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Sustainable Agricultural Production on a Small Farm

  • Kodoth Prabhakaran Nair
Chapter

Abstract

The sustainability of a small farm is linked to both biophysical and socioeconomic factors, and, the various operations on the farm. To be sustainable, the farm should have stable productivity, economic profitability and ecological security. The chapter discusses the above factors, at length.

Keywords

Small farm Socio economic factors High external input Developing countries Sustainable development Brundtland Commission Report Economic viability Hierarchy of agricultural systems Population density Production processes 

References

  1. Cassman, K. G., & Harwood, R. R. (1995). The nature of agricultural systems: Food security and environmental balance. Food Policy, 20(5), 439–454.CrossRefGoogle Scholar
  2. Cassman, K. G., Olk, D. C., & Dobermann, A. (1997). Scientific evidence of yield and productivity decline in irrigated rice systems of tropical Asia. International Rice Commission Newsletter, 46, 7–16.Google Scholar
  3. CGIAR/TAC. (1988). Sustainable agricultural production: Implications for international agricultural research. Washington, DC: Consultative Group for International Agricultural Research.Google Scholar
  4. Conway, G. R., & Barbier, E. B. (1990). After the Green Revolution: Sustainable agriculture for development. London: Earthscan.Google Scholar
  5. Douglas, G. K. (1984). Agricultural sustainability in a changing world order. Boulder: Westview Press.Google Scholar
  6. Evans, L. T. (1998). Feeding the Ten Billion: Plants and population growth. Cambridge: Cambridge University Press.Google Scholar
  7. Harwood, R. R. (1990). A history of sustainable agriculture. In C. A. Edwards, R. Lal, P. Madden, R. H. Miller, & G. House (Eds.), Sustainable Agricultural Systems (pp. 3–19). Ankey: Soil and Water Conservation Society.Google Scholar
  8. Herdt, R. W., & Steiner, R. A. (1995). Agricultural sustainability: Concepts and conundrums. In V. Barnett, R. Payne, & R. Steiner (Eds.), Agricultural sustainability: Economic, environmental and statistical considerations (pp. 1–17). New York: Wiley.Google Scholar
  9. Izac, A. M. N. (1994). Ecological economic assessment of soil management practices in tropical countries. In D. J. Greenkand & I. Szabolcs (Eds.), Soil resilience and sustainable land use (pp. 77–96). Wallingford: CAB International.Google Scholar
  10. King, F. H. (1911). Farmers of forty centuries. Emmaus: P.A. Rodale Press.Google Scholar
  11. Ladha, J. K., Pathak, H., Padre, A. T., Dave, D., & Gupta, R. K. (2003). Productivity trends in intensive rice-wheat cropping systems in Asia. In J. K. Ladha, J. Hill, R. K. Gupta, J. Duxbury, & R. J. Buresh (Eds.), Improving the productivity and sustainability of the Rice-Wheat systems: Issues and impact (ASA Special Publication 65) (pp. 45–76). Madison: American Society of Agronomy.Google Scholar
  12. Malthus, T. R. (1798). An essay on the principle of population, as it effects the future improvement of society. London: J.J. Johnson.Google Scholar
  13. Miller, F. (1998). Soil-land degradation: Interventions for sustaining civilization. In R. Lal (Ed.), Soil quality and agricultural sustainability (pp. 13–32). Chelsea: Ann. Arbor Press.Google Scholar
  14. Nair, K. P. P. (2014, August 18). Green revolution or silent spring? The Hindu Business Line.Google Scholar
  15. Nair, K. P. P. (2015a, February 13). The debt story less told. The Hindu Business Line.Google Scholar
  16. Nair, K. P. P. (2015b, April 7). When there is no soil left in this world. The Hindu Business Line.Google Scholar
  17. Nair, K.P.P. (2015c). The nutrient buffer power concept – A revolutionary soil management technique for sustainable agriculture. In Keynote address at the National Seminar on “issues, challenges and strategies in sustaining soil health”. Kerala Forest Research Institute, Peechi, Kerala State, India, December 10–11, 2015.Google Scholar
  18. Norman, D., Janka, S., Freyenberger, B., Schurle, B., & Kok, H. (1997). Defining and implementing sustainable agriculture (Kansas Sustainable Agriculture Series Paper. I). Manhattan: Kansas State University.Google Scholar
  19. NRC. (1998). Alternative Agriculture. Washington, DC: National Academy Press.Google Scholar
  20. NRC. (1999). Our common journey: A transition towards sustainability. Washington, DC: National Academy Press.Google Scholar
  21. Pinstrup, A. P. (2002). Towards a sustainable global food system: What will it take? Keynote presentation for the Annual John Pesek colloquium in sustainable agriculture, March 26–27, Iowa State UniversityGoogle Scholar
  22. Raman, S. (2006). Agricultural sustainability: Principles, processes and prospects (pp. 13904–11580). Birmingham: The Hawoth Press Inc.Google Scholar
  23. Rodale, R. (1983). Breaking new ground: The search for a sustainable agriculture. Futurist, 1, 15–20.Google Scholar
  24. Scholes, M. C., Swift, M. J., Heal, O. W., Sanchez, P. A., Ingram, J. S. I., & Dalal, R. (1994). Soil fertility research in response to the demand for sustainability. In P. L. Woomer & M. J. Swift (Eds.), The biological management of tropical soil fertility (pp. 1–14). Chichester: John Wiley.Google Scholar
  25. Vandermeer, J. M. (1992). Thoughts on Agriculture and the Environment in a Post-Modern World. Symposium on Enhancing the Future of the Land Grant System. Irving C.A: National Academy of Sciences Board on Agriculture.Google Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • Kodoth Prabhakaran Nair
    • 1
  1. 1.International Agricultural Scientistc/o Mavila PankajakshyCalicutIndia

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