Potassium Fertilizer Influences Growth Traits and Yield of Wheat (Triticum aestivum L.) under Saline Regime

Shaukat Ali Abro, Mohd Adnan, Nisar Ahmed, Mumtaz Ali, Hamz Ali, Jumo Khan, Shazia Tunio, Sana Liakat, Aamir Ali Abro, Shahida Parveen

Abstract


Soil salinity is one of major deleterious abiotic stress limiting the yield of wheat crop. Plant growth & produce is severely affected by various biotic and environmental and metabolic processes. Application of Potash fertilizer can reduce the harmful effects of saline stress and increase crop yield. This research was carried out to evaluate detrimental effects of salinity stress on wheat produce and to suggest appropriate dose of potash fertilizer to achieve optimum production under saline conditions. There were four K doses as (ck, 50, 3/4th and 100 kilogram K2O/ ha). The results depicted that potash fertilizer application increased wheat crop growth traits and produce substantially under saline regime, significantly. With potassium supplement, height of plant enhanced about 19.23 %, tillers per plant (36.24 %), length of spike (27.33 %) cm, wheat grains (23.5 %), and grain production increased (24.11 %) kg/ha. It was concluded that soil applied potassium fertilizer as K rate at 100 kg K2O yielded in maximum crop growth development and wheat produce at rate of 50 and 75 kg K2O ha-1. Therefore, potash fertilizer at rate of 100 kg K2O ha-1 may be adopted for optimum yield in wheat under saline environment.

Keywords


Soil environment; Fertilizer rates; Salinity; Wheat Production

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References


Ashraf, M.Y., N. Rafique, M. Ashraf, N. Azhar and M. Marchand. 2013. Effect of supplemental Potassium on growth, physiological and biochemical attributes of wheat grown under saline conditions. Journal of plant Nutrition, 36: 443-458.

Brhane, H., T. Mamo and K. Teka. 2017. Potassium fertilization & its effect on wheat (Triticum aestivum) yield in shallow depth soils of northern Ethiopian Journal of Fertilizer & Pesticides, 8: 2-14.

Cui, M.H., X.Y. Chen, F.X. Yin, G.M. Xia, Y. Yi, Y.B. Zhang and F. Li. 2022. Hybridization affects the structure and function of root microbiome by altering gene expression in roots of wheat introgression line under saline-alkali stress. Science of The Total Environment, 835, 155467.

GoP Economic Survey, 2016-2017. Ministry of Finance Government of Pakistan, Islamabad.

Hossain, A. A. Jaime,T. D. Silva, and M. Bodruzzaman. 2015. Rate and application methods of potassium in light soil for irrigated spring wheat. Journal of Science & Technology 37 (6): 635-642.

Hussain S, M.A.A. Shah, A.M. Khan, F. Ahmad and M. Hussain. 2020. Potassium Enhanced Grain Zinc Accumulation in Wheat Grown on A Calcareous Saline-Sodic Soil Pakistan Journal of Botany, 52(1): 69-74, 2020.

Kandhro, M.N., B.A. Silachi, S.M. Bhatti, N.N. Memon and A.W. Baloch. 2016. Impact of potassium on growth and yield of barley under water deficit conditions. Pakistan Journal of Agriculture Engineering and Veterinary Sciences, 32 (1): 37-45.

Khaliq, A., M. Zia-ul-Haq, F. Al, F. Aslam, A. Matloob, A. Navab and S. Hussain. 2015. Salinity tolerance in wheat cultivars is related to enhanced activities of enzymatic antioxidants and reduced lipid peroxidation. Clean Soil Air Water 43:1248–1258.

Khan, A. and M. Aziz. 2013. Influence of foliar application of potassium on wheat (Triticum aestivum L.) under saline conditions. Science Technology Division, 32 (4): 285-289.

Kumar, M., A. Sarangi, D.K. Singh, A.R. Rao and S. Sudhishri. 2016. Response of wheat cultivars to foliar potassium fertilization under irrigated saline environment. Journal of Applied and Natural Science, 8 (1): 429-436.

Kubar, G.M., K.H. Talpur, M.N. Kandhro and A.A. Kubar. 2019. Effect of potassium (K+) on growth, yield components and macronutrient accumulation in Wheat crop. Pure and Applied Biology, 8(1): 248-255.

Malek, M.M., A. Maleki, S.A. Siaddat and M. Beigzade. 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: 1164.

Maurya, P., V. Kumar, K.K. Maurya, N. Kumawat, R. Kumar and M.P. Yadav. 2014. Effect of potassium application on growth and yield of wheat varieties. The Biological Scane, 9(4): 1371-1373.

Patil, R.B. 2011. Role of potassium humate on growth and yield of soybean and black gram. International Journal of Pharmacology and Biological Science, 2 (1) 242-246.

Rady, M.M. and G.F. Mohamed. 2018. Improving salt tolerance in Triticum aestivum (L.) plants irrigated with saline water by exogenously applied proline or potassium. Advance Plants Agriculture Research, 8 (2): 193-199.

Rahman, A.M., M.M. Rahman, M.M. Hasan, F. Begum and M.A.Z. Sarker. 2014. Effects of foliar application of potassium orthophosphate on grain yield and quality of wheat under terminal heat stress. Bangladesh Journal Agriculture Research, 39 (1): 67-77.

Rasool, R., S.S. Kukal and G.S. Hira. 2008. Soil organic carbon and physical properties as affected by long-term application of FYM and inorganic fertilizers in maize-wheat system. Soil and Tillage Research, 101: 31-36.

Safaa, R., L. El, T. Magdi, H. Abde and R. Fatma. 2013. Effect of Potassium Application on Wheat (Triticum aestivumL.) Cultivars grown under salinity stress. World Application of Science, 26 (7): 840-850, 2013.

EL Sabagh, A., M.S. Islam, M. Skalicky, M.A. Raza, K. Singh, M.A. Hossain and A. Arshad. 2021. Salinity stress in wheat (Triticum aestivum L.) in the changing climate: adaptation and management strategies. Frontiers in Agronomy, 43.

Sial, N.A., S.A. Abro, M. Abbas, M. Irfan and N. Depar. 2018. Growth and yield of wheat as affected by phosphate solubilizing bacteria and phosphate fertilizer. Pakistan Journal of Biotechnology, 15(2): 475-479.

Taher, F.M. and H.H. AL-Naser. 2021. The Effect of different Levels of Potassium on the Productivity of Genotypes of Wheat Triticum Aestivum L. Earth and Environmental Science, 923 (2021) 012061.




DOI: https://doi.org/10.33687/jpe.004.01.4184

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Journal of Plant and Environment
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