Optimizing sulphur application in sunflower (Helianthus annuus) under irrigated semi-arid tropical conditions
DOI:
https://doi.org/10.59797/ija.v58i3.4204Keywords:
Dose optimization, Growth dynamics, Nutrient uptake, Sources of sulphur, SunflowerAbstract
A field experiment comprising varying levels of sulphur (0, 20 and 40 kg S/ha) applied through different sources (ammonium sulphate, single super phosphate, gypsum and elemental sulphur) was conducted on loamy sand soil at Ludhiana, Punjab during spring seasons of 2008 and 2009 to identify the optimum dose and better source of sulphur for higher sunflower productivity. Significant improvement in seed yield of sunflower was observed with each incremental dose of sulphur up to 40 kg S/ha with 6.99.0% yield superiority over control. The application of graded doses of sulphur at the rates of 20 and 40 kg S/ha through gypsum increased the seed yield over control by 8.6 and 10.7%, respectively, whereas the corresponding increases were 8.5 and 10.4% for ammonium sul- phate, 5.4 and 7.3% for single super phosphate and 4.9 and 7.5% for elemental sulphur at the respective levels of sulphur nutrition. Highest seed yield (2.66 t/ha), oil content (42.9%), net returns ( 46.3 103/ha) and B:C ratio (4.08) was recorded with application of 40 kg S/ha applied through gypsum. Positive and highly significant correla- tion was observed between seed yield and head diameter (r=0.977**), dry matter accumulation (r=0.935), seed weight (r=0.810**). Oil content in the seed recorded a positive and highly significant relationship with uptake of N (r=0.984**), P (r=0.993**) and S (r=0.978**), signifying the importance of balanced nutrition in improving the oil content. Almost similar seed yield can be obtained with economic optimum dose of sulphur, indicating the saving of S ranging from 0.4 to 6.6 kg/ha depending upon the source.References
Agarwal, R.C. 2007. Indian edible oil scenario. (In:) Souvenir of
National Symposium on Changing global vegetable oil scenarioissues and challenges before India. Directorate of Oilseeds Research, Hyderabad, January 29-31, 2007. pp. 2732.
Barney, Jr.P.E. and Bush, L.P. 1985 Interaction of nitrate and sulfate reduction in tobacco. I. Influence of availability of nitrate and sulphate. Journal of Plant Nutrition 8: 50515.
Brunold, C. and Suter, M. 1984. Regulation of sulfate assimilation by nitrogen nutrition in the duckweed Lemna minor L. Plant Physiology 76: 57983.
Chapman, S.C. and De La Vega, A.J. 2002. Spatial and seasonal effects confounding interpretation of sunflower yield in Argentina. Field Crops Research 73: 10720.
Chouhary, T.S.D., Viadya, C.S. and Sekhar, A.C. 1991. Effect of graded doses of phosphorus and sulphur on the growth, yield and oil content of groundnut. Journal of Maharashtra Agricultural University 16: 13334.
Deshbhratar, P.B., Singh, P.K., Jambhulkar, A.P. and Ramteke, D.S. 2010. Effect of sulphur and phosphorus on yield, quality and nutrient status of pigeonpea (Cajanus cajan). Journal of Environmental Biology 31: 93337.
Dev, G. and Kumar, V. 1982. Secondary nutrients. (In:) Review of Soil Research in India, Part I: 12th International Congress of Soil Science, Indian Society of Soil Science, New Delhi. pp. 34260.
Duhoon, S.S., Deshmukh, M.R., Jyotishi, A. and Jain, H.C. 2005. Effect of sources and levels of sulphur on seed and oil yield of sesame under different agroclimatic situations of India. Journal of Oilseeds Research 22: 199200.
Hassan, F.V., Hakim, S.A., Manaf, A., Qadir, G. and Ahmad, S. 2007. Response of sunflower to sulphur and seasonal variations. International Journal of Agriculture and Biology 9: 49903.
Hegde, D.M. and Sudhakarbabu, S.N. 2009. Declining factor productivity and improving nutrient use efficiency in oilseeds. Indian Journal of Agronomy 54(1): 18.
Hussain, S.S., Misger, F.A., Kumar, A. and Babu, M.H. 2011. Response of nitrogen and sulphur on biological and economic yield of sunflower (Helianthus annuus L.). Research Journal of Agricultural Sciences 2: 30810.
Irwin, J.G., Campbell, G. and Vincent K. 2002. Trends in sulphate and nitrate wet deposition over the United Kingdom. Atmospheric Environment 36: 286779.
Legha, P.K. and Giri, G. 1999. Influence of nitrogen and sulphur on growth, yield and oil content of sunflower (Helianthus annuus L.) grown in spring season. Indian Journal of Agronomy 44(2): 40812.
Ozer, H., Polat, T. and Ozturk, E. 2004. Response of irrigated sunflower (Helianthus annuus L.) hybrids to nitrogen fertilization: Growth, yield and yield components. Plant, Soil and Environment 5: 20511.
Roche, J., Essahat, A., Bouniols, A., El-Asri, M., Mouloungui, Z., Mondies, M. and Alghoum, M. 2004. Diversified composition of sunflower (Helianthus annuus L.) seeds with in cultural practices and genotypes (hybrids and populations). HELIA 27: 7397.
Scherer, H.W. 2001. Sulphur in crop production. European Journal of Agronomy 14: 81111.
Sirohi, G.S. and Abrol, Y.P. 1991. Source-sink relationship of sunflower. (In:) Studies on photosynthesis and crop productivity under tropical environment, USIndia Funded Project, IARI, New Delhi, pp. 1113.
Takkar, P.N. 1988. Sulfur status of Indian soils. (In:) TSI-FAI Symposium on Sulfur in Indian Agriculture. The Sulphur Institute, Washington DC, and The Fertilizer Association of India, New Delhi, India.




