Productivity, resource-use efficiency and profitability of high-value crops embedded diversified cropping systems

B BHARGAVI; U K BEHERA; K S RANA; RAJ SINGH

doi:10.56093/ijas.v89i5.89664

Authors

B BHARGAVI Ph D Scholar, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India
U K BEHERA Scientist, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India
K S RANA Scientist, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India
RAJ SINGH Scientist, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

https://doi.org/10.56093/ijas.v89i5.89664

Keywords:

Cropping systems, High-value crops, Profitability, Resource-use efficiency and Sustainability.

Abstract

A field experiment was conducted during rainy (kharif), winter (rabi) and summer seasons of 2015-17 on a sandy clay loam soil at New Delhi to evaluate 5 cropping systems, viz. maizeâ€“peaâ€“okra, maizeâ€“mustardâ€“green gram, cottonâ€“wheat, bottle gourdâ€“onion and okraâ€“wheat, for productivity, profitability and resource-use efficiency. The experiment was laid-out in a randomized block design replicated 4 times. Bottle gourdâ€“onion cropping system recorded the highest wheat-grain-equivalent yield (WGEY) of 19.9 t/ha followed by maizeâ€“peaâ€“okra (14.06 t/ha). The lowest WGEY was recorded with maizeâ€“mustardâ€“green gram (9.12 t/ha). The gross returns (` 313.56 Ã— 103/ha), net returns (` 123.5 Ã— 103/ha), B:C ratio (3.23), production efficiency (54.52 kg/ha/day) and monetary efficiency (593 `/ ha/day) were also higher with bottle gourdâ€“onion cropping system, while maizeâ€“mustardâ€“green gram registered the lowest gross returns, net returns and B:C ratio. All the five cropping systems can substitute the existing rice â€“ wheat cropping system under marginal farmers situations, not only by providing higher productivity and returns, but also a regular income throughout the year.

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References

Behera U K, Sharma A R and Mahapatra I C. 2007. Crop diversification for efficient resource management in India: Problems, prospects and policy. Journal of Sustainable Agriculture 30(3): 97–127. DOI: https://doi.org/10.1300/J064v30n03_08

Bhatt R, Kukal S S, Busari M A, Arora S and Yadav M. 2016. Sustainability issues on rice–wheat cropping system. International Soil and Water Conservation Research 4(1): 64–74. DOI: https://doi.org/10.1016/j.iswcr.2015.12.001

Bhullar M S and Chauhan B S. 2015. Seed bank dynamics and emergence pattern of weeds as affected by tillage systems in dry direct-seeded rice. Crop Protection 67: 168–77. DOI: https://doi.org/10.1016/j.cropro.2014.10.015

Dass A, Patnaik U S, Sudhishri S and Choudhury P R. 2002. Vegetable Cultivation: A major intervention for tribal watershed development. Indian Journal of Soil Conservation 30(3): 240–7.

Dass Anchal, Sudhishri S, Patnaik U S and Lenka N K. 2009. Effect of agronomic management on watershed productivity, impact indices, crop diversification and soil fertility in Eastern Ghats of Orissa. Journal of Soil and Water Conservation 8(3): 34–42

Hira G S. 2009. Water management in northern states and the food security of India. Journal of Crop Improvement 23(2): 136–57. DOI: https://doi.org/10.1080/15427520802645432

Jain T C. 2008. New paradigms in agronomic research and development. Indian Journal of Agronomy 53(4): 241–4.

Jain N K, Singh H, Dashora L N and Mundra S N. 2015. Diversification and intensification of maize (Zea mays)– wheat (Triticum aestivum) cropping system for sustainable productivity and profitability. Indian Journal of Agronomy 60(1): 38–44.

Jat R A, Dungrani R A, Arvadia M K and Sahrawat K L. 2012. Diversification of rice (Oryza sativa L.)–based cropping systems for higher productivity, resource–use efficiency and economic returns in south Gujarat, India. Archives of Agronomy and Soil Science 58(6): 561–72. DOI: https://doi.org/10.1080/03650340.2010.533172

Kumar A, Tripathi H P, Yadav R A and Yadav D S. 2008. Diversification of rice (Oryza sativa)–wheat (Triticum aestivum) cropping system for sustainable production in eastern Uttar Pradesh. Indian Journal of Agronomy 53(1): 18–21.

Mahapatra I C and Behera U K. 2011. Rice–based farming systems for livelihood improvement of Indian farmers. Indian Journal of Agronomy 56(1): 1–19.

Mishra M M, Nanda S S, Mohanty M, Pradhan K C and Mishra S S. 2007.Crop diversification under rice–based cropping system in western Orissa. Extended summaries of 3rd National Symposium on Integrated farming systems and its role towards livelihood improvement. Organized by Farming Systems Research and Development Association, 26–28 October, Agricultural Research Station, Durgapura, Jaipur. pp 154–6.

Prasad D, Yadava M S and Singh C S. 2013. Diversification of rice (Oryza sativa) –based cropping systems for higher productivity, profitability and resource–use efficiency under irrigated ecosystem of Jharkhand. Indian Journal of Agronomy 58(2): 77–83.

Reddy AA. 2014. Profitability and labour use in cropping systems. Indian Journal of Dry land Agricultural Research and Development 29(1): 97–106. DOI: https://doi.org/10.5958/2231-6701.2014.01203.2

Shah M S, Verma N and Vishwkarma S K. 2015. Paper Diversification of rice (Oryza sativa)–based cropping systems for higher production efficiency, water productivity and economic viability in Madhya Pradesh. Indian Journal of Agronomy 60(1): 25–30.

Sharma A R and Behera U K. 2004. Fertiliser use and option for diversification in rice – wheat cropping systems in India. Fertiliser News 49: 115–31.

Sharma H R. 2007. Crop diversification in Himachal Pradesh: extent, impact, determinants and challenges. Indian Journal of Labour Economics 50(4): 689–702.

Sharma R P, Dutta S K and Ghosh M. 2014.Diversification of rice (Oryza sativa)–wheat (Triticum aestivum) cropping system for sustainable production in south Bihar alluvial plains. Indian Journal of Agronomy 59(2): 191–9.

Singh S and Toor M S. 2005. Agrarian crisis with special reference to indebtedness among Punjab farmers. Indian Journal of Agricultural Economics 60(3): 335–46.

Singh P, Singh J P, Gill M S and Singh Y. 2007. Alternate cropping systems to sugarcane–ratoon–wheat in peri urban areas of Meerut. Extended summaries 3rd National Symposium on Integrated Farming Systems. October 26–28, 2007, organized by Farming System and Development Association (Project Directorate for Cropping System Research, Modipuram, Meerut) at Agricultural Research Station, Durgapura, Jaipur.

Singh M K, Singh S P and Ujjwal V. 2017. Alternative Arable Cropping Strategies: A Key to Enhanced Productivity, Resource- Use-Efficiency, and Soil-Health under Subtropical Climatic Condition. International Journal of Current Microbiology and Applied Sciences 6(11): 1187–205. DOI: https://doi.org/10.20546/ijcmas.2017.611.142

Soni V. 2012. Groundwater loss in India and an integrated climate solution. Current Science 102(8): 1098–101.

Tomar S S and Tiwari A S. 1990. Production potential and economics of different crop sequences. Indian Journal of Agronomy 35(1,2): 30–5.

Uddin M J, Quayyum M A and Salahuddin K M. 2009.Intercropping of hybrid maize with short duration vegetables at hill valleys of Bandarban. Bangladesh Journal of Agricultural Research 34(1): 51–7. DOI: https://doi.org/10.3329/bjar.v34i1.5753

Wilson K. 2002. Small cultivators in Bihar and New technology choice or compulsion? Economic and Political Weekly 37(11): 1229–38.