Scholar
20.Lisansky, S. G. 1981. Biological pest control. In Stonehoouse, B. (ed.). Biological Husbandry, A Scientific Approach to Organic Farming. Butterworth Press. pp. 117129.Google Scholar
21.Lockeretz, W., Shearer, G., Kohl, D. H., and Klepper, R. W.. 1984. Comparison of organic and conventional farming in the corn belt. In Bezdicek, D. F. et al. (eds.). Organic Farming: Current Technology and its Role in a Sustainable Agriculture. American Society of Agronomy, Madison, Wisconsin, pp. 3748.Google Scholar
22.Mannering, J. V., and Fenster, C. R.. 1983. What is conservation tillage? Journal of Soil and Water Conservation 38(3):141143.Google Scholar
23.Moomaw, R. 1987. Low cost weed control. In Sustainable Agriculture: Wise and Profitable Use of Our Resources in Nebraska. Nebraska Cooperative Extension Service, Lincoln, Nebraska, pp. 170172.Google Scholar
24.Papendick, R. I., Elliott, L. F., and Dahlgren, R. B.. 1986. Environmental consequences of modern production agriculture: How can alternative agriculture address these issues and concerns? American Journal of Alternative Agriculture 1:310.CrossRefGoogle Scholar
25.Pimentel, D., and Andow, D. A.. 1984. Pest management and pesticide impacts. Insect Science and Application 5:141149.Google Scholar
26.Pimentel, D., Berard, G. M., and Fast, S.. 1983. Energy efficiency of farming systems—organic and conventional agriculture. Agriculture, Ecosystems and Environment 9:359372.CrossRefGoogle Scholar
27.Plucknett, D. L., and Smith, N. J. H.. 1986. Sustaining agricultural yields. BioScience 36:4045.CrossRefGoogle Scholar
28.Sahs, W. W., and Lesoing, G.. 1985. Crop rotations and manure versus agricultural chemicals in dryland grain production. Journal of Soil and Water Conservation 40:511516.Google Scholar
29.Smith, R. J. Jr., 1982. Integration of microbial herbicides with existing pest management programs. In Charudattan, R. and Walker, H. L. (eds.). Biological Control of Weeds with Plant Pathogens. John Wiley and Sons. pp. 189206.Google Scholar
30.Thompson, A. R., and Edwards, C. A.. 1974. Effects of pesticides on non-target organisms in freshwater and in soil. American Soil Science Society Special Publication 8, Chapter 13, pp. 341386.Google Scholar
31.Vereijken, P. 1985. Development of farming systems in Nagele; Preliminary results and prospects. In Edens, T. C., Fridgen, C., Batterfield, S. L. (eds.). Sustainable Agriculture and Integrated Fanning Systems, pp. 124136.Google Scholar
32.Wagstaff, H. 1987. Husbandry methods and farm systems in industrialized countries which use lower levels of external inputs: A review. Agriculture, Ecosystems and Environment, Elsevier, 19:127.CrossRefGoogle Scholar
33.Youngberg, G. 1984. Alternative agriculture in the United States: Ideology, politics and prospects. In Knorr, D. and Watkins, T. R. (eds.). Alterations in Food Production. Van Nostrand Reinhold Company, New York, Cincinnati, Toronto, London, Melbourne, pp. 107135.Google Scholar