Effect of sulphur and plant-growth regulators on growth, yield and economics of summer groundnut (Arachis hypogaea)
DOI:
https://doi.org/10.59797/ija.v61i1.4335Keywords:
Economics, Plant-growth regulators, Sulphur, Summer groundnut, YieldAbstract
A field experiment was carried out during summer 2014 at summer Junagadh, Gujarat, to study the effect of sulphur and plant-growth regulators on growth, yield and economics of summer groundnut (Arachis hypogaea L.). Sulphur fertilization up to 40 kg S/ha significantly increased plant height, dry-matter accumulation (60 days after sowing, DAS), total chlorophyll content (55 DAS) and mature pods/plant, whereas, dry-matter accumulation at 90 DAS and at harvesting, immature pods/plant, weight of mature and immature pods/plant, and 100-kernel weight increased significantly up to 20 kg S/ha. Significantly higher number of total and effective root nodules/plant (60 DAS), and shelling outturn were recorded at 40 kg S/ha over the control. Significantly higher pod and haulm yields were realized with the application of 20 kg S/ha by 21.9 and 13.0% over the control respectively. An additional net returns of 18.3 103/ha were obtained with the application of 40 kg S/ha in comparison to the control with the highest benefit: cost ratio (1.99:1). Maximum plant height, dry-matter accumulation (60 and 90 DAS, and at har- vesting), total chlorophyll content (55 DAS), number and weight of mature and immature pods/plant were recorded with the foliar spray of NAA @ 40 ppm twice at 25 and 50 DAS, whereas the maximum number of effective root nodules/plant at 60 DAS and 100-kernel weight were recorded with the application of GA @ 20 ppm twice at 25 3 and 50 DAS. Application of NAA @ 40 ppm twice at 25 and 50 DAS significantly enhanced the pod and haulm yields by 33.8 and 18.1% over the control, respectively, and was at par with GA @ 20 ppm twice at 25 and 50 3 DAS. In comparison to the control, the maximum additional net returns of 21.2 103/ha and benefit: cost ratio (2.01:1) were also obtained under this treatment.References
AICRPG. 2015. Annual Report (kharif, 2014), All India Coordinated Research Project on Groundnut. ICAR-Directorate of Groundnut Research, Junagadh, Gujarat.
Bagarama, F.M., Shenkalwa, E. and Matata, Z.P. 2012. The effect of gypsum and NPK fertiliser on groundnut performance in Western Tanzania. (In) Third RUFORUM Biennial Meeting, held during 2428 September, 2012 at Entebbe, Uganda, pp. 38994.
Das, P.C. 1997. Oilseeds Crops of India, pp. 8083. Kalyani Publishers, Ludhiana, Punjab, India.
Dash, A.K., Nayak, B.R., Panigrahy, N., Mohapatra, S. and Samant,
P.K. 2013. Performance of groundnut (Arachis hypogaea) under different levels of sulphur and irrigation. Indian Journal of Agronomy 58(4): 57882.
El-Kader, A. and Mona, G. 2013. Effect of sulfur application and foliar spraying with zinc and boron on yield, yield components, and seed quality of peanut (Arachis hypogaea L.). Research Journal of Agriculture and Biological Sciences 9(4): 12735.
Menon, K.K.G. and Srivastava, H.C. 1984. Increasing plant productivity through improved photosynthesis. (In) Proceedings of the Indian Academy of Sciences-Plant Sciences 93(3): 359
Panse, V.G. and Sukhatme, P.V. 1985. Statistical Methods for Agricultural Workers. Indian Council of Agricultural Research, New Delhi.
Patel, G.N., Patel, P.T. and Patel P.H. 2008. Yield, water use efficiency and moisture extraction pattern of summer groundnut as influenced by irrigation schedules, sulfur levels and sources. Journal of Semi-Arid Tropical Agricultural Research 6 : 14.
Poonia, B.S., Singh, P., Rajput, O.P. and Sumeriya, H.K. 2013. Response of groundnut (Arachis hypogaea L.) in rainfed condition under the influence of sulphur, PSB and growth regulators. Annals of Agriculture Bio Research 18(3): 33638.
Rajesh, K., Reddy, S.N., Reddy, A.P.K. and Singh, B.G. 2014. A comparativestudy of plant growth regulators on morphological, seed yield and quality parameters of greengram. International Journal of Applied Biology and Pharmaceutical Technology 5(3): 10309.
Ramesh, R. and Ramprasad, E. 2015. Effect of plant growth regulators on morphological, physiological and biochemical parameters of soybean (Glycine max L. Merrill). (In) Biotechnology and Bioforensics, pp. 6171, Springer, Singapore.
Tandon, H.L.S. 1986. Sulphur Research and Agricultural Production in India. Edn 2. Fertilizer Development and Consultation Organization, New Delhi.
