Crop diversification and water-efficient irrigation: Insights from the TNIAMP initiative in the Cauvery Delta sub-basin

Abstract

The Cauvery Delta, historically known as the "Granary of Peninsular India," is crucial for Tamil Nadu’s agriculture but faces growing challenges from water scarcity, salinity and climate change. The water-intensive rice cultivation in the region needs an alternative crop to minimize the water requirement. This study examines maize as a viable crop under the Tamil Nadu Irrigated Agriculture Modernisation Project (TN-IAMP). Maize requires less water, has shorter cultivation cycles and offers higher profitability, achieving an average yield of 5497 kg and a benefit-cost (B:C) ratio of 1.76 for dry seed production. To promote diversification, maize was demonstrated across 5000 ha using improved technologies like nutrient and pest management. Results show fresh cob production is particularly profitable, with a B:C  ratio of 2.68 compared to 1.06 for paddy. Diversification indices, including the Herfindahl Index (HI) and Entropy Index (EI), reveal a positive shift toward diversified cropping patterns since 2017 due to maize adoption. These trends mitigate risks associated with monocropping and improve resilience to environmental challenges. Although challenges such as groundwater salinity and erratic water supply persist, targeted interventions such as farmer training, improved irrigation practices and institutional support have facilitated a steady increase in maize cultivation across Thanjavur, Thiruvarur and Nagapattinam districts. The study highlights maize’s potential to address water scarcity while enhancing agricultural sustainability and farmer livelihoods. This research emphasizes the importance of maize in balancing efficiency and diversity in cropping systems, advocating for continued institutional support, adaptive strategies and farmer-centric policies to ensure long-term sustainability. By integrating economic and environmental benefits, this study offers actionable insights for policymakers and stakeholders seeking to mitigate climate challenges and secure agricultural resilience in the Cauvery Delta.

References

1. 1. Government of Tamil Nadu. Season and crop report. Chennai: Department of Agriculture, Government of Tamil Nadu; 2023.
2. 2. Karthick S, Saminathan R, Gopinath R. A study on the problems faced by farmers in paddy marketing of Cauvery Delta Region, Tamil Nadu. Int J Manag. 2020;11(10):2155–64.
3. 3. Karthikeyan R, Balasubramanian TN. Economic analysis of maize (Zea mays L.) production under varied times of sowing in Western zone of Tamil Nadu, India. Indian J Agric Res. 2006;40(2):98–103.
4. 4. Kokilavani S, Dheebakaran GA. Delineation of prospective cropping zones for rice and maize in Tamil Nadu. Int J Agric Sci. 2019;11(10):8545–47.
5. 5. Government of Tamil Nadu. Season and crop report. Various issues. Chennai: Department of Economics and Statistics, Government of Tamil Nadu.
6. 6. Kokilavani S, Geethalakshmi V. Identification of efficient cropping zone for rice, maize and groundnut in Tamil Nadu. Indian J Sci Technol. 2013;6(10):5298–301. https://doi.org/10.17485/ijst/2013/v6i10.7
7. 7. Mzyece A, Amanor-Boadu V, Ng'ombe JN. Strategic value of crop diversification among farmers: New insights and measurement. World Dev Sustain. 2023;3:100090. https://doi.org/10.1016/j.wds.2023.100090
8. 8. Kanwar J. Cropping patterns, scope and concept. In: Proceedings of the symposium on cropping pattern in India. Indian Council of Agricultural Research; 1972. p. 11–32.
9. 9. Alonso-Ayuso M, Franco-Luesma S, Lafuente V, Bielsa A, Álvaro-Fuentes J. Cereal-maize vs. legume-maize double-cropping: Impact on crop productivity and nitrogen dynamics under flood-irrigated Mediterranean conditions. J Agric Food Res. 2024;18:101357. https://doi.org/10.1016/j.jafr.2024.101357
10. 10. Poudel S, Thapa R, Mishra B. A farmer-centric cost–benefit analysis of climate-smart agriculture in the Gandaki River Basin of Nepal. Climate. 2024;12(9):145. https://doi.org/10.3390/cli12090145
11. 11. Gulati A, Zhou Y, Huang J, Tal A, Juneja R, Gulati A, et al. Innovations in production technologies in India. In: From food scarcity to surplus: Innovations in Indian, Chinese and Israeli Agriculture. Singapore: Springer; 2021;23–82. https://doi.org/10.1007/978-981-15-9484-7_3
12. 12. Viguier L, Cavan N, Bockstaller C, Cadoux S, Corre-Hellou G, Dubois S, et al.. Combining diversification practices to enhance the sustainability of conventional cropping systems. Eur J Agron. 2021;127:126279. https://doi.org/10.1016/j.eja.2021.126279
13. 13. Ghosh S, Barik DK, Renganayaki P, Kang B, Gumber S, Venkatesh S, et al. The impact of short-duration precipitation events over the historic Cauvery basin: A study on altered water resource patterns and associated threats. Sci Rep. 2023;13:14095. https://doi.org/10.1038/s41598-023-41417-6
14. 14. Singh K, Ahuja R, Sekhon MK. Crop diversification in Punjab: Challenges and opportunities under water-scarce conditions. Indian J Agric Econ. 2018;73(3):322–34.
15. 15. Ravi R, Kumar A, Venkatesan V. Crop diversification under policy interventions in Tamil Nadu: Insights from maize promotion initiatives. Indian J Econ Dev. 2020;18(4):254–64.
16. 16. Sharma P, Pal S. Trends in agricultural diversification in India: Implications for sustainable development. Sustainability. 2021;13(11):6352.
17. 17. Mishra R, Jena P, Pattnaik P. Assessing the role of crop diversification in Odisha under changing climatic conditions. Clim Risk Manag. 2019;25:100193. https://doi.org/10.1016/j.crm.2019.100193
18. 18. Ray D, Mishra S, Chatterjee S. Land-use patterns and crop diversification in Eastern India: A Herfindahl index-based study. Geogr J India. 2017;89(2):134–49.
19. 19. Kumar S, Singh R, Singh J. Impact of agricultural policies on crop diversification in India. Indian J Agric Econ. 2018;73(1):50–67.
20. 20. Das S, Mishra D. Assessment of crop concentration and diversity in West Bengal: An analysis using Gini and Herfindahl indices. Econ Aff. 2020;65(2):217–25.