Standardize the dose and timing of defoliant application to facilitate synchronized maturity for mechanical harvesting of rainfed cotton (Gossypium hirsutum)

A.A. MOHAMMED ASHRAF; T. RAGAVAN; S. NAZIYA BEGAM

doi:10.59797/ija.v65i4.3008

Authors

A.A. MOHAMMED ASHRAF
T. RAGAVAN
S. NAZIYA BEGAM

DOI:

https://doi.org/10.59797/ija.v65i4.3008

Keywords:

Defoliants, Ethrel, Paraquat, Rainfed cotton

Abstract

A field experiment was conducted at Regional Research Station, Aruppukottai, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu during the winter (rabi) season of 2016 and 2017 at Aruppukotai, Tamil Nadu, to study the influence of defoliants on SVPR 2 (Gossypium hirsutum L.) rainfed cotton. The experiment was laid out in randomized block design with 3 replication. The treatments consisted of defoliants spraying at different concentrations and time of application, viz. ethrel @ 1,500 ppm at 135 days after sowing DAS (D1), ethrel @ 2,000 ppm at 135 days after sowing (DAS) (D2), ethrel @ 2,500 ppm at 135 DAS (D3), ethrel @ 1,500 ppm at 150 DAS (D4), ethrel @ 2,000 ppm at 150 DAS (D5), ethrel @ 2,500 ppm at 150 DAS (D6), paraquat @ 1,500 ppm at 135 DAS (D7), paraquat @ 1,500 ppm at 150 DAS (D8) and control (D9). Observations, viz. growth parameters, yield-attributing characters and senescence parameters were recorded at 10 days after spraying and economics were worked out. The highest percentage of the senescence attributes, viz. percentage of of yellow leaves, yellow plants, dried leaves and leaf fall, was observed paraquat @ 1,500 ppm applied at 150 DAS. This was comparable with spraying of paraquat @ 1,500 ppm at 135 DAS and ethrel @ 2,500 ppm at 150 DAS during both years. Ethrel @ 2500 ppm at 150 DAS recorded the highest boll weight and more number of bolls/plant, resulting in significantly highest seed-cotton yield. The higher net income and the benefit: cost ratio were also recorded with the application of ethrel @ 2,500 ppm at 150 DA

References

Bahar, F.A., Singh, K.N. and Malik, M. A. 2009. Integrated weed

management in maize (Zea mays) under different nitrogen

levels. Indian Journal of Agricultural Sciences 79(8): 1,369

,371. Dar, E.A., Harika, A.S., Tomar, S.K., Tyagi, A.K, and Datta, A.

b. Effect of crop geometry and nitrogen levels on qual

ity of baby corn (Zea mays L.) as fodder. Indian Journal of

Animal Nutrition 31(1): 6064.

Dar, E.A., Harika, A.S., Datta, A. and Jat, H.S. 2014a. Growth, yield and economic returns from the dual-purpose baby corn (Zea mays) under different planting geometry and nitrogen levels. Indian Journal of Agronomy 59(3): 468470.

Dar, E.A., Yousuf, A., Bhat, M.A. and Poonia, T. 2017. Growth, yield and quality of baby corn (Zea mays L.) and its fodder as influenced by crop geometry and nitrogen applicationA Review. The Bioscan 12(1): 463-69.

GoI. 2017. Agricultural Statistics at a Glance. Ministry of Agriculture, Department of Agriculture and cooperation, Directorate of Economics and Statistics, Government of India, New Delhi.

Malviya, A. and Singh, B. 2007. Weed dynamics, productivity and economics of maize (Zea mays) as affected by integrated weed-management under rainfed condition. Indian Journal of Agronomy 52(4): 321324.

Nagalakshmi, K.V.V., Chandrasekhar. and Subbaiah, G. 2006. Weed management for efficient use of nitrogen in rabi maize. Andhra Agriculture Journal 53(2): 1416.

Pandey, A.K., Prakash, V., Singh, R.D. and Mani, V.P. 2002. Studies on crop-weed competition and weed dynamics in maize under mid-hill conditions of NW Himalayas. Indian Journal of Weed Science 34(1, 2): 6367.

Sinha, S.P., Prasad, S.M., Singh, S.J. and Sinha, K.K. 2003. Integrated weed management in winter maize (Zea mays) in North Bihar. Indian Journal of Weed Science 35(3, 4): 273

Warade, A.D., Gonge, V.S., Jog Dande, N.D., Ingole, P.G. and Karunakar, A.P. 2006. Integrated weed management in maize. Indian Journal of Weed Science 38(1 and 2): 92-95.