Growth, nodulation and productivity of rainfed soybean (Glycine max) as influenced by mulching and anti-transpirants

HARPREET KAUR VIRK; GURIQBAL SINGH; NAVNEET AGGARWAL; POONAM SHARMA

doi:10.59797/ija.v64i4.5300

Authors

HARPREET KAUR VIRK
GURIQBAL SINGH
NAVNEET AGGARWAL
POONAM SHARMA

DOI:

https://doi.org/10.59797/ija.v64i4.5300

Keywords:

Anti-transpirants, Economics, Mulch, Nodulation, Soybean

Abstract

A field experiment was conducted during the rainy seasons (kharif) of 2012, 2013 and 2014 at the research farm of the Punjab Agricultural University, Ludhiana, Punjab, to study the effect of straw mulching and anti- transpirants on growth, nodulation and productivity of soybean [Glycine max (L.) Merr]. The experiment was laid out in factorial randomized complete, block design with 3 replications. The treatments included 2 mulching lev- els [wheat straw mulch @ 5 t/ha after sowing and control (no mulch)] and 5 anti-transpirants [5% magnesium carbonate (MgCO ), 5% glycerol, 5% sodium carbonate (Na CO ) in 2012 and during 2013 and 2014 sodium carbon- 3 2 3 ate was 2%, potassium nitrate (KNO ) 1% and control] during all the 3 years. Application of straw mulch @ 5 t/ha 3 after sowing recorded the highest dry matter/plant, nodulation, plant height, pods/plant, straw yield and seed yield of soybean. Straw mulch recorded 17.6% higher seed yield and 22.6% higher rainfall use efficiency over no mulch. Straw mulching resulted in significantly higher gross ( 8,037) and net returns (3,037) as compared to the control (no mulch). Application of anti-transpirants had no significant effect on nodulation and seed yield of soy- bean. Application of potassium nitrate provided higher gross returns, net returns and benefit : cost ratio than the other anti-transpirants. However, use of anti-transpirants was not economical over the control. It is con- cluded that application of straw mulch @ 5 t/ha after sowing provides higher seed yield of soybean over no mulch.

References

Black, R.E., Lindsay, H.A., Bhutta, Z.A., Caulfield, L.E., De Onnis, M., Ezzati, M., Mathers, C. and Rivera J. 2008. Maternal and child under nutrition: global and regional exposures and health consequences. Lancet 371: 24360.

Choudhary, S.K., Mathur, A.K. and Singh, P. 2015. Effect of micro-nutrient fertilization and methods of application on yield and quality of sorghum (Sorghum bicolor) in sub-humid southern plains zone. Research on Crops 16(1): 5963.

Gomez, K.A. and Gomez, A.A. 1984. Statistical Procedure for Agricultural Research, edn. 2 pp. 241271. John Wiley Sons, New York.

Indiastat.com. 2016. Area, Production and Productivity of Rabi Sorghum in India. Indiastat.com. Kumar, A., Sen, A. and Dev, C.M. 2013. Effect of iron, zinc and

manganese levels on yield and yield attributing characters of rice. Bioinfolet 10(3B): 924929.

Kumssa, D.B., Joy, E. J.M., Ander, J.E.L., Watts, M.J., Young, S.D., Walker, S. and Broadley, M.R. 2015. Dietary calcium and zinc deficiency risks are decreasing but remain prevalent. Science Report. 5: 10,974.

Meena, M.C., Patel, K.P. and Rathod, D.D. 2008. Effect of Zn and Fe enriched FYM on mustard yield and micronutrients availability in loamy sand soil of Anand. Journal of Indian Society of Soil Science 54: 495499.

Mishra, J.S., Hariprasanna, K., Rao, S.S. and Patil, J.V. 2015. Biofortification of post-rainy sorghum (Sorghum bicolor) with zinc and iron through fertilization strategy. Indian Journal of Agricultural Sciences 85(5): 721724.

Pawar, A., Adsul, P.B., Gaikwad, G., Puri, A. and Shaikh, M.S.S. 2014. Influence of zinc and iron application on kharif sorghum. Bioinfolet 11(2): 572574.

Prasad, R., Shivay, Y.S. and Kumar, D. 2014. Agronomic biofortification of cereal grains with iron and zinc. Advances in Agronomy 125: 5591.

Rana, D.S., Singh, B., Gupta, K., Dhaka, K. and Arya, S. 2013. Response of fodder sorghum [Sorghum bicolor (L.) Moench] to zinc and iron. Forage Research 39(1): 4547.

Rao, P., Birthal, B.S., Reddy, B.V.S., Rai, K.N. and Ramesh, S. 2006. Diagnostics of sorghum and pearlmillet grains based nutrition in India. International Sorghum and Millets Newsletter 47: 9396.

Rathod, K.B., Napahde, P.S., Jadhao, V.O. and Kharat, B.S. 2005. Uptake of nutrients as influenced by application zinc and iron in sorghum. Annals of Plant Physiology 19(2): 184

Singh, M.V. 2001. Evaluation of current micronutrient stocks in different agro-ecological zones of India for sustainable crops production. Fertilizer News 42: 2542.

Singh, R., Prasad, S.K. and Singh, M.K. 2014. Effect of nitrogen and zinc fertilizer on Zn biofortification in pearlmillet (Pennisetum glaucum). Indian Journal of Agronomy 59(3): 474476.

Verma, S.S., Singh, N., Joshi, Y.P. and Deorari, V. 2005. Effect of nitrogen and zinc on growth characteristics, herbage yield, nutrient uptake and quality of fodder sorghum (Sorghum bicolor). Indian Journal of Agronomy 50(2): 167169.

Welch, R.M. and Graham, R.D. 2004. Breeding for micronutrients in staple food crops from a human nutrition perspective. Journal of Experimental Botany 55: 353364.