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EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING

Year 2022, Volume: 27 Issue: 2, 276 - 284, 23.12.2022
https://doi.org/10.17557/tjfc.1108917

Abstract

The biochemical traits of different maize varieties under leaf and cob defoliation conditions were investigated in a factorial experiment, a randomized complete block design with three replications during two crop years of 2017-18 and 2018-19. Treatments consisted of removing leaves and a part of the cob at three levels of control, removing half of the cob after pollination, and removing two upper and lower leaves of the cob after pollination as the first factor. The second factor comprised seven maize varieties including SC704, Kansor, Kordona, Karaj 703, Koosha, Fajr, and Danial 690. After preparing the substrate in the first and second years, seeds of different varieties were planted in the plots based on the treatments. Leaf and cob defoliation treatments were applied after pollination. The results showed that the highest contents of chlorophyll a (98.46 mg/g fresh weight, FW), chlorophyll b (138.7 mg/g FW), carotenoids (74.33 mg/g FW), and anthocyanin (1.915 mg/g FW) were obtained in the SC704 variety under combined treatment of defoliating two upper and lower leaves of the cob. The highest amount of catalase (58.73 mg protein/min) was recorded in Fajr variety in the control, but peroxidase (173.4 mg protein/min) and polyphenol oxidase (64.7 mg protein/min) activities were uppermost in the Koosha variety of the control treatment.

Supporting Institution

Department of agronomy , Faculty of agriculture,Arsanjan Branch, Islamic Azad University, Arsanjan, Iran

References

  • Amini, Z., R. Haddad and F. Moradi. 2008. Effect of water deficit on the activity of antioxidant enzymes in plant reproductive development Barley. Science and Technology of Agriculture and Natural Resources, 12: 46-58. (In Persian)
  • Azadi, A. 2019. The effects of planting date and variety on yield, yield components, and morphological and physiological traits of lentils under water deficit stress. PhD Dissertation in Agronomy. Islamic Azad University, Ahvaz branch.
  • Afsharnia, M.N., A. Asgharzad, Hajiboland, V., and Sh., Oostan. 2012. Effects of light intensity and Zn deficiency on the activity of antioxidant enzymes and photosynthesis in maize. The first national conference on agriculture in difficult environmental conditions.
  • Chance, B. and Maehly, A. 1955. Assay of catalases and peroxidases. Methods Enzymol. 2: 764-775.
  • Emam, Y. and M., Niknejad 1995. An introduction to crop yield physiology (translation). Shiraz University Press. 571 pp.
  • Jalili Marandi, R. 2010. Physiology of environmental stresses and resistance mechanisms in garden plants. University Jihad Press. Urmia Branch. First Vol. 636 pp.
  • Chaparzadeh, N. L. Rahimpoor Shafaei, M., Dolati and A. Barzegar 2013. Age-dependent pigment changes in Rosa hybrid leaves. Journal of Plant Research (Iranian Journal of Biology). 26: (2); 281-289.
  • Hatamian, M. M. Arab, and M.R., Rozian. 2014. The effect of different light intensities on photosynthetic and non-photosynthetic pigments of two rose varieties. Journal of Agricultural Breeding 16, 2, 259-270.
  • Salahi Moghaddam V. and V.H., Rahimian Mashhadi. 1993. The effect of defoliation treatments at different densities and defoliation dates on grain and forage yield in maize. Final report of a research project, Vice-Chancellor for Research, Ferdowsi University of Mashhad.
  • Abdi Rad, S., F., Rezanejad, and Kh., Manouchehri Kalantari 2011. The effect of light and darkness on callus formation of vegetative explants (leaves, petioles, and stems), flowers (petals, anthers, and pistils), and the amount of pigments (chlorophyll and anthocyanin) in Rosa damascena Mill. and Rosa miniature. Journal of Biotechnology, 3, 1, 43-65.
  • Forghani, A., N. Khodabandeh, D. Habibi, and V.A. Bankehsaz 2010. Reaction of chlorophyll a and b, proline, and the yield in maize plant (SC704) to light stress and different levels of plant density. Journal of Agricultural Breeding Research 2, 1.
  • Mac-Adam, J.W., Nelson, C.J. and Sharp, R.E. 1992. Peroxidase activity in the leaf elongation zone of tall fescue. Plant Physiol. 99: 872-878.
  • Malek Ahmadi, F., Kh.M. Kalantari, and M. Torkzadeh. Effects of flooding stress on oxidative stress induction and element concentrations in the pepper plant (Capscicum annum L.). Iranian Journal of Biology 18, 2, 111-119.
  • Alison, J. C. S. and D, J, Watson. 1996. The production and distribution of dry matter in maiz after flowering. Ann. Bot. 30: 365-381.
  • Allen, R. R. 1983. Topping corn and delaying harvest for field drying. Field Crop Abstract. 36: 467.
  • Barnett, K. H., and R, B, Pearce. 1983. Source sink ratio alteration and its effect on physiological parameters in maize. Crop Sci. 23: 294-299.
  • Beheshti, A., A, Koochaki,. and M, Nassiri Mahallati. 2002. The effect of planting pattern on light interception and radiation use efficiency in canopy of three maize cultivars. Seed and Plant. Vol. 18. No. 4: pp: 417-431(In Persian with English abstract).
  • Borras, L., and D, Otegui. 2002. Maize kernel composition and post flowering and source sink Ratio. Crop Sci. 42: 780 – 790.
  • Devlin, M.R. and F, H, Withman. 2002. Plant Physiology. CBs publishers and distributors, chapter 12, Pp. 707-710.
  • Emam, Y. 2003 .Graminea Agronomy. Shiraz Daneshgahi Press. (In Persian).
  • Emam, Y., and M, J, Seghateleslami. 2005. Crop yield. Shiraz Daneshgahi Press, 376p. (In Persian).
  • Gbadamosi, A. and M, Daniel. 2014. Effect of light intensity on growth and yield of a Nigerian local rice variety-ofada. International Journal of Plant Research, 4(4): 89-94.
  • Ghorbanli, M., Sh. Hashemi Moghaddam and A. Fallah. 2006. Study of interaction effects of irrigation and nitrogen on some morphological and physiological characteristics of rice plants (Oryza sativa L.). Journal of Agricultural Sciences Islamic Azad University, 2: 415-428. (In Farsi).
  • Goldani, M., P, Rezvani Moghaddam., M, Nassiri Mahallati., and M, Kaffi. 2010. Radiation uses the efficiency of maize (Zea mays L.) hybrids with different growth types in response to density. Journal of Iranian Field Crop Research. Vol. 7. No. 2. pp: 595-604 (In Persian with English abstract).
  • Inze, D. and M, V, Montagu. 2000. Oxidative stress in plants. Cornwall Great Britain, 321 p.
  • Maekawa, S, Terabun, M., and N, Nakamura. 1980. Effect of Ultravioletand visible light on flower pigmentation of Ehigasa roses. Japanese Society of Horticulture Science.49:251-259.
  • Merzlyak, M. and O, B, Chivkunova. 2000. Light-stress-induced pigment changes and evidence for anthocyanin photoprotection in apples. Journal of Photochemistry and Photobiology B:Biology, 55:155-163.
  • Monteith, J. L. 1972. Solar radiation and productivity in tropical ecosystems. J. Appl. Ecol. 9: 747-766.
  • Neto, A. D., Gomes., and E, Filo. 2005. Effect of salt stress on antioxidant and lipid peroxidation in leaves and roots of salt tolerance and salt sensitive maize genotype.
  • Patrocínio, A. and S, Magalhães. 2014. Photosynthetic responses of ornamental passion flower hybrids to varying light intensities. Acta Physiologiae Plantarum, 36(8): 1993-2004.
  • Resende, M.L.V., Nojosa, G.B.A., Cavalcanti, L.S., Aguilar, M.A.G., Silva, L.H.C.P., Perez, J.O., Andrade, G.C.G., Carvalho, G.A., Castro, R.M., 2002. Induction of resistance in cocoa against Crinipellis perniciosa and Verticillium dahliae by acibenzolar-S-methyl (ASM). Plant Pathology. 51, 621-628.
  • Schaller, G., and J, Kieber. 2002. Ethylene. American Society Plant Biologists. 1-17.
  • Sharma, P., and R, S, Dubey. 2005. Drought induces oxidative stress and enhances the activities of antioxidant enzymes in growing rice seedlings. Plant Growth Regulation. 46: 209-221.
  • Schneider, C. (2005) Chemistry & biology of vitamin E. Molecular Nutrition & Food Research 49:7-30. Semida, W., Taha, R., Abdelhamid, M., Rady, M. (2014) Foliar-applied α-tocopherol enhances salt-tolerance in Vicia faba L. plants grown under saline conditions. SouthAfrican Journal of Botany 95:24-31
  • Sinclair, T, R., and R, C, Muchow. 1999. Radiation uses efficiency. Advances in Agronomy. Vol. 65. pp: 215-265.
  • Stewart, D. W., Costa, C., Dwyer, L. M., Smith, R. I., Hamilton, D. L., and B, L, Ma. 2003. Canopy structure, light interception and photosynthesis in maize. Agron. J. 95: 1465-1474.
  • Takeda, T., Yokota, A., and S, Shigeoka. 1995. Resistance of photosynthesis to hydrogen peroxide in algae. Plant Cell Physiology. 36: 1089-1095.
  • Tetio Kagho, F., and F, D, Gardner. 1988. Responses of maize to plant population density: reproductive development. Yield adjustment. . Agron. J. 72: 225-226.
  • Tohidi. M. Nadery, A. Siadat, S. and S., Lak. 2012. Variable productivity of light interception in grain maize hybrids at various amounts of nitrogen. World Applied Sciences Journal. Vol. 16. pp: 86-93.
  • Tollenar, M., and J, Wu. 1994. Yield improvement in temperate maize is attributable to greater stress tolerance. Crop Sci. 39: 1597-1604.
  • Tomitaka, M. 1983. Rate and period grain filling in corn effects of detasseling and defoliation. Philippines. Press. Loop, 240: 50.
  • Valentinuz, O., and M, Tollenar. 2004. Vertical profile of leaf area and leaf senescence during the grain- filling period in maize. Crop Sci. 44: 827-834.
  • Vargas, L. A., M, N, Andersen., C, R, Jensen., and V, J, Orgenses. 2002. Estimation of leaf area index, light interception and biomass accumulation of Miscanthus sinensis ‘Goliath’ from radiation measurements. Biomass and Bioenergy, 22: 1-14.
  • Whatley, F. and F, R, Whatley. 1982. A luz e a vidadas plantas: Temas de biologia. São Paulo. 30:101p.
Year 2022, Volume: 27 Issue: 2, 276 - 284, 23.12.2022
https://doi.org/10.17557/tjfc.1108917

Abstract

References

  • Amini, Z., R. Haddad and F. Moradi. 2008. Effect of water deficit on the activity of antioxidant enzymes in plant reproductive development Barley. Science and Technology of Agriculture and Natural Resources, 12: 46-58. (In Persian)
  • Azadi, A. 2019. The effects of planting date and variety on yield, yield components, and morphological and physiological traits of lentils under water deficit stress. PhD Dissertation in Agronomy. Islamic Azad University, Ahvaz branch.
  • Afsharnia, M.N., A. Asgharzad, Hajiboland, V., and Sh., Oostan. 2012. Effects of light intensity and Zn deficiency on the activity of antioxidant enzymes and photosynthesis in maize. The first national conference on agriculture in difficult environmental conditions.
  • Chance, B. and Maehly, A. 1955. Assay of catalases and peroxidases. Methods Enzymol. 2: 764-775.
  • Emam, Y. and M., Niknejad 1995. An introduction to crop yield physiology (translation). Shiraz University Press. 571 pp.
  • Jalili Marandi, R. 2010. Physiology of environmental stresses and resistance mechanisms in garden plants. University Jihad Press. Urmia Branch. First Vol. 636 pp.
  • Chaparzadeh, N. L. Rahimpoor Shafaei, M., Dolati and A. Barzegar 2013. Age-dependent pigment changes in Rosa hybrid leaves. Journal of Plant Research (Iranian Journal of Biology). 26: (2); 281-289.
  • Hatamian, M. M. Arab, and M.R., Rozian. 2014. The effect of different light intensities on photosynthetic and non-photosynthetic pigments of two rose varieties. Journal of Agricultural Breeding 16, 2, 259-270.
  • Salahi Moghaddam V. and V.H., Rahimian Mashhadi. 1993. The effect of defoliation treatments at different densities and defoliation dates on grain and forage yield in maize. Final report of a research project, Vice-Chancellor for Research, Ferdowsi University of Mashhad.
  • Abdi Rad, S., F., Rezanejad, and Kh., Manouchehri Kalantari 2011. The effect of light and darkness on callus formation of vegetative explants (leaves, petioles, and stems), flowers (petals, anthers, and pistils), and the amount of pigments (chlorophyll and anthocyanin) in Rosa damascena Mill. and Rosa miniature. Journal of Biotechnology, 3, 1, 43-65.
  • Forghani, A., N. Khodabandeh, D. Habibi, and V.A. Bankehsaz 2010. Reaction of chlorophyll a and b, proline, and the yield in maize plant (SC704) to light stress and different levels of plant density. Journal of Agricultural Breeding Research 2, 1.
  • Mac-Adam, J.W., Nelson, C.J. and Sharp, R.E. 1992. Peroxidase activity in the leaf elongation zone of tall fescue. Plant Physiol. 99: 872-878.
  • Malek Ahmadi, F., Kh.M. Kalantari, and M. Torkzadeh. Effects of flooding stress on oxidative stress induction and element concentrations in the pepper plant (Capscicum annum L.). Iranian Journal of Biology 18, 2, 111-119.
  • Alison, J. C. S. and D, J, Watson. 1996. The production and distribution of dry matter in maiz after flowering. Ann. Bot. 30: 365-381.
  • Allen, R. R. 1983. Topping corn and delaying harvest for field drying. Field Crop Abstract. 36: 467.
  • Barnett, K. H., and R, B, Pearce. 1983. Source sink ratio alteration and its effect on physiological parameters in maize. Crop Sci. 23: 294-299.
  • Beheshti, A., A, Koochaki,. and M, Nassiri Mahallati. 2002. The effect of planting pattern on light interception and radiation use efficiency in canopy of three maize cultivars. Seed and Plant. Vol. 18. No. 4: pp: 417-431(In Persian with English abstract).
  • Borras, L., and D, Otegui. 2002. Maize kernel composition and post flowering and source sink Ratio. Crop Sci. 42: 780 – 790.
  • Devlin, M.R. and F, H, Withman. 2002. Plant Physiology. CBs publishers and distributors, chapter 12, Pp. 707-710.
  • Emam, Y. 2003 .Graminea Agronomy. Shiraz Daneshgahi Press. (In Persian).
  • Emam, Y., and M, J, Seghateleslami. 2005. Crop yield. Shiraz Daneshgahi Press, 376p. (In Persian).
  • Gbadamosi, A. and M, Daniel. 2014. Effect of light intensity on growth and yield of a Nigerian local rice variety-ofada. International Journal of Plant Research, 4(4): 89-94.
  • Ghorbanli, M., Sh. Hashemi Moghaddam and A. Fallah. 2006. Study of interaction effects of irrigation and nitrogen on some morphological and physiological characteristics of rice plants (Oryza sativa L.). Journal of Agricultural Sciences Islamic Azad University, 2: 415-428. (In Farsi).
  • Goldani, M., P, Rezvani Moghaddam., M, Nassiri Mahallati., and M, Kaffi. 2010. Radiation uses the efficiency of maize (Zea mays L.) hybrids with different growth types in response to density. Journal of Iranian Field Crop Research. Vol. 7. No. 2. pp: 595-604 (In Persian with English abstract).
  • Inze, D. and M, V, Montagu. 2000. Oxidative stress in plants. Cornwall Great Britain, 321 p.
  • Maekawa, S, Terabun, M., and N, Nakamura. 1980. Effect of Ultravioletand visible light on flower pigmentation of Ehigasa roses. Japanese Society of Horticulture Science.49:251-259.
  • Merzlyak, M. and O, B, Chivkunova. 2000. Light-stress-induced pigment changes and evidence for anthocyanin photoprotection in apples. Journal of Photochemistry and Photobiology B:Biology, 55:155-163.
  • Monteith, J. L. 1972. Solar radiation and productivity in tropical ecosystems. J. Appl. Ecol. 9: 747-766.
  • Neto, A. D., Gomes., and E, Filo. 2005. Effect of salt stress on antioxidant and lipid peroxidation in leaves and roots of salt tolerance and salt sensitive maize genotype.
  • Patrocínio, A. and S, Magalhães. 2014. Photosynthetic responses of ornamental passion flower hybrids to varying light intensities. Acta Physiologiae Plantarum, 36(8): 1993-2004.
  • Resende, M.L.V., Nojosa, G.B.A., Cavalcanti, L.S., Aguilar, M.A.G., Silva, L.H.C.P., Perez, J.O., Andrade, G.C.G., Carvalho, G.A., Castro, R.M., 2002. Induction of resistance in cocoa against Crinipellis perniciosa and Verticillium dahliae by acibenzolar-S-methyl (ASM). Plant Pathology. 51, 621-628.
  • Schaller, G., and J, Kieber. 2002. Ethylene. American Society Plant Biologists. 1-17.
  • Sharma, P., and R, S, Dubey. 2005. Drought induces oxidative stress and enhances the activities of antioxidant enzymes in growing rice seedlings. Plant Growth Regulation. 46: 209-221.
  • Schneider, C. (2005) Chemistry & biology of vitamin E. Molecular Nutrition & Food Research 49:7-30. Semida, W., Taha, R., Abdelhamid, M., Rady, M. (2014) Foliar-applied α-tocopherol enhances salt-tolerance in Vicia faba L. plants grown under saline conditions. SouthAfrican Journal of Botany 95:24-31
  • Sinclair, T, R., and R, C, Muchow. 1999. Radiation uses efficiency. Advances in Agronomy. Vol. 65. pp: 215-265.
  • Stewart, D. W., Costa, C., Dwyer, L. M., Smith, R. I., Hamilton, D. L., and B, L, Ma. 2003. Canopy structure, light interception and photosynthesis in maize. Agron. J. 95: 1465-1474.
  • Takeda, T., Yokota, A., and S, Shigeoka. 1995. Resistance of photosynthesis to hydrogen peroxide in algae. Plant Cell Physiology. 36: 1089-1095.
  • Tetio Kagho, F., and F, D, Gardner. 1988. Responses of maize to plant population density: reproductive development. Yield adjustment. . Agron. J. 72: 225-226.
  • Tohidi. M. Nadery, A. Siadat, S. and S., Lak. 2012. Variable productivity of light interception in grain maize hybrids at various amounts of nitrogen. World Applied Sciences Journal. Vol. 16. pp: 86-93.
  • Tollenar, M., and J, Wu. 1994. Yield improvement in temperate maize is attributable to greater stress tolerance. Crop Sci. 39: 1597-1604.
  • Tomitaka, M. 1983. Rate and period grain filling in corn effects of detasseling and defoliation. Philippines. Press. Loop, 240: 50.
  • Valentinuz, O., and M, Tollenar. 2004. Vertical profile of leaf area and leaf senescence during the grain- filling period in maize. Crop Sci. 44: 827-834.
  • Vargas, L. A., M, N, Andersen., C, R, Jensen., and V, J, Orgenses. 2002. Estimation of leaf area index, light interception and biomass accumulation of Miscanthus sinensis ‘Goliath’ from radiation measurements. Biomass and Bioenergy, 22: 1-14.
  • Whatley, F. and F, R, Whatley. 1982. A luz e a vidadas plantas: Temas de biologia. São Paulo. 30:101p.
There are 44 citations in total.

Details

Primary Language English
Subjects Agronomy
Journal Section Articles
Authors

Eshagh Hojatıpour 0000-0002-2950-6959

Hamid Reza Mırı This is me 0000-0002-7792-1161

Barmak Jafarı Haghıghı This is me 0000-0001-7758-2086

Hamid Reza Ebrahımı This is me 0000-0002-7805-707X

Abdolreza Jafarı This is me 0000-0002-8288-4545

Publication Date December 23, 2022
Published in Issue Year 2022 Volume: 27 Issue: 2

Cite

APA Hojatıpour, E., Mırı, H. R., Jafarı Haghıghı, B., Ebrahımı, H. R., et al. (2022). EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING. Turkish Journal Of Field Crops, 27(2), 276-284. https://doi.org/10.17557/tjfc.1108917
AMA Hojatıpour E, Mırı HR, Jafarı Haghıghı B, Ebrahımı HR, Jafarı A. EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING. TJFC. December 2022;27(2):276-284. doi:10.17557/tjfc.1108917
Chicago Hojatıpour, Eshagh, Hamid Reza Mırı, Barmak Jafarı Haghıghı, Hamid Reza Ebrahımı, and Abdolreza Jafarı. “EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING”. Turkish Journal Of Field Crops 27, no. 2 (December 2022): 276-84. https://doi.org/10.17557/tjfc.1108917.
EndNote Hojatıpour E, Mırı HR, Jafarı Haghıghı B, Ebrahımı HR, Jafarı A (December 1, 2022) EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING. Turkish Journal Of Field Crops 27 2 276–284.
IEEE E. Hojatıpour, H. R. Mırı, B. Jafarı Haghıghı, H. R. Ebrahımı, and A. Jafarı, “EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING”, TJFC, vol. 27, no. 2, pp. 276–284, 2022, doi: 10.17557/tjfc.1108917.
ISNAD Hojatıpour, Eshagh et al. “EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING”. Turkish Journal Of Field Crops 27/2 (December 2022), 276-284. https://doi.org/10.17557/tjfc.1108917.
JAMA Hojatıpour E, Mırı HR, Jafarı Haghıghı B, Ebrahımı HR, Jafarı A. EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING. TJFC. 2022;27:276–284.
MLA Hojatıpour, Eshagh et al. “EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING”. Turkish Journal Of Field Crops, vol. 27, no. 2, 2022, pp. 276-84, doi:10.17557/tjfc.1108917.
Vancouver Hojatıpour E, Mırı HR, Jafarı Haghıghı B, Ebrahımı HR, Jafarı A. EXAMINATION OF AGRO-PHYSIOLOGICAL TRAITS OF DIFFERENT CULTIVARS OF MAIZE (Zea Mays) WITH LEAF AND EAR TOPPING. TJFC. 2022;27(2):276-84.

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