Research Article
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Year 2016, , 36 - 43, 01.06.2016
https://doi.org/10.17557/tjfc.66054

Abstract

References

  • Abdi, M., G. Nour-Mohamedi and Golchin, A. 2002. The influence of foliar nutrition of urea and potassium chloride on grain yield, grain protein contents, yield components and leaf relative water content of Sardari wheat under rainfed conditions. J. Agric. Sci., 8(1): 29-38.
  • Akram, M., M.Y. Ashraf, R. Ahmad, M. Rafiq, I. Ahmad and J. Iqbal. 2010. Allometry and yield components of maize (Zea mays L.) hybrids to various potassium levels under saline conditions. Archives of Biol. Sci., 62(4): 1053-1061.
  • Aladakatti, Y.R., S.S. Hallikeri, R.A. Nandagavi, N.E. Naveen, A.Y. Hugar and D. Blaise. 2011. Yield and fiber qualities of hybrid cotton (Gossypium hirsutum L.) as influenced by soil and foliar application of potassium. Karnataka J. Agric. Sci., 24(2): 133-136.
  • Ali, A., I.A. Mahmood, F. Hussain and M. Salim. 2007. Response of rice to soil and foliar application of K2SO4 fertilizer. Sarhad J. Agric., 23(4): 847-850.
  • Ali, A., M. Salim, M.S. Zia, I.A. Mahmood and A. Shahzad. 2005b. Performance of rice as affected by foliar application of different K fertilizer sources. Pak. J. Agric. Sci., 42(1-2): 38-41.
  • Amal, G.A., M.M. Tawfik and M.S. Hassanein. 2011. Foliar feeding of potassium and urea for maximizing wheat productivity in sandy soil. Aust. J. Basic & Applied Sci., 5(5): 1197-1203.
  • Anonymous. 2006. Agricultural Statistics of Pakistan. Government of Pakistan, Islamabad.
  • Bukhsh, M.A.A.H.A., M. Usman, E. Ullah and E. A. Warriach. 2003. Effect of different phosphorus levels on the growth and yield of two cultivars of maize (Zea mays L.). Int. J. Agric. Biol., 5: 632-634.
  • Chaudhary, A.R. 1993. Maize in Pakistan. Punjab Agricuture Research Cordination Board, University of Agriculture, Faisalabad, Pakistan.
  • Damon, P.M. and Z. Rengel. 2008. Crops and genotypes differ in efficiency of potassium uptake and use. Physiologia Plantarum, 133(4): 624-36.
  • Eichert, T. and J. Burkhardt. 2001. Quantification of stomatal uptake of ionic solutes using a new model system. J. Exp. Bot., 52: 771–781.
  • Farooqi, M.Q.U., R. Ahmad, E.A. Wariach and M. Arfan. 2012. Effect of supplemental foliar applied potassium on yield and grain quality of autumn planted maize (Zea mays L.) under water stress. J. Food, Agric. Vet. Sci., 2(3): 8-12.
  • Grzebisz, W., A. Baer, P. Baróg, W. Szczepaniak and J. Potarzycki. 2001-2003. Effect of nitrogen and potassium fertilizing systems on maize grain yield. University of Life Sciences, Poznan, Poland, pp: 45- 46.
  • Hasina, G., A. Said, B. Saeed and K. Ahmad. 2011. Response of yield and yield components of wheat towards foliar spray of nitrogen, potassium and zinc. Asian Res. Pub. Net., 6(2): 23-2.
  • Hunt, R., D. R. Causton, B. Shipley and A. P. Askew. 2002. “A modern tool for classical plant growth analysis,” Annals of Botany, 90(4): 485–488.
  • Hurburgh, C.R.J. 1989. The value of quality to new and existing corn users. American Society of Agric., Eng. paper 89-6016. The Society: St. Joseph, MI.
  • Hussein, S.M.A. 2005. Effect of supplemental irrigation, seeding rate and foliar of potassium, macro and microelements on wheat activity under the rainfed conditions. Bulletin of Faculty of Agriculture, Cairo University, Egypt, 56(3): 431-453.
  • Ihsan, M.Z., N. Shahza, S. Kanwal, M. Naeem, A. Khaliq, F.S. El-Nakhlawy and A. Matloob. 2013. Potassium as foliar supplementation mitigates moisture induced stresses in mung bean (Vigna radiata L.) as revealed by growth, photosynthesis, gas exchange capacity and zinc analysis of shoot. Inter. J. Agro. Plant Prod., 4(5): 3828-3835.
  • John, L.J. and G.E. Lester. 2011. Effect of foliar potassium fertilization and source on cantaloupe yield and quality. Better Crops, 95(1): 13-15.
  • Juliano, B.O. 1991. A simplified assay for maize analysis. Cereal Sci. Today, 16(2): 334-340.
  • Abdul, W.K., R.A. Mann, M. Saleem and A. Majeed. 2012. Comparative rice yield and economic advantage of foliar KNO3 over soil applied K2SO4. Pak. J. Agri. Sci., 49(4): 481-484.
  • Malik, D. M., R.A. Chaudhry and G. Hussan. 1989. Crop response to potash application in the Punjab. In: Role of Potassium in improving fertilizer use efficiency. Proceedings of the Workshop on the Role of Potassium in improving fertilizer use efficiency, held in Islamabad, 21-22 March 1987. National Fertilizer Development Center, Planning and Development Division; pp.187-190.
  • Mangel, K. and E.A. Kirkby. 1987. Principles of plant nutrition. Inst. Potash Bern, Switzerland, pp: 5-100.
  • Mesbah, E.A.E. 2009. Effect of irrigation regimes and foliar spraying of potassium on yield, yield components and water use efficiency of wheat (Triticum aestivum L.) in sandy soils. World J. Agric. Sci., 5(6): 662-669.
  • Minjian, C., Y. Haiqui, Y. Hongkui and J. Chungi. 2007. Difference in tolerance to potassium deficiency between maize inbred lines. Plant Prod. Sci., 10(1): 42-45.
  • Montgomery, D.C. 2001. Design and Analysis of Experiments. 5th ed., Wiley, New York. NFDC. 2005. In: Fertilizer Use Related Statistics. National Fertilizer Development Centre, Planning Division, Government of Pakistan, Islamabad.
  • Ranjha, A. M., A. Jabbar and R.H. Qureshi. 1990. Effect of amount and type of clay minerals on potassium fixation in some alluvial soils of Pakistan. Pak. J. Agri. Sci., 27(3): 187-192.
  • Sharma, S., E. Duveiller, R. Basnet, C.B. Karki and R.C. Sharma. 2005. Effect of potash fertilization on Helminthosporium leaf blight severity in wheat, and associated increases in grain yield and kernel weight. Field Crops Research, 93(1): 142-150.
  • Tabatabaii, E.S., M. Yarnia, K. Benam and Tabrizi, F.M. 2011. Effect of potassium fertilizer on corn yield (Jet acv.) under drought stress condition. AmericanEurasian J. Agric. Environ. Sci., 10(2): 257-263.
  • Tabri, F. and M. Akil. 2010. Effect of Potassium on the Growth, Production and Quality of F1 hybrid Maize. Indonesian Cereals Research Institute. In: Proceedings of International Maize Conference, pp: 261-263.
  • Thalooth, A.T., M.M. Tawfik and H.M. Mohamed. 2006. A comparative study on the effect of foliar application of zinc, potassium and magnesium on growth, yield and some chemical constituents of mungbean plants grown under water stress conditions. World J. Agric. Sci., 2(1): 37-46.
  • William, T.P. 2008. Potassium influences on yield and quality production for maize. Physio. Plantarum, 133: 670–681.
  • Witt, C. and J.M.C.A. Pasuquin. 2007. Maize in Asia and global demand II. International Fertilizer Correspondent, 14: (5-6).
  • Zareian, A., H.H.S. Abad, A. Hamidi, G.N. Mohammadi and S.A. Tabatabaei. 2013. Effect of drought stress and potassium foliar application on some physiological indices of three wheat (Triticum aestivum L.) cultivars. Annals of Biological Research, 4(5): 71-74.

FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS

Year 2016, , 36 - 43, 01.06.2016
https://doi.org/10.17557/tjfc.66054

Abstract

This field experiment was performed to evaluate the efficiency of potassium (K) foliar spray against soil
application on hybrid maize. Treatments were: control, soil applied 75 kg K2O ha-1
, foliar spray 1% K2O,
foliar spray 2% K2O, foliar spray 3% K2O, fertigation 75 kg K2O ha-1
, and split application in soil 75 kg K2O
ha-1
. Potassium foliar sprays increased yield and its components as well as grain quality attributes greater than
that with soil application, splitting or fertigation. The highest biological and grain yield were 15.0 and 8.08 t
ha-1
, respectively under foliar treatment of 3% K2O, followed by 2% K2O foliar spray. Greater net benefit and
benefit cost ratio were with foliar application. Foliar spray of potassium 3% concentration was more efficient
for increasing growth and yield of maize crop as compared to soil application and fertilization of potassium
fertilizer.

References

  • Abdi, M., G. Nour-Mohamedi and Golchin, A. 2002. The influence of foliar nutrition of urea and potassium chloride on grain yield, grain protein contents, yield components and leaf relative water content of Sardari wheat under rainfed conditions. J. Agric. Sci., 8(1): 29-38.
  • Akram, M., M.Y. Ashraf, R. Ahmad, M. Rafiq, I. Ahmad and J. Iqbal. 2010. Allometry and yield components of maize (Zea mays L.) hybrids to various potassium levels under saline conditions. Archives of Biol. Sci., 62(4): 1053-1061.
  • Aladakatti, Y.R., S.S. Hallikeri, R.A. Nandagavi, N.E. Naveen, A.Y. Hugar and D. Blaise. 2011. Yield and fiber qualities of hybrid cotton (Gossypium hirsutum L.) as influenced by soil and foliar application of potassium. Karnataka J. Agric. Sci., 24(2): 133-136.
  • Ali, A., I.A. Mahmood, F. Hussain and M. Salim. 2007. Response of rice to soil and foliar application of K2SO4 fertilizer. Sarhad J. Agric., 23(4): 847-850.
  • Ali, A., M. Salim, M.S. Zia, I.A. Mahmood and A. Shahzad. 2005b. Performance of rice as affected by foliar application of different K fertilizer sources. Pak. J. Agric. Sci., 42(1-2): 38-41.
  • Amal, G.A., M.M. Tawfik and M.S. Hassanein. 2011. Foliar feeding of potassium and urea for maximizing wheat productivity in sandy soil. Aust. J. Basic & Applied Sci., 5(5): 1197-1203.
  • Anonymous. 2006. Agricultural Statistics of Pakistan. Government of Pakistan, Islamabad.
  • Bukhsh, M.A.A.H.A., M. Usman, E. Ullah and E. A. Warriach. 2003. Effect of different phosphorus levels on the growth and yield of two cultivars of maize (Zea mays L.). Int. J. Agric. Biol., 5: 632-634.
  • Chaudhary, A.R. 1993. Maize in Pakistan. Punjab Agricuture Research Cordination Board, University of Agriculture, Faisalabad, Pakistan.
  • Damon, P.M. and Z. Rengel. 2008. Crops and genotypes differ in efficiency of potassium uptake and use. Physiologia Plantarum, 133(4): 624-36.
  • Eichert, T. and J. Burkhardt. 2001. Quantification of stomatal uptake of ionic solutes using a new model system. J. Exp. Bot., 52: 771–781.
  • Farooqi, M.Q.U., R. Ahmad, E.A. Wariach and M. Arfan. 2012. Effect of supplemental foliar applied potassium on yield and grain quality of autumn planted maize (Zea mays L.) under water stress. J. Food, Agric. Vet. Sci., 2(3): 8-12.
  • Grzebisz, W., A. Baer, P. Baróg, W. Szczepaniak and J. Potarzycki. 2001-2003. Effect of nitrogen and potassium fertilizing systems on maize grain yield. University of Life Sciences, Poznan, Poland, pp: 45- 46.
  • Hasina, G., A. Said, B. Saeed and K. Ahmad. 2011. Response of yield and yield components of wheat towards foliar spray of nitrogen, potassium and zinc. Asian Res. Pub. Net., 6(2): 23-2.
  • Hunt, R., D. R. Causton, B. Shipley and A. P. Askew. 2002. “A modern tool for classical plant growth analysis,” Annals of Botany, 90(4): 485–488.
  • Hurburgh, C.R.J. 1989. The value of quality to new and existing corn users. American Society of Agric., Eng. paper 89-6016. The Society: St. Joseph, MI.
  • Hussein, S.M.A. 2005. Effect of supplemental irrigation, seeding rate and foliar of potassium, macro and microelements on wheat activity under the rainfed conditions. Bulletin of Faculty of Agriculture, Cairo University, Egypt, 56(3): 431-453.
  • Ihsan, M.Z., N. Shahza, S. Kanwal, M. Naeem, A. Khaliq, F.S. El-Nakhlawy and A. Matloob. 2013. Potassium as foliar supplementation mitigates moisture induced stresses in mung bean (Vigna radiata L.) as revealed by growth, photosynthesis, gas exchange capacity and zinc analysis of shoot. Inter. J. Agro. Plant Prod., 4(5): 3828-3835.
  • John, L.J. and G.E. Lester. 2011. Effect of foliar potassium fertilization and source on cantaloupe yield and quality. Better Crops, 95(1): 13-15.
  • Juliano, B.O. 1991. A simplified assay for maize analysis. Cereal Sci. Today, 16(2): 334-340.
  • Abdul, W.K., R.A. Mann, M. Saleem and A. Majeed. 2012. Comparative rice yield and economic advantage of foliar KNO3 over soil applied K2SO4. Pak. J. Agri. Sci., 49(4): 481-484.
  • Malik, D. M., R.A. Chaudhry and G. Hussan. 1989. Crop response to potash application in the Punjab. In: Role of Potassium in improving fertilizer use efficiency. Proceedings of the Workshop on the Role of Potassium in improving fertilizer use efficiency, held in Islamabad, 21-22 March 1987. National Fertilizer Development Center, Planning and Development Division; pp.187-190.
  • Mangel, K. and E.A. Kirkby. 1987. Principles of plant nutrition. Inst. Potash Bern, Switzerland, pp: 5-100.
  • Mesbah, E.A.E. 2009. Effect of irrigation regimes and foliar spraying of potassium on yield, yield components and water use efficiency of wheat (Triticum aestivum L.) in sandy soils. World J. Agric. Sci., 5(6): 662-669.
  • Minjian, C., Y. Haiqui, Y. Hongkui and J. Chungi. 2007. Difference in tolerance to potassium deficiency between maize inbred lines. Plant Prod. Sci., 10(1): 42-45.
  • Montgomery, D.C. 2001. Design and Analysis of Experiments. 5th ed., Wiley, New York. NFDC. 2005. In: Fertilizer Use Related Statistics. National Fertilizer Development Centre, Planning Division, Government of Pakistan, Islamabad.
  • Ranjha, A. M., A. Jabbar and R.H. Qureshi. 1990. Effect of amount and type of clay minerals on potassium fixation in some alluvial soils of Pakistan. Pak. J. Agri. Sci., 27(3): 187-192.
  • Sharma, S., E. Duveiller, R. Basnet, C.B. Karki and R.C. Sharma. 2005. Effect of potash fertilization on Helminthosporium leaf blight severity in wheat, and associated increases in grain yield and kernel weight. Field Crops Research, 93(1): 142-150.
  • Tabatabaii, E.S., M. Yarnia, K. Benam and Tabrizi, F.M. 2011. Effect of potassium fertilizer on corn yield (Jet acv.) under drought stress condition. AmericanEurasian J. Agric. Environ. Sci., 10(2): 257-263.
  • Tabri, F. and M. Akil. 2010. Effect of Potassium on the Growth, Production and Quality of F1 hybrid Maize. Indonesian Cereals Research Institute. In: Proceedings of International Maize Conference, pp: 261-263.
  • Thalooth, A.T., M.M. Tawfik and H.M. Mohamed. 2006. A comparative study on the effect of foliar application of zinc, potassium and magnesium on growth, yield and some chemical constituents of mungbean plants grown under water stress conditions. World J. Agric. Sci., 2(1): 37-46.
  • William, T.P. 2008. Potassium influences on yield and quality production for maize. Physio. Plantarum, 133: 670–681.
  • Witt, C. and J.M.C.A. Pasuquin. 2007. Maize in Asia and global demand II. International Fertilizer Correspondent, 14: (5-6).
  • Zareian, A., H.H.S. Abad, A. Hamidi, G.N. Mohammadi and S.A. Tabatabaei. 2013. Effect of drought stress and potassium foliar application on some physiological indices of three wheat (Triticum aestivum L.) cultivars. Annals of Biological Research, 4(5): 71-74.
There are 34 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Abid Alı This is me

Mozammil Hussaın This is me

Hafiz Saqib Habıb This is me

Touseef Taj Kıanı This is me

Muhammad Abbas Anees This is me

Muhammad Abdul Rahman This is me

Publication Date June 1, 2016
Published in Issue Year 2016

Cite

APA Alı, A., Hussaın, M., Habıb, H. S., Kıanı, T. T., et al. (2016). FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS. Turkish Journal Of Field Crops, 21(1), 36-43. https://doi.org/10.17557/tjfc.66054
AMA Alı A, Hussaın M, Habıb HS, Kıanı TT, Anees MA, Rahman MA. FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS. TJFC. June 2016;21(1):36-43. doi:10.17557/tjfc.66054
Chicago Alı, Abid, Mozammil Hussaın, Hafiz Saqib Habıb, Touseef Taj Kıanı, Muhammad Abbas Anees, and Muhammad Abdul Rahman. “FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS”. Turkish Journal Of Field Crops 21, no. 1 (June 2016): 36-43. https://doi.org/10.17557/tjfc.66054.
EndNote Alı A, Hussaın M, Habıb HS, Kıanı TT, Anees MA, Rahman MA (June 1, 2016) FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS. Turkish Journal Of Field Crops 21 1 36–43.
IEEE A. Alı, M. Hussaın, H. S. Habıb, T. T. Kıanı, M. A. Anees, and M. A. Rahman, “FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS”, TJFC, vol. 21, no. 1, pp. 36–43, 2016, doi: 10.17557/tjfc.66054.
ISNAD Alı, Abid et al. “FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS”. Turkish Journal Of Field Crops 21/1 (June 2016), 36-43. https://doi.org/10.17557/tjfc.66054.
JAMA Alı A, Hussaın M, Habıb HS, Kıanı TT, Anees MA, Rahman MA. FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS. TJFC. 2016;21:36–43.
MLA Alı, Abid et al. “FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS”. Turkish Journal Of Field Crops, vol. 21, no. 1, 2016, pp. 36-43, doi:10.17557/tjfc.66054.
Vancouver Alı A, Hussaın M, Habıb HS, Kıanı TT, Anees MA, Rahman MA. FOLIAR SPRAY SURPASSES SOIL APPLICATION OF POTASSIUM FOR MAIZE PRODUCTION UNDER RAINFED CONDITIONS. TJFC. 2016;21(1):36-43.

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