Interaction Effect of Water Stress and Fertilizer on Yield and Water Productivity of Wheat in Saline Condition

Document Type : Research Paper

Author

Soil and Water Research Department, East Azarbaijan Agricultural and Natural Resources Research Center, AREEO, Tabriz, Iran

Abstract

In this study, the interaction effect of water stress at different growth stages and NK fertilizer application on yield and water productivity of wheat was investigated in a saline condition. This experiment was conducted in a split plot design, based on a completely randomized block with five irrigation treatments (as main plots) and four fertilizer treatments (as sub plots) with 4 replications in Khosrowshah region of East Azerbaijan province for 3 years (2011-2014). Irrigation treatments comprised of full irrigation (I1), irrigation cut at stage of stem elongation (I2), Irrigation cut at flowering stage (I3), irrigation cut at milk stage (I4) and irrigation cut at milk and dough stage (I5). Fertilizer treatments comprised of N- and K-fertilizer application based on the local recommendation (F1), 30% more than the recommended rate (F2), 30% lower than the recommended rate (F3) and 30% reduction only in N-fertilizer recommended rate (F4). Results revealed that there was a significant difference between I3 and other treatments. Treatments I1 and I3 with 2865 and 2028 kgha-1 had the highest and lowest grain yield, respectively. There was significant differences among the treatments in terms of water productivity. I5 with 1.42 kgm-3 and I3 with 0.71 kgm-3 had the highest and the lowest water productivity (WP) among treatments, respectively. Among fertilizer treatments, F3 had the lowest biomass and WP in terms of biomass yield, whereas there was no significant difference among the other treatments. There was no significant differences among the fertilizer treatments in terms of grain yield, WP, protein and seed nutrients contents (NPK). Based on the obtained results, in the case of limited yield production due to water scarcity and salinity stress, eliminating late season irrigation at milk and dough stages and also application of N and K fertilizer at the recommended rate are suggested.

Keywords


Agarwal, S. K. and Yadav, S. K. (1978). Effect of nitrogen and irrigation levels on the growth and yield of wheat. Indian Journal of Agronomy. 23. 137–143.
Aown, M., Raza, S., Saleem, M. F., Anjum, S. A., Khaliq T. and Wahid, M. A. (2012). Foliar application of potassium under water deficit conditions improved the growth and yield of wheat (Triticum aestivum L.). Journal of Animal and Plant Sciences. 22(2). 431–437.
Baque, A., Karim, A., Hamid, A., and Tetsushi, H. (2006). Effects of fertilizer potassium on growth, yield and nutrient uptake of wheat (Triticum aestivum L.) under water stress conditions. Journal of South Pacific Studies 27(1): 25–35.
Barnabas, B., Jager, K. and Feher, A. (2008). The effect of drought and heat stress on reproductive processes in cereals. Plant, Cell and Environment. 31. 11-38.
Botella, M. A., Martinez, V., Pardines, J., and Cerda, A. (1997). Salinity induced potassium deficiency in maize plants. Journal of Plant Physiology. 150. 200–205.
Bray, E. A., Bailey-Serres, J., and Weretilnyk, E. (2000). Responses to abiotic stresses. In B. Buchanan, W. Gruissem, R. Jones (Eds.), Biochemistry and Molecular Biology of Plants. American Society of Plant Physiologists. (pp. 1158–1203). Rockville, MD, USA.
Buller, O. H., Manges, H. L., Stone, L. R., and Williams, J. R. (1988). Selecting irrigated crops for net income and water conservation in western Kansas. Agricultural Experiment Station, Kansas State University, Manhattan 66506. Report of Progress 536. Retrieved November 6. 2018 from: https://www.ksre.k-state.edu/historicpublications/pubs/SRP536.pdf.
Cakmak, I. (2005). The role of potassium in alleviating de trimental effects of abiotic stresses in plants. Journal of Plant Nutrition and Soil Science. 168. 521–530.
Cakmak, I., and Engels, C. (1999). Role of mineral nutrients in photosynthesis and yield formation. In Zn. Rengel (Ed.), Mineral Nutrition of Crops: Mechanisms and Implications. (pp. 141–168). The Haworth Press, New York, USA.
Campbell, C. A., Davidson, H. R., and Warder, F. G. (1977). Effects of fertilizer N and soil moisture on yield, yield components, protein content and N accumulation in the aboveground parts of spring wheat. Canadian Journal of Soil Science. 57. 311–327.
Choudhary, P. N., and Kumar, V. (1980). The sensitivity of growth and yield of dwarf wheat to water stress at three growth stages. Irrigation Science. 1. 223–231.
Cooke, G. W. (1986). The interactions between the supplies of water and of nutrients available to crops: implications for practical progress and for scientific work. Philosophical Transactions of the Royal Society of London. 316(1537). 331–346.
De Juan, J. A., Tarjuelo, J. M., Ortega, J. F., Valiente, M., and Crrion, P. (1999). Management of water consumption in agriculture—a model for economic optimization of water use: application to a sub-humid area. Agricultural Water Management. 40. 303–313.
Day, A. D., and Intalap, S. (1970). Some effects of soil moisture stress on the growth of wheat (Triticum aestivum L. em Thell.). Agronomy Journal. 62. 27–29.
Degl’Innocenti, E., Hafsi, C., Guidi, L., and Navari-Izzo, F. (2009). The effect of salinity on photosynthetic activity in potassium-deficient barley species. Journal of Plant Physiology. 166. 1968–1981.
Donald, C. M., and Hamblin, J. (1976). The biological yield and harvest index of cereals as agronomic and plant breeding criteria. Advanced Agronomy. 28. 361–405.
Doorenbos, J., and Pruitt, W. O. (1977). Guidelines for predicting crop water requirements. FAO Irrigation and Drainage Paper. 24. FAO, Rome.
Ebrahimi Pak, N. A. 2012. Determination of wheat yield response factor to deficit irrigation at different growth stage. Journal of Crop Production and Processing. 2(5). 121–130 (In Farsi)
Evans, L. T., Wadlaw, I. F. and Fischer, R. A. (1975). Wheat. In L. T. Evans (Ed.), Crop physiology. (pp. 101–150), Cambridge University Press, London, UK.
Fischer, R. A. (1973). The effects of water stress at various stages of development on yield processes in wheat. In: Plant Response to Climatic Factors, Proceedings of the Uppsala Symposium, Ecology and Conservation, 5, (pp. 233–241) Unesco,
Herandez, L. E., Garate, A., and Caroeba-Ruiz, R. (1997). Effect of cadmium on the uptake, distribution and assimilation of nitrate in Pisum sativum. Plant and Soil. 189. 97–106.
Ikisan Agriinformatics and Services. (2018). Irrigation: Critical stages of irrigation requirement. Retrieved August 7. 2018 from http://www.ikisan.com/irrigation.html#Need%20for%20Irrigation.
India Agro Net. (2018). Application of water at critical stages. Ag. Technologies (Water Mgmt.) Retrieved August 7. 2018 from https://www.indiaagronet.com/indiaagronet/water_management/CONTENTS/Critical%20Stages.htm.
Kausar, A., and Gull, M. (2014). Effect of potassium sulphate on the growth and uptake of nutrients in wheat (Triticum aestivum L.) under salt stressed conditions. Journal of Agricultural Science. 6(8). 101–112.
Kumar, A., Sharma, D. K., and Sharma, H. C. (1995). Water and nitrogen needs of wheat (Triticum aestivum) in sodic soil. Indian Journal of Agricultural Science. 65(5). 323–327.
Labhsetwar, V. L. (2004). Irrigation strategies for crop production under water scarcity. Retrieved November 6. 2018 from http://irncid.org/English/GetFileArticles.aspx?FilePrm=9836_39233.pdf.
Lal, R. B. (1985). Irrigation requirement of dwarf durum and aestivum wheat varieties. Indian Journal of Agronomy. 30. 207–213.
Li, F. M., Song, Q. H., Liu, H. S., Li, F. R., and Liu, X. L. (2001). Effects of pro-sowing irrigation and phosphorus application on water use and yield of spring wheat under semi-arid conditions. Agricultural Water Management. 49. 173–183.
Malek-Mohammadi, M., Maleki, A., Siaddat, A., and Beigzade, M. (2013). The effect of zinc and potassium on the quality yield of wheat under drought stress conditions. International Journal of Agriculture and Crop Sciences. 6(16). 1164–1170.
Marschner, P. (2012). Marschner’s Mineral Nutrition of Higher Plants, (3rd ed.). Academic Press, London, UK.
Mirzaei, A., Naseri, R., and Soleimani, R. (2011). Response of different growth stages of wheat to moisture tension in a semiarid land. World Applied Sciences Journal. 12(1). 83–89.
Mogensen, V. O., Jensen, H. E., and Rab, M. A. (1985). Grain yield, yield components, drought sensitivity, and water use efficiencies of spring wheat subjected to water stress at various growth stages. Irrigation Science. 6. 131–140.
Musick, J. T., and Porter, K. B. (1990). Wheat. In B. A. Stewart, D. R. Nielsen (Eds.), Irrigation of Agricultural Crops. (pp. 597–638), Agronomy 30, Madison, Wisconsin, USA.
Oerke, E. C. (2006). Crop losses to pests. Journal of Agricultural Science. 144. 31–43.
Onnabi Milani, A., Kalantari, F., Mousavimanesh, S., Chitsaz, S., and Pashaei, S. (2004). Determining and evaluating the crop coefficient for wheat during growing season at Tabriz plain. Final report of research plan No. 1182, AREEO, Iran. (In Farsi)
Ozturk, A., and Aydin, F. (2004). Effect of water stress at various growth stages on some quality characteristics of winter wheat. Journal of Agronomy and Crop Science. 190. 93–99.
Pandy, P. K., Maranville, J. W., and Admou, A. (2001). Tropical wheat response to irrigation and nitrogen in a Sahelian environment. I. Grain yield, yield components and water use efficiency. European Journal of Agronomy. 15. 93–105.
Pradhan, S., Chopra, U. K., Bandyopadhyay, K. K., Singh, R., Jain, A. K., and Ishwar Chand. (2013). Effect of water and nitrogen management on water productivity and nitrogen use efficiency of wheat in a semi-arid environment. The International Journal of Agriculture Food Science & Technology. 4(7). 727–732.
Romheld, V., and Kirkby, E. A. (2010). Research on potassium in agriculture: Needs and prospects. Plant and Soil. 335. 155–180.
Rouphael, Y., Cardarelli, M., Schwarz, D., Franken, P., and Colla, G. (2012). Effects of drought on nutrient uptake and assimilation in vegetable crops. In R. Aroca, (Ed.), Plant Responses to Drought Stress. (pp. 171–195). Springer, Berlin, Heidelberg, Germany.
Shabir, R. N., Ashraf, M. Y., Waraocj, E. A., Ahmad, R., and Shahbaz, M. (2015). Combined effects of drought stress and NPK foliar spray on growth, physiological processes and nutrient uptake in wheat. Pakistan Journal of Botany. 47(4). 1207–1216.
Shimshi, D., and Kafkafi, U. (1978). The Effect of supplemental irrigation and nitrogen fertilisation on wheat (Triticum aestivum L.). Irrigation Science. 1(1). 27–38.
Singh, K. P., and Kumar, V. (1981). Water use and water-use efficiency of wheat and barley in relation to seeding dates, levels of irrigation and nitrogen fertilization. Agricultural Water Management. 3(4). 305–316.
Singh, N. T., Singh, R., Mahajan, P. S., and Vig, A. C. (1979). Influence of supplemental irrigation and presowing soil water storage on wheat. Agronomy Journal. 71. 483–486.
Singh, P. N., Joshi, B. P., and Singh, G. (1987). Water use and yield response of wheat to irrigation and nitrogen on an alluvial soil in North India. Agricultural Water Management. 12(4). 311–321.
Wang, M., Zheng, Q., Shen, Q., and Guo, S. (2013). The critical role of potassium in plant stress response. International Journal of Molecular Sciences. 14. 7370–7390.
Waraich, E. A, Ahmad, R., Ashraf, M. Y., Saifullah, and Ahmad, M. (2011a). Improving agricultural water use efficiency by nutrient management in crop plants. Acta Agriculturae Scandinavica, Section B — Soil & Plant Science 61. 291–304.
Waraich, E. A, Ahmad, R., Saifullah, Ashraf, M. Y., and Ehsanullah. (2011b). Role of mineral nutrition in alleviation of drought stress in plants. Australian Journal of Crop Science. 5. 764–777.
Zhang, H., Yu, X., Jin, Zh., Zheng, W., Zhai, B., and Li, Z. (2017). Improving grain yield and water use efficiency of winter wheat through a combination of manure and chemical nitrogen fertilizer on the Loess plateau, China. Journal of Soil Science and Plant Nutrition. 17(2). 461–474.
Zhong, Y., Shangguan, Zh. (2014). Water consumption characteristics and water use efficiency of winter wheat under long-term nitrogen fertilization regimes in northwest china. PLoS One. 9(6). e98850.