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RESEARCH ARTICLE

Integrated animal and cropping systems in single and multi-objective frameworks for enhancing the livelihood security of farmers and agricultural sustainability in Northern India

U. K. Behera A , H. Kaechele B and J. France C D
+ Author Affiliations
- Author Affiliations

A Division of Agronomy, Indian Agricultural Research Institute, New Delhi 110012, India.

B Institute of Socioeconomics, Leibniz Centre for Agricultural Landscape Research (ZALF), Eberswalder Strasse 84, D-15374, Muencheberg, Germany.

C Centre for Nutrition Modelling, Department of Animal and Poultry Science, University of Guelph, Guelph, Ontario N1G 2W1, Canada.

D Corresponding author. Email: jfrance@uoguelph.ca

Animal Production Science 55(10) 1338-1346 https://doi.org/10.1071/AN14526
Submitted: 29 April 2014  Accepted: 3 September 2014   Published: 2 December 2014

Abstract

Fast degrading and declining land, water availability, biodiversity, environment and other natural resources, together with shrinking farm returns and reduced crop productivity caused by continuous and intensive cultivation of rice-wheat systems, necessitate diversification of farming in Northern India. Integrated farming systems (IFS) involving animals (livestock, fish, etc.) and cropping (cereals, trees, etc.) are recognised as an alternative for preserving ecosystems and enhancing livelihood security. A study was therefore undertaken under Northern Indian conditions to develop IFS models for various sizes of farm and to compare these models with the existing rice-wheat system for sustainability and profitability. The IFS models were developed in single objective (using linear programming) and multi-objective (using compromise programming) frameworks. Multi-objective analysis provides deeper insight into the problem as it caters directly for the multi-faceted needs of the farmers. These parallel methodologies offer a novel approach to modelling IFS to draw different farming scenarios for comparison. The IFS strategies developed show the potential to generate a greater farm income than with existing rice-wheat cropping for all sizes of farm. The study revealed that IFS offer more perspectives for an economically viable and sustainable agriculture for typical farms in Northern India.

Additional keywords: compromise programming, integrated farming systems, linear programming, Northern Indian conditions.


References

ARDB (2011) ‘Agricultural research data book.’ (Indian Agricultural Statistics Research Institute: New Delhi)

Behera UK, Mahapatra IC (1999) Income and employment generation of small and marginal farmers through integrated farming systems. Indian Journal of Agronomy 44, 431–439.

Behera UK, Jha KP, Mahapatra IC (2004) Integrated management of available resources of the small and marginal farmers for generation of income and employment in eastern India. Crop Research 27, 83–89.

Behera UK, Sharma AR, Mahapatra IC (2007) Crop diversification for efficient resource management in India: problems, prospects and policy. Journal of Sustainable Agriculture 30, 97–127.
Crop diversification for efficient resource management in India: problems, prospects and policy.Crossref | GoogleScholarGoogle Scholar |

Bhende MJ, Venkataram JV (1994) Impact of diversification of household income and risk: a whole farm modeling approach. Agricultural Systems 44, 301–312.
Impact of diversification of household income and risk: a whole farm modeling approach.Crossref | GoogleScholarGoogle Scholar |

Byerlee D, Harrington L, Winkelman DL (1982) Farming system research: issues in research strategy and technology design. American Journal of Agricultural Economics 64, 897–904.
Farming system research: issues in research strategy and technology design.Crossref | GoogleScholarGoogle Scholar |

Chopra K (1993) Sustainability of agriculture. Indian Journal of Agricultural Economics 48, 527–535.

Dent JB (1990) ‘Systems theory applied to agriculture and the food chain.’ (Elsevier: Amsterdam)

Devendra C (2002) Crop-animal systems in Asia: implications for research. Agricultural Systems 71, 169–177.
Crop-animal systems in Asia: implications for research.Crossref | GoogleScholarGoogle Scholar |

FAO (1995) ‘The farming systems approach to development and appropriate technology generation.’ (Food and Agriculture Organisation of the United Nations: Rome)

FAO (2001) ‘Farming systems and poverty: improving farmers’ livelihoods in a changing world.’ (FAO and World Bank: Rome and Washington, DC)

Francisco SR, Ali M (2006) Resource allocation tradeoffs in Manila’s peri-urban vegetable production systems: an application of multi-objective programming. Agricultural Systems 87, 147–168.
Resource allocation tradeoffs in Manila’s peri-urban vegetable production systems: an application of multi-objective programming.Crossref | GoogleScholarGoogle Scholar |

Gangwar B (1993) Farming systems research for accelerating agricultural development in less developed countries – a review. Agricultural Reviews 14, 149–159.

Gill MS, Samra JS, Singh G (2005) ‘Integrated farming system for realizing high productivity under shallow water table conditions.’ Research Bulletin of Punjab Agriculture University. (Punjab Agricultural University: Ludhiana, India) 70 pp.

Jha D (2003) An overview of farming systems research in India. Annals of Agricultural Research 24, 695–706.

Lee DJ, Tipton T, Leung P (1995) Modeling cropping decisions in a rural developing country: multi-objective programming approach. Agricultural Systems 49, 101–111.
Modeling cropping decisions in a rural developing country: multi-objective programming approach.Crossref | GoogleScholarGoogle Scholar |

Lightfoot C, Bimbao MP, Dalsgard JPT, Pullin RSV (1993) Aquaculture and sustainability through integrated resource management. Outlook on Agriculture 22, 143–150.

Loucks DP, Stedinger JR, Haith DA (1981) ‘Water resources systems planning and analysis.’ (Prentice-Hall: Englewood Cliffs, NJ)

Mahapatra IC (1992) Farming systems research challenges and opportunities. Eastern Indian Farming System Research & Extension Newsletter 6, 3–10.

Mahapatra IC (1994) Farming system research – a key to sustainable agriculture. Fertilizer News 39, 13–25.

Mahapatra IC, Behera UK (2004) Methodologies of farming systems research. In ‘Recent advances in rice-based farming systems, Cuttack, Orissa, 17–19 November 2004’. (Eds D Panda, S Sasmal, SK Nayak, DP Singh, S Saha) pp. 79–113. (Central Rice Research Institute: Cuttack)

Mahapatra IC, Behera UK (2011) Rice-based farming system for livelihood improvement of Indian farmers. Indian Journal of Agronomy 56, 1–19.

Norman DW (1978) Farming system research to improve to livelihood of small farmers. American Journal of Agricultural Economics 60, 813–818.
Farming system research to improve to livelihood of small farmers.Crossref | GoogleScholarGoogle Scholar |

Prein M (2002) Integration of aquaculture into crop-animal systems in Asia. Agricultural Systems 71, 127–146.
Integration of aquaculture into crop-animal systems in Asia.Crossref | GoogleScholarGoogle Scholar |

Pullin RSV (1998) Aquaculture, integrated resources management and the environment. In ‘Integrated fish farming. Proceedings of a workshop on integrated fish farming’. (Eds JA Mathias, AT Charles, H Baotong) pp. 19–43. (CRC Press: Boca Raton, FL)

Raju KS (1995) Studies on multi-criterion decision making techniques and management of irrigation systems. PhD Thesis, Indian Institute of Technology, Kharagpur.

Rangaswamy A, Venkitaswamy R, Purushothaman P, Palaniappan SP (1996) Rice-poultry-fish-mushroom integrated farming systems for lowlands of Tamil Nadu. Indian Journal of Agronomy 41, 344–348.

Rautaray SK, Das PC, Sinhababu DP (2005) Increasing farm income through rice-fish based integrated farming systems in rainfed lowlands of Assam. Indian Journal of Agricultural Science 75, 79–82.

Ravisankar N, Pramanik SC, Rai RB, Nawaz S, Biswas TK, Bibi N (2007) Study on integrated farming system in hilly upland areas of Bay Islands. Indian Journal of Agronomy 52, 7–10.

Romero C, Rehman T (2003) ‘Multiple criteria analysis for agricultural decisions.’ 2nd edn. (Elsevier: Amsterdam)

Samra JS, Sahoo N, Chowdhury R, Mohanty S, Rajeeb K, Jena SK, Verma HN (2003) ‘Sustainable integrated farming system for waterlogged areas of Eastern India.’ Research Bulletin No. 14. (Water Technology Centre for Eastern Region (ICAR): Chandrasekharpur, Bhubaneswar, Orissa, 751023, India).

Shaner WW, Philipp PF, Schmehl WR (1982) ‘Farming systems research and development: guide for developing countries.’ (West View Press: Boulder, CO)

Sharma AR, Behera UK (2004) Fertiliser use and option for diversification in rice-wheat cropping systems in India. Fertiliser News 49, 115–131.

Sidhu MS, Joshi AS, Lavleen K (2007) Problems and prospects of agriculture in Punjab. Productivity 48, 101–112.

Singh K, Bohra JS, Singh Y, Singh JP (2006) Development of farming system models for the north-eastern plain zone of Uttar Pradesh. Indian Farming 56, 5–11.

Swaminathan MS (1996) ‘Sustainable agriculture: towards and evergreen revolution.’ (Konark Publishers Pty Ltd: New Delhi)

Taha HA (2005) ‘Operations research: an introduction.’ (Prentice-Hall India Pty Ltd: New Delhi)

Thornley JHM, France J (2007) ‘Mathematical models in agriculture, revised 2nd edition.’ xvii + 906 pp. (CAB International: Wallingford, UK)

Vedula S, Mujumdar PP (2005) ‘Water resources systems, modelling techniques and analysis.’ (Tata McGraw-Hill Publishing: New Delhi)

Zeleny M (1982) ‘Multi-criteria decision making.’ (McGraw Hill: New York, NY)