Towards Sustainable Intensification of Sesame-based Cropping Systems Diversification in Northwestern India

Anthony Oyeogbe; Ranti Ogunshakin; Shravansinh Vaghela; Babubhai Patel

Journal of Food Security. 2015, 3(1), 1-5
DOI: 10.12691/JFS-3-1-1

Original Research

Towards Sustainable Intensification of Sesame-based Cropping Systems Diversification in Northwestern India

Anthony Oyeogbe^1,, Ranti Ogunshakin², Shravansinh Vaghela³ and Babubhai Patel³

¹Division of Agronomy, Indian Agricultural Research Institute, New Delhi, India

²Centre for Environment Science and Climate Resilient Agriculture, New Delhi, India

³Department of Agronomy, SardarkrushinagarDantiwada Agricultural University, Gujarat, India

Pub. Date: January 18, 2015

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Anthony Oyeogbe, Ranti Ogunshakin, Shravansinh Vaghela and Babubhai Patel. Towards Sustainable Intensification of Sesame-based Cropping Systems Diversification in Northwestern India. Journal of Food Security. 2015; 3(1):1-5. doi: 10.12691/JFS-3-1-1

Abstract

Despite being largely self-sufficient in food production, Indian agriculture currently faces a slew of problems- productivity is in decline; income gap between farmers and the rest of the workforce is widening and the incessant conversion of agricultural lands into urban landscapes is threatening agricultural intensification. This rapid urbanization coupled with unpredictable climate changes, will put added pressures on land and food. Sesame (SesamumindicumL.) is one of the most versatile and survivor crops that can be grown in semi-arid and arid regions. It has unique attributes that can fit almost any cropping system being a short duration crop with a potential to sustainable intensify crop production through crop diversification.This evidently indicates the potentiality for improvement in yield. We investigated the productivity of sesame sown as sole crop, intercrop and as a sequence crop to enhance its cropping system intensification with the following objectives (i) to identify different sesame-based cropping systems with high productivity and profitability to suit the specific needs of North Gujarat agro ecosystems (ii) the best sustainableland use efficiency as influenced by sesame-based cropping systems intensification. Our result showed that higher system productivity based on sesame equivalent yield (SEY), system profitabilityin terms of net realization to the growing year and land use efficiency was recorded in sesame + groundnut – castor (8.0 kg/ha/day;Rs. 298.3/ha/dayand 79.7%), sesame + greengram – castor systems (7.9 kg/ha/day;Rs. 297.0/ha/dayand 74%), sesame – castor (7.3 kg/ha/day;Rs. 274.7/ha/dayand 74%) and sesame + hybrid cotton (5.3kg/ha/day;Rs. 204.5/ha/dayand 86%) cropping systems respectively. We concluded that the intensification of sesame-based cropping system could help farmers adapt to the changing climate with greater resilience, net primary productivity and enhanced income through crop(s) diversification. One that emphasizes a climate-smart agriculture strategy for food security, mitigation and adaptation.

Keywords

cropping system, climate smart agriculture, crop diversification, food security, semi-arid, sesame, sustainable intensification

Copyright

This work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References

[1]	FAO, Save and Grow-A policymaker’s guide to the sustainable intensification of smallholder crop production, Rome, 2011.[E-book]Available:http://www.fao.org/ag/save-and-grow/[Accessed Nov. 25, 2014].

[2]	The Montpellier Panel, Sustainable Intensification: A New Paradigm for African Agriculture, 2013. London. [E-book] Available:http://ag4impact.org/publications/montpellier-panel-report2013/[Accessed Nov. 25, 2014].

[3]	Godfray, C., Beddington, J. R., Crute, I. R., Haddad, L., Lawrence, D., Muir, J. F., Pretty, J., Robinson, S., Thomas, S. M., & Toulmin, C, “Food security: the challenge of feeding 9 billion people,” Science 327, 812-818,2010.

[4]	United Nations Department of Economic and Social Affairs. “Population division, population estimates and projections section”.[Online]. Available:http://esa.un.org/wpp/unpp/panel_population.htm.[AccessedMay20, 2013].

[5]	BrijNandan,. Sharma, B.C, and ANIL KUMAR, “Mitigating Food Security Options through Climate Resilient Mustard-maize Based Intercropping Sequences for North-western–Himalayas,” Journal of Food Security 1 (2): 58-64, Dec. 2013.

[6]	FAO. “World agriculture: towards 2015/2030. Rome”. [Online]. Available: http://www.fao.org/docrep/004/y3557e/y3557e00.htm[Accessed April 24, 2014].

[7]	Pretty J., Toulmin, J., & Williams, S, “Sustainable intensification in African agriculture,” International journal of agricultural sustainability 9(1). 5-24,2011

[8]	Dutta, R. “India's soyoil imports seen down in 2014/15 on bumper oilseed crop traders,” Reuters, [Online]. Available:http://in.reuters.com/article/2014/09/26/india-soyoil-imports-idINL3N0RR38C20140926 [Accessed Nov. 25, 2014].

[9]	FAOSTAT,”Sesame yield and productivity,”[Online]. Available: http://faostat3.fao.org/compare/E. 2012.[Accessed Nov. 24, 2014].

[10]	Duhoon, S.S., Jyotishi, A., Deshmukh, M.R. and Singh, N.B. “Optimization of sesame production through bio-natural inputs,” in4th International Crop Science Congress on New directions for adiverse planet, RA Fischer (ed), Brisbane, Australia, 26Sept. - 1 Oct. 2004

[11]	Langham, D. R., Riney, J., Smith, G., Wiemers, T., Peeper, D. and Speed, T, “Sesame growers guide”.Sesaco Corporation, 2008. [E-book] [Online]. Available:www.sesaco.net

[12]	Bedigian, D. and Harlan, J.R. “Evidence for cultivation of sesame in the ancient world,” Economic Botany. 40: 137-154, 1986.

[13]	Directorate of Economics & Statistics (DOES), 2012. “Normal estimates-sesamum” Department of Agriculture and Cooperation, Government of India. [Online]. Available:http://eands.dacnet.nic.in/APY_Normal_Estimates-2012-13.htm. [Accessed Nov. 21, 2012].

[14]	Kassam, A. & Friedrich, T. “An ecologically sustainable approach to agricultural production intensification: Global perspectives and developments”. Field Actions Science Reports, Special Issue 6, April 2012. [Online]. Available:http://factsreports.revues.org/1382. [Accessed Nov. 28, 2014].

[15]	Hazra, C.R. Expert consultation on crop diversification in the Asia–Pacific region. FAO Country Report, India. FAO Corporate Documents Repository.[E-book] Available: 2000 http://www.fao.org/3/a-x6906e.pdf

[16]	Statistical Analysis SystemSAS^® Statistical Software 9.2 Version.

[17]	Kumar, A. and Thakur, K.S.”Production potential and economic feasibility of sesame-based intercropping with legumes under rainfed conditions,”. Indian Journal of Agricultural Sciences 76 (3): 183-189, 2006.

[18]	Sarkar R.K., Malik, G.C. and Goswami, S.”Productivity potential and economic feasibility of sesame (Sesamumindicum)–based intercropping system with different planting pattern on rainfedupland,” Indian Journal of Agronomy 48(3):164-167, 2003.

[19]	Bhatt, B.K., Dixit. S. K. and Darj, V. B.”Monetary evaluation of sesame based intercropping systems,” Indian Journal of Agricultural Research 44 (2): 146–149, 2010.

[20]	Rasmussen, P.E., Goulding, K.W.T., Brown, J.R., Grace, P.R., Janzen, H.H., Korschens, M. “Long-term agroecosystems experiments: assessing agricultural sustainability and global change,” Science 282: 893-896, 1998.

[21]	Lal, R.”Soil carbon sequestration to mitigate climate change”. Geoderma 123: 1-22, 2004.

[22]	Prajapat, K., Vyas, A.K., and Dhar S, “Productivity, profitability and land-use efficiency of soybean-based cropping systems under different nutrient-management practices”. Indian Journal of Agronomy 59 (2): 229-234, 2014.