Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-12-01T03:52:01.429Z Has data issue: false hasContentIssue false

CONSERVATION AGRICULTURE IN THE INDOGANGETIC PLAINS OF INDIA: PAST, PRESENT AND FUTURE

Published online by Cambridge University Press:  19 September 2017

PETER HOBBS*
Affiliation:
Department of Soil and Crop Sciences, College of Agriculture and Life Sciences, Cornell University, Ithaca, NY 14850, USA
RAJ GUPTA
Affiliation:
SPARK (Society for Promotion of Agricultural Research and Knowledge), B4/205 Safdarjung Enclave, New Delhi 110029, India
RAJ KUMAR JAT
Affiliation:
Borlaug Institute for South Asia (BISA), New Area Farm, Pusa, Samastipur 848125, Bihar, India
R. K. MALIK
Affiliation:
CSISA Patna Office, KP Tower, Flat No. 201, Block A, Friends Colony, Ashiana Nagar, Patna 800025, Bihar, India

Summary

This paper follows the progress made in India for research and farmer adoption of conservation agriculture (CA) since the publication of Erenstein (2012), who contested the idea that zero-till (ZT) establishment of wheat in rice–wheat systems could be further developed into full CA systems. Data presented in this paper show that research has successfully found solutions for both the wheat and rice phases of the rice–wheat systems of the Indo-Gangetic Plains (IGP) in the past 8 years. It shows that by finding solutions in both the rice and wheat phases, yields, water use efficiency and profits increased, while labour needs reduced. Indian scientists have also confirmed these benefits in participatory on-farm research in various locations, both east and west regions of the IGP. Farmers see for themselves through experimentation that they get higher yields with less cost and with more efficient use of inputs and water. A key factor has been the development of improved seed drills with the help of Indian private sector manufacturers of agricultural equipment. Indian scientists have also successfully conducted CA research on several other crops and in other regions besides the IGP. The paper shows that it is better to introduce parts of the CA management practices in a step-wise fashion first, rather than introducing the entire package at once since farmers first have to test and evaluate a new technology to understand how it benefits them personally before they will adopt it. The paper concludes that in the rice–wheat systems of South Asia, adoption of CA is indeed possible to achieve although it is still a work in progress. CA is a complex technology package and it takes time to overcome all of the contested issues mentioned in Erenstein (2012).

Type
Research Article
Copyright
Copyright © Cambridge University Press 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Aryal, J. P., Sapkota, T. B., Jat, M. L. and Bishnoi, D. K. (2015). On-farm economic and environmental impact of zero-tillage wheat: A case of North-West India. Experimental Agriculture 51:116.Google Scholar
BISA. (2015). Major Accomplishments 2012–2014. BISA Report Series 1, New Delhi, India: Borlaug Institute for South Asia. 38.Google Scholar
Byerlee, D., Heisey, P. and Hobbs, P. R. (1989). Diagnosing research priorities for small farmers: Experiences from on-farm research in Pakistan. Quarterly Journal of International Agriculture. 28 (3):254.Google Scholar
Byerlee, D., Sheikh, A. D., Aslam, M. and Hobbs, P. R. (1984). Wheat in the Rice-Based Farming System of the Punjab: Implications for Research and Extension. Islamabad, Pakistan: PARC/CIMMYT Mimeograph.Google Scholar
Coventry, D. R., Poswal, R. S., Yadav, A., Gupta, R. K., Gill, S. C., Chhokar, R. S., Kumar, V., Sharma, R. K., Kumar, A., Mehta, A., Kleemann, S. G. L. and Cummins, J. A. (2011). Effect of tillage and nutrient management on wheat productivity and quality in Haryana, India. Field Crops Research 123:234240.Google Scholar
Erenstein, O. (2012). Conservation agriculture-based technologies and the political economy: Lessons from South Asia. In Contested Agronomy: Agricultural Research in a Changing World, Chapter 3, 4764 (Eds Sumberg, J. and Thompson, J.). New York and London: Routledge, Taylor and Francis Group.Google Scholar
Erenstein, O., Malik, R. K. and Singh, S. (2007). Adoption and impacts of zero-tillage in the rice-wheat zone of irrigated Haryana, India. CIMMYT and RWC Research Paper. New Delhi, India. 81.Google Scholar
Friedrich, T., Derpsch, R. and Kassam, A. H. (2012). Overview of the global spread of the conservation agriculture. Field Actions Science 6:17.Google Scholar
Gupta, R. K. and Seth, A. (2007). A review of resource conserving technologies for sustainable management of the rice-wheat crpping systems of the Indo-Gangetic Plains (IGP). Crop Protection 26 (3):436447.Google Scholar
Gupta, R. K., Naresh, R. K., Hobbs, P. R., Jiaguo, Z. and Ladha, J. K. (2003). Sustainability of post-green revolution agriculture: The rice-wheat cropping systems of the Indo-Gangetic Plains and China. In Improving the Productivity and Sustainability of Rice-wheat Systems: Issues and Impacts, Chapter 7, 149171 (Eds Ladha, J. K., Hill, J. E., Duxbury, J. M., Gupta, R. K. and Buresh, R. J.). Madison, WI: American Society of Agronomy special publication 65.Google Scholar
Harrington, L. W. and Hobbs, P. R. (2009). The rice-wheat consortium and the asian development bank: A history. In Integrated Crop and Resource Management Technologies for Sustainable Rice-Wheat Systems of South Asia (Eds Ladha, J. K., Singh, Y. and Erenstein, O.). Manila, Philippines: International Rice Research Institute.Google Scholar
Hobbs, P. R. and Gupta, R. K. (2003). Resource conserving technologies for wheat in rice-wheat systems. In Improving the Productivity and Sustainability of Rice-Wheat Systems: Issues and Impact, Chapter 7, 149171 (Eds Ladha, J. K., Hill, J., Gupta, R. K., Duxbury, J. and Buresh, R. J.). Madison, WI: ASA. ASA Special Publication 65.Google Scholar
Hobbs, P. R., Gupta, R. and Meisner, C. (2005). Conservation agriculture in South Asia. In Biological Approaches to Sustainable Soil Systems, 358371 (Eds Uphoff, N., Ball, A., Fernandes, E., Herren, H., Husson, O., Laing, M., Pretty, J., Palm, C., Sanchez, P., Sanginga, N. and Thies, J.). Boca Raton, FL: CRC Press, Taylor & Francis Group.Google Scholar
Hobbs, P. R., Sayre, K. and Gupta, R. (2008). The role of conservation agriculture in sustainable agriculture. Philosophical Transactions of the Royal Society B 363:543555.Google Scholar
Inayatullah, C. and Ehsan-ul-Haq, . (1990). Survival of overwintering rice stem borer (SB) larvae in conventional and no-tillage wheat. International Rice Research Newsletter 15 (6):25.Google Scholar
Jaipla, S., Malik, R. K., Yadav, A. and Gupta, R. K. (2015). IPM issues in zero-tillage system in rice-wheat cropping sequence. Technical Bulletin 8. CCS Haryana Agricultural University, Hisar-125 004, India. 32.Google Scholar
Jat, M. L., Saharawat, Y. S. and Gupta, R. K. (2011). Conservation agriculture in cereal systems of South Asia: Nutrient management perspectives. Karnataka Journal of Agricultural Sciences 24:100105.Google Scholar
Jat, R. K. (2015). Progress report for 2015. Borlaug Institute for South Asia (BISA), Pusa, Samastipur, Bihar. 21.Google Scholar
Jat, R. K. (2016). Progress report for 2016. Borlaug Institute for South Asia (BISA), Pusa, Samastipur, Bihar. 19.Google Scholar
Jat, R. K., Sapkota, T. B., Singh, R. G., Jat, M. L., Kumar, M. and Gupta, R. K. (2014). Seven years of conservation agriculture in a rice-wheat rotation of eastern gangetic plains of South Asia: Yield trends and economic profitability. Field Crops Research 164:199210.Google Scholar
Keil, A., D'souza, A. and McDonald, A. (2015). Zero-tillage as a pathway for sustainable wheat intensification in the eastern Indo-Gangetic Plains: Does it work in farmer's fields? Food Security 7:9831001. Published online and available at doi: 10.1007/s12571-015-0492-3.Google Scholar
Laxmi, V., Erenstein, O. and Gupta, R. K. (2007). Impact of Zero Tillage in India's Rice-Wheat Systems. Mexico DF: CIMMYT.Google Scholar
Malik, R. K. and Singh, S. (1993). Evolving strategies for herbicide use in wheat: Resistance and integrated weed management. In Volume 1. Proceedings of an International Symposium of the Indian Society of Weed Science. 18–20 November. Hisar, India. 225–238.Google Scholar
Malik, R. K. and Singh, S. (1995). Littleseed canarygrass (Phalaris minor Retz.) resistance to isoproturon in India. Weed Technology 9:419425.Google Scholar
Mehla, R. S., Verma, J. K., Gupta, R. K. and Hobbs, P. R. (2000). Stagnation in the productivity of wheat in the Indo-Gangetic Plains: Zero-till-seed-cum-fertilizer drill as an integrated solution. Rice-Wheat Consortium Paper Series 8. New Delhi, India. 12.Google Scholar
Rehman, H., Nawaz, A., Wakeel, A., Saharawat, Y. S. and Farooq, M. (2015). Conservation agriculture in South Asia. In Conservation Agriculture, Ch. 11. 249283 (Eds Farooq, M. and Siddique, K.). Switzerland: Springerlink. doi: 10.1007/978-3-319-11620-4.Google Scholar
Sims, B. G., Hobbs, P. R. and Gupta, R. (2009). Policies and institutions to promote the development and commercial manufacture of conservation agriculture equipment. In Proceedings of the 4th World Congress on Conservation Agriculture. February 4–7, 2009. New Delhi, India. 308–328.Google Scholar
Singh, V., Jat, M. L., Ganie, Z. A., Chauhan, B. S. and Gupta, R. K. (2016). Herbicide options for effective weed management in dry direct-seeded rice under scented rice-wheat rotation of Western Indo-Gangetic Plains. Crop Protection 81:168176.Google Scholar
Singh, Y. P., Singh, D., Tomar, S. S. and Gupta, R. K. (2013). Effect of time of pre-irrigation and tillage practices on wheat (Triticum aestivum) under pigeon pea (Cajanus cajan) - wheat cropping sequence. Indian Journal of Agricultural Sciences 83 (12):13171321.Google Scholar
Timsina, J. and Connor, D. J. (2001). Productivity and management of rice-wheat cropping systems: Issues and challenges. Field Crops Research 69 (2):93132.Google Scholar