Optimizing the planting density of Bt. cotton varieties for rainfed vertisols of central India

Authors

  • M.V. VENUGOPALAN Principal Scientist (Agronomy) and Head, PME Unit, ICAR Central Institute for Cotton Research (CICR), Nagpur, Maharashtra 440 010
  • G.I. RAMKRUSHNA ICAR-Central Research Institute for Dryland Agriculture (CRIDA), Hyderabad, Telangana 500 059
  • H.B. SANTOSH ICAR-Central Institute for Cotton Research (CICR), Nagpur, Maharashtra 440 010
  • A.J. BAGADKAR ICAR-Central Institute for Cotton Research (CICR), Nagpur, Maharashtra 440 010
  • SUMAN BALA SINGH ICAR-Central Institute for Cotton Research (CICR), Nagpur, Maharashtra 440 010

DOI:

https://doi.org/10.59797/ija.v70i1.6338

Keywords:

Bt variety, Crop geometry, Earliness index, Plant density, Vertisols

Abstract

The field experiment was conducted during the monsoon seasons of 2019–20 and 2020–21 at ICAR-Central Institute for Cotton Research (CICR), Nagpur, Maharashtra. Bt cotton (Gossypium hirsutum L.) hybrids was introduced in India by the private seed industry in 2002. Hybrid seeds were expensive and its cultivation is input intensive, cotton breeders from the public sector R & D institutes released Bt cotton varieties in 2020 suitable for planting under low input situations. This study evaluated the production potential of four Bt varieties released and notified in India, from the ICAR-Central Institute for Cotton Research, Nagpur. The varieties, ICAR-CICR ‘PKV081- Bt’, ICAR-CICR ‘Suraj Bt’, ICAR-CICR ‘Rajat Bt’, and ICAR-CICR ‘GJHV 374 Bt’ were evaluated in a split plot design under rainfed conditions on a Vertisol, with four planting densities, viz. 0.37 lakh (90 cm × 30 cm), 0.55 lakh (90 cm × 20 cm), 0.74 lakh (90 cm × 15 cm) and 1.1 lakh plants/ha (90 cm × 10 cm). The results indicated that there were significant differences among varieties and plant densities with respect to seed cotton yield, lint yield, boll weight, days to first open flower and earliness index. ICAR-CICR ‘PKV081-Bt’ was the most productive variety, yielding 2,639 kg seed cotton/ha at 0.37 lakh plants/ha. The interaction (variety × plant density) was significant for seed cotton yield, lint yield and boll density. Concerning seed cotton yield, for varieties, ‘PKV 081 Bt’ and ‘Rajat Bt’, 0.37 lakh plants/ha was optimum whereas for ‘Suraj Bt’ and ‘GJHV 374 Bt’, 0.74 lakh plant/ha was optimum plant density. At densities of 0.74 and 1.1 lakh plant/ha, the plant height increased and the maturity was delayed. The study highlights the importance of selecting appropriate Bt varieties and optimizing planting density to increase the productivity of rained cotton on Vertisols of Central India.

References

Adams, C., Thapa, S. and Kimura, E. 2019. Determination of a plant population density threshold for optimizing cotton lint yield: A synthesis. Field Crops Research 230: 11–16.

Anjum, S.A., Saleem, M.F., Shahid, M.Q. and Ali, S. 2010. Growth, lint yield and earliness index of cotton cultivars under varying row spacing. Cotton Science 22(6): 611–616.

Bednarz, C.W., Bridges, D.C. and Brown, S.M. 2000. Analysis of cotton yield stability across population densities. Agronomy Journal 92: 128–135.

Braunack, M.V. 2013. Cotton farming systems in Australia: Factors contributing to changed yield and fibre quality. Crop Pasture Science 64: 834–844.

Dong, H.Z., Tang, W.J., Li, W., Li, Z.H. and Zhang, D.M. 2006. Effects of genotypes and plant density on yield, yield components and photosynthesis in Bt transgenic cotton. Journal of Agronomy and Crop Science 192: 132–139.

Gomez, K.A. and Gomez, A.A. 1984. Statistical Procedures for Agricultural Research, 2nd edn. John Wiley, New York, USA.

Gutierrez, A.P. 2018. Hybrid Bt cotton: a stranglehold on subsistence farmers in India. Current Science 115: 2,206–2,210.

Halemani, H.L. and Hallikeri, S.S. 2002. Response of compact and early maturing cotton genotypes to plant population levels under rainfed conditions. Journal of Cotton Research and Development 16: 143–146.

Hemalatha, G., Nagabhushanam, U., Veeranna, G. and Ramulu, Ch. 2024. Impact of different plant densities and fertilizer levels on yield attributes, yield and fibre quality characters of Bt cotton in HDPS. Journal of Experimental Agriculture International 46(8): 290–297.

ISAAA. 2021. Breaking Barriers with Breeding: A primer on new breeding innovations for food security. ISAAA Brief No. 56. ISAAA: Ithaca, NY.

Karunakar, A.P., Kumar, A., Turkhede, A.B., Nagdeve, M.B. and Mali, R.S. 2018. Agro meteorological studies in different cotton species under HDPS. International Journal of Current Microbiology and Applied Sciences 7(8): 4,605–4,616.

Kranthi, K.R. and Stone, G.D. 2020. Long-term impacts of Bt cotton in India. Nature Plants 6(3): 188–196.

Liu, L., Li, C., Han, Y., Wang, Z., Feng, L. and Zhi, X.Beifang, Y., Yapin, L., Wenli, D. and Yabing, L. 2019. Adjusting cotton planting density under the climatic conditions of Henan Province, China. PLoS one 14(9): e0222395.

Pandagale, A.D., Baig, K.S., Rathod, S.S. and Namade, T.B. 2020. Plant density and genotype evaluation for high density planting system of cotton under rainfed condition. International Journal of Current Microbiology and Applied Sciences 9(9): 1,291–1,298.

Patil, C., Satihal, D.G., Joshi, A.T., Ganigera, B.S. and Naik, V. 2024. View of Study the Input Use Pattern and Cost and Returns of Hybrid Cotton Seed Production in Karnataka, India. Asian Journal of Agricultural Extension, Economics & Sociology 42(5): 241–248.

Reddy, S., Ali Baba, M., Vijaya Kumari, R., and Chary, D.S. 2021. Economic analysis of Bt cotton cultivation in Warangal district of Telangana state. Multilogic in Science 10(35): 1,122–1,127.

Saleem, M.F., Anjum, S.A., Shakeel, A., Ashraf, M.Y. and Khan, H.Z. 2009. Effect of row spacing on earliness and yield in cotton. Pakistan Journal of Botany 41(5): 2,179–2,188.

Siebert, J.D., Alexander, M., Stewart, B. and Rogers, L. 2006. Comparative Growth and Yield of Cotton Planted at Various Densities and Configurations. Agronomy Journal 98: 562–568.

Venugopalan, M.V. Blaise, D., Yadav, M.S. and Vandana, S. 2012. Advances and milestones in agronomic research on cotton in India. Indian Journal of Agronomy 57(3rd IAC Special Issue): 64–71.

Venugopalan, M.V., Kranthi,K. R., Blaise, D., Lakade, S. and Sankaranarayanan K. 2013. High density planting system in cotton-The Brazil experience and Indian initiatives. Cotton Research Journal 5: 172–185.

Vittal, B.M. 2018. Bt cotton in India-Current Scenario. Cotton Statistics and News. 2018–19 No. 16, 17 July, pp. 1–4.

Vinayak, H., Chittapur, B.M., Halepyati, A.S. and Venkatesh, H. 2023. Nutrition management affect, cotton (Gossypium hirsutum) productivity and leaf reddening for forgeted yields. Indian Journal of Agronomy 68(1): 60–66 https://doi.org/10.59797/ija.v68i1.204.

Vinayak, H., Chittapur, B.M., Halepyati, A.S. and Venkatesh, H. 2022. Influence of line of planting and genotypes on leaf reddening, seed-cotton yield and productivity efficiency, in Bt Cottons (Gossypium hirsutum) 67(1): 77–81. https://doi.org.16.5979/ija.v67i1.92.

Waghmare, V.N., Venugopalan, M.V., Nagrare, V.S., Gawande, S.P. and Nagrale, D.T. 2022. Cotton growing in India. In: Pest management in cotton: a global perspective (Eds. Matthews G.A. and Miller) CABI, pp. 30–52 https://doi.org/10.1079/9781800620216.0003.

Wang, C., Isoda, A. and Wang, P. 2004. Growth and yield performance of some cotton cultivars in Xinjiang, China, an arid area with short growing period. Journal of Agronomy and Crop Science 190: 177–183.

Yao, H., Zhang, Y., Yi, X., Wanzhuo, G. and Wenyu, Y. 2016. Cotton responds to different plant population densities by adjusting specific leaf area to optimize canopy photosynthetic use efficiency of light and nitrogen. Field Crop Research 188: 10–6.

Zhi, X., Han, Y., Li, Y., Wang, G., Du, W., Li, X., Mao, S. and Feng, L. 2016. Effects of plant density on cotton yield components and quality. Journal of Integrative Agriculture 15(7): 1,469–1,479.

Downloads

Published

2025-04-05

Issue

Section

Research Paper

How to Cite

M.V. VENUGOPALAN, G.I. RAMKRUSHNA, H.B. SANTOSH, A.J. BAGADKAR, & SUMAN BALA SINGH. (2025). Optimizing the planting density of Bt. cotton varieties for rainfed vertisols of central India. Indian Journal of Agronomy, 70(1), 67-73. https://doi.org/10.59797/ija.v70i1.6338