The Effects of Zinc Application on Physiology And Production of Corn Plants

The Effects of Zinc Application on Physiology And Production of Corn Plants

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internalnotes Auld, D.S., 2001. Zinc coordination sphere in biochemical zinc sites. Biometals., 14: 271-313. Cakmak, I., and C. Engels, 1999. Role of Mineral Nutrients in Photosynthesis and Yield Formation. In: Rengel Z, ed. Mineral Nutrition of Crops. New York, NY, USA. Haworth Press. pp: 141-168. Chelah, M.K.B., M.N.B. Nordin, M.I. Musliania, Y.M. Khanif and M.S. Jahan, 2011. Composting Increases BRIS Soil Health and Sustains Rice Production on BRIS Soil. Science Asia, 37: 291-295. Hafeez, B., Y.M. Khanif and M. Saleem, 2013. Role of Zinc in Plant Nutrition. American Journal of Experimental Agriculture, 3(2): 374-391. Jahan, M.S., Y.M. Khanif and U.R. Sinniah, 2013a. Effects of low water input on rice yield: Fe and Mn bioavailability in soil. The Pertanika Journal of Tropical Agricultural Science, 36: 27-34. Jahan, M.S., Y.M. Khanif, U.R. Sinniah, M.B.N. Nozulaidi and M.B.C.L. Khairi, 2012. Bioavailability of soil nitrogen in low water input rice production. Journal of Sustainability Science and Management, 7: 207-212. Jahan, M.S., I. Muslianie and M.M. Khandaker, 2014a. Effects of Soil Amendments on BRIS Soil Health, Crop Physiology and Production. International Journal of Research and Innovations in Earth Science. 1: 1-4. Jahan, M.S., M.N.B. Nordin, M.K.B. CheLah and Y.M. Khanif, 2013b. Effects of water stress on rice production: bioavailability of potassium in soil. Journal of Stress Physiology and Biochemistry, 9: 97-107. Jahan, M.S., M. Nozulaidi, M.M. Khandaker, A. Ainun and H. Nurul, 2014b.Control of plant growth and water loss by a lack of light-harvesting complexes in photosystem-II in Arabidopsis thaliana ch1-1 mutant. Acta Physiologiae Plantarum, 36(7): 1627-1635. Marschner, H., 1995.Mineral Nutrition of Higher Plants, 2nd edn.London,UK: Academic Press. Monnet, F., N. Vaillant, P. Vernay, A. Coudret, H. Sallanon and A. Hitmi, 2001. Relationship between PSII activity, CO2 fixation, and Zn, Mn and Mg contents of Loliumperenne under zinc stress. Journal of Plant Physiology,158(9):1137–1144. Nozulaidi, N., M.S. Jahan, M. Khairi, M.M. Khandaker, M. Nashriyah and Y.M. Khanif, 2015. N-acetylcysteine increased rice yield. Turkish J of Agriculture and Forestry.DOI: 10.3906/tar-1402-48. Pearson, J.N., Z. Rengel, C.F. Jenner and R.D. Graham, 1995. Transport of zinc and manganese to developing wheat grains. Physiologia Plantarum, 95: 449-455. Reilly, C., 1980. Metal Contamination of Food, 1st Ed. Chapter 5 and 6. Applied Science Publishers London. Rengel, Z., 2001. Genotypic differences in micronutrient use efficiency in crops. Communications in Soil Science and Plant Analysis, 32: 1163-1186. Riesen, O. and U. Feller, 2005.Redistribution of nickel, cobalt, manganese, zinc, and cadmium via the phloem in young and maturing wheat. Journal of Plant Nutrition, 28: 421-430. Ritchie, S.W., J.J. Hanway and G.O. Benson, 1993. How a Corn Plant Develops (SP-48).Iowa State Univ. Sarwar, M.J., Y.M. Khanif, S.R. Syed Omar and U.R. Sinniah, 2004. The effect of different water regimes on yield and bioavailability of phosphorus in rice production in Malaysia. Malaysian Journal of Soil Science, 8: 53-62. Sarwar, M.J., and Y.M. Khanif, 2005a. The Effect of Different Water Levels on Rice Yield and Cu and Zn Concentration. Journal of Agronomy, 4: 116-121. Sarwar, M.J., and Y.M. Khanif, 2005b. Techniques of water saving in rice production in Malaysia. Asian Journal of Plant Science, 4: 83-84. Sarwar, M.J., and Y.M. Khanif, 2005c. Low water rice production and its effect on redox potential and soil pH. Journal of Agronomy, 4: 142- 146. Sharma, P., N. Kumar and S. Bisht, 1994.Effect of Zinc Deficiency on Chlorophyll Content, Photosynthesis and Water Relations of Cauliflower Plants. Photosynthetica Journal, 30: 353-359. Syuhada, N., M.S. Jahan, M.M. Khandaker, N. Mat, M. Khairi, M. Nozulaidi and M.H.B. Razali, 2014. Application of Copper Increased Corn Yield Through Enhancing Physiological Functions. Australian Journal of Basic & Applied Science, 8(16): 282-286. Underwood, E.J., 1997.Trace Element in Human and Animals Nutrition.4th edition, Academic Press Inc. New York. Varsa, E.C., J.D. Hernandez, S.A. Ebelhar and T.D. Wyciskalla, 2005. Corn Response To Zinc Using Zinc Fertilizer Sources With Improved Utilization Potential. Illinois Fertilizer Conference Proceedings. January 24-26. http://frec.ifca.com/2005/report10/. Accessed on 18 Dec 2014. Weckx, J.E.J., and H.M.M. Clijsters, 1997. Zn Phytotoxicity Induces Oxidative Stress in Primary Leaves of Phaseolus Vulgaris. Plant Physiol. Biochemistry Journal, 35: 405-410.
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spelling 15204 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=15204 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal application/pdf 7 Adobe Acrobat Pro DC 20 Paper Capture Plug-in with ClearScan 1.6 User user USER UsEr 2024-08-30 10:22:50 5832-01-FH02-FBIM-15-02627.pdf UniSZA Private Access The Effects of Zinc Application on Physiology And Production of Corn Plants Australian Journal of Basic and Applied Sciences Zn is essential for plant growth and physiological processes, but they become toxic at elevated levels. In this study, effects of zinc (Zn) on corn plants were studied. Different Zn concentrations(0, 0.2, 1.5 and 3 ppm) were externally applied on plant leaves. Plants’ height and leaf numbers were not affected by the application of different Zn applications. Relative water content (RWC) increased gradually with increasing Zn concentration followed by decreased at higher level of Zn application. The net photosynthesis rate (Pn) showed similar to RWC results. Chlorophyll (Chl) content increased in Zn-treated plants than Zn-untreated plants but Chl fluorescence increased only at higher Zn concentration condition. Zn application increased yield compared than control but did not differentiate among Zn treatments. Taken together, it seems that Zn at 1.5 ppm as foliar application showed better result in terms of production and physiology of corn plants. 9 5 161-165 Auld, D.S., 2001. Zinc coordination sphere in biochemical zinc sites. Biometals., 14: 271-313. Cakmak, I., and C. Engels, 1999. Role of Mineral Nutrients in Photosynthesis and Yield Formation. In: Rengel Z, ed. Mineral Nutrition of Crops. New York, NY, USA. Haworth Press. pp: 141-168. Chelah, M.K.B., M.N.B. Nordin, M.I. Musliania, Y.M. Khanif and M.S. Jahan, 2011. Composting Increases BRIS Soil Health and Sustains Rice Production on BRIS Soil. Science Asia, 37: 291-295. Hafeez, B., Y.M. Khanif and M. Saleem, 2013. Role of Zinc in Plant Nutrition. American Journal of Experimental Agriculture, 3(2): 374-391. Jahan, M.S., Y.M. Khanif and U.R. Sinniah, 2013a. Effects of low water input on rice yield: Fe and Mn bioavailability in soil. The Pertanika Journal of Tropical Agricultural Science, 36: 27-34. Jahan, M.S., Y.M. Khanif, U.R. Sinniah, M.B.N. Nozulaidi and M.B.C.L. Khairi, 2012. Bioavailability of soil nitrogen in low water input rice production. Journal of Sustainability Science and Management, 7: 207-212. Jahan, M.S., I. Muslianie and M.M. Khandaker, 2014a. Effects of Soil Amendments on BRIS Soil Health, Crop Physiology and Production. International Journal of Research and Innovations in Earth Science. 1: 1-4. Jahan, M.S., M.N.B. Nordin, M.K.B. CheLah and Y.M. Khanif, 2013b. Effects of water stress on rice production: bioavailability of potassium in soil. Journal of Stress Physiology and Biochemistry, 9: 97-107. Jahan, M.S., M. Nozulaidi, M.M. Khandaker, A. Ainun and H. Nurul, 2014b.Control of plant growth and water loss by a lack of light-harvesting complexes in photosystem-II in Arabidopsis thaliana ch1-1 mutant. Acta Physiologiae Plantarum, 36(7): 1627-1635. Marschner, H., 1995.Mineral Nutrition of Higher Plants, 2nd edn.London,UK: Academic Press. Monnet, F., N. Vaillant, P. Vernay, A. Coudret, H. Sallanon and A. Hitmi, 2001. Relationship between PSII activity, CO2 fixation, and Zn, Mn and Mg contents of Loliumperenne under zinc stress. Journal of Plant Physiology,158(9):1137–1144. Nozulaidi, N., M.S. Jahan, M. Khairi, M.M. Khandaker, M. Nashriyah and Y.M. Khanif, 2015. N-acetylcysteine increased rice yield. Turkish J of Agriculture and Forestry.DOI: 10.3906/tar-1402-48. Pearson, J.N., Z. Rengel, C.F. Jenner and R.D. Graham, 1995. Transport of zinc and manganese to developing wheat grains. Physiologia Plantarum, 95: 449-455. Reilly, C., 1980. Metal Contamination of Food, 1st Ed. Chapter 5 and 6. Applied Science Publishers London. Rengel, Z., 2001. Genotypic differences in micronutrient use efficiency in crops. Communications in Soil Science and Plant Analysis, 32: 1163-1186. Riesen, O. and U. Feller, 2005.Redistribution of nickel, cobalt, manganese, zinc, and cadmium via the phloem in young and maturing wheat. Journal of Plant Nutrition, 28: 421-430. Ritchie, S.W., J.J. Hanway and G.O. Benson, 1993. How a Corn Plant Develops (SP-48).Iowa State Univ. Sarwar, M.J., Y.M. Khanif, S.R. Syed Omar and U.R. Sinniah, 2004. The effect of different water regimes on yield and bioavailability of phosphorus in rice production in Malaysia. Malaysian Journal of Soil Science, 8: 53-62. Sarwar, M.J., and Y.M. Khanif, 2005a. The Effect of Different Water Levels on Rice Yield and Cu and Zn Concentration. Journal of Agronomy, 4: 116-121. Sarwar, M.J., and Y.M. Khanif, 2005b. Techniques of water saving in rice production in Malaysia. Asian Journal of Plant Science, 4: 83-84. Sarwar, M.J., and Y.M. Khanif, 2005c. Low water rice production and its effect on redox potential and soil pH. Journal of Agronomy, 4: 142- 146. Sharma, P., N. Kumar and S. Bisht, 1994.Effect of Zinc Deficiency on Chlorophyll Content, Photosynthesis and Water Relations of Cauliflower Plants. Photosynthetica Journal, 30: 353-359. Syuhada, N., M.S. Jahan, M.M. Khandaker, N. Mat, M. Khairi, M. Nozulaidi and M.H.B. Razali, 2014. Application of Copper Increased Corn Yield Through Enhancing Physiological Functions. Australian Journal of Basic & Applied Science, 8(16): 282-286. Underwood, E.J., 1997.Trace Element in Human and Animals Nutrition.4th edition, Academic Press Inc. New York. Varsa, E.C., J.D. Hernandez, S.A. Ebelhar and T.D. Wyciskalla, 2005. Corn Response To Zinc Using Zinc Fertilizer Sources With Improved Utilization Potential. Illinois Fertilizer Conference Proceedings. January 24-26. http://frec.ifca.com/2005/report10/. Accessed on 18 Dec 2014. Weckx, J.E.J., and H.M.M. Clijsters, 1997. Zn Phytotoxicity Induces Oxidative Stress in Primary Leaves of Phaseolus Vulgaris. Plant Physiol. Biochemistry Journal, 35: 405-410.
spellingShingle The Effects of Zinc Application on Physiology And Production of Corn Plants
summary Zn is essential for plant growth and physiological processes, but they become toxic at elevated levels. In this study, effects of zinc (Zn) on corn plants were studied. Different Zn concentrations(0, 0.2, 1.5 and 3 ppm) were externally applied on plant leaves. Plants’ height and leaf numbers were not affected by the application of different Zn applications. Relative water content (RWC) increased gradually with increasing Zn concentration followed by decreased at higher level of Zn application. The net photosynthesis rate (Pn) showed similar to RWC results. Chlorophyll (Chl) content increased in Zn-treated plants than Zn-untreated plants but Chl fluorescence increased only at higher Zn concentration condition. Zn application increased yield compared than control but did not differentiate among Zn treatments. Taken together, it seems that Zn at 1.5 ppm as foliar application showed better result in terms of production and physiology of corn plants.
title The Effects of Zinc Application on Physiology And Production of Corn Plants
title_full The Effects of Zinc Application on Physiology And Production of Corn Plants
title_fullStr The Effects of Zinc Application on Physiology And Production of Corn Plants
title_full_unstemmed The Effects of Zinc Application on Physiology And Production of Corn Plants
title_short The Effects of Zinc Application on Physiology And Production of Corn Plants
title_sort effects of zinc application on physiology and production of corn plants

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