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Year 2017, Volume: 22 Issue: 2, 178 - 186, 15.12.2017

Bihter Onat Halil Bakal Leyla Gulluoglu Halis Arıoglu

https://doi.org/10.17557/tjfc.356210
Cited By: 13

Abstract

References

  • Anonymous, 2012a. http://www.cornandsoybeandigest.com/ corn/high-temperature-effects-corn-soybeans
  • Anonymous, 2012b. http://www.ipcc.ch. 2012. The Intergovernmental Panel on Climate Change (IPCC), Czechoslovakia
  • Anonymous, 2016. The Meteorological Data for Adana. Faculty of Agriculture Meteorological Station.
  • Arioglu,H.H. and T. Ersoy. 1987. The effect of high temperature at growing period on soybean [Glycine max (L.) Merr] yield. J. of Natural Science, 11 (2) : 262-268
  • Baker, J.T., L.H. Allen and K.J. Boote. 1989. Response of soybean to air temperature and carbon dioxide concentration. Crop Science, 29:98-105
  • Board, J.E and B.G. Harville. 1998. Late-planted soybean yield response to reproductive source/sink stress. Crop Science, 38:763-771
  • Brun, W.A. 1978. Assimilation. Soybean Agronomy, Physiology and Utilization. Geoffrey Norman, A. (Ed.), Academic Press, London. pp. 45-73 & 249.
  • Canci, H and Toker, C. 2009a. Evaluation of yield criteria for drought and heat resistance in Chickpea (Cicer arietinum L.).J.Agronomy and Crop Science, 195:47-54.
  • Canci, H and Toker, C. 2009b. Evelaution of annual wild Cicer species for drought and heat resistance under field conditions. Genetic Resources and Crop Evolution, 56:1-6.
  • Choi, D.W., H.Y. Ban, B.S. Seo, K.J. Lee and B.W. Lee. 2016. Phenology and seed yield performance of determinant soybean cultivars grown at elevated temperatures in a temperate region. Plos One, 11(11): e0165977. DOI:10.1371/journal.pone.0165977
  • Djanaguiraman, M and P.V.V.Prasad. 2010. Ethylene production under high temperature stress causes premature leaf senescence in soybean. Functional Plant Biology, 37:1071-1084
  • Dornbos, D.L and R.E. Mullen. 1991. Soybean Seed Protein and Oil Contents and Fatty Acid Composition Adjustments by Drought and Temperature. J. American Oil Chem. Soc. (JAOCS). 69(3): 228-231.
  • Duthion, C and A. Pigeaire. 1991. Seed lengths corresponding to the final stage in seed abortion of three grain legumes. Crop Science, 31:1579-1583
  • Egli, D.B and I.F. Wardlaw. 1980. Temperature response of seed growth characteristics of soybeans. Agronomy Journal, 72(3):560-564
  • Gibson, L.R and R.E. Mullen. 1996. Influence of day and night temperature on soybean seed yield. Crop Science, 36(1):98-104
  • Gulluoglu, L., H. Arioglu and M. Arslan. 2006. Effect of some plant growth regulators and nutrient complexes on above-ground biomass and seed yield of some soybean grown under heat-stressed environment. Journal of Agronomy, 5(2):126-130
  • Gulluoglu, L., H. Bakal and H. Arioglu. 2016. The Effects of Twin-row Planting Pattern and Plant Population on Seed Yield and Yield Components of Soybean at Late Double-Cropped Planting in Cukurova Region. Turkish Journal of Field Crops, 21(1):59-65
  • Hicks, D.R. 1978. Growth and development. Soybean Agronomy, Physiology and Utilization. Geoffrey Norman, A. (Ed.), Academic Press, London. pp. 17-41 & 249.
  • Huan,F., A.Lizhe, T. Ling Ling, H. Zonf Dong and W. Xunling. 2000. Effect of enhanced ultraviolet-B radiation on pollen germination and tube growth of 19 taxa in vitro. Environment an Experimental Botany, 43:45-53
  • Hu, M and P. Wiatrak. 2012. Effect of Planting Date on Soybean Growth Yield and Grain Quality: Review. Agronomy Journal, 104(3):785-790
  • Huxley, P.A., R.J. Summerfield and P. Hughes. 1976. Growth and development of soybean CV-TK5 as affected by tropical day lengths, day/night temperatures and nitrogen nutrition. Ann. Apply. Biol.82:117-133
  • Kakani, V.G., P.V.V. Parasad, P.Q. Craufurd and T.R. Wheeler. 2002. Response of in vitro pollen germination and pollen tube growth of Groundnut (Arachis hypogaea L.) genotype to temperature. Plant Cell and Environment, 25:1651-1661
  • Khan, A.Z., H. Khan, A. Ghoneim, R. Khan and A. Ebid. 2007. Seed quality and vigor of soybean as influenced by planting date, density and cultivar under temperature environment. Int. Journal of Agriculture Research, 2(4): 368-376
  • Kumagai, E and R. Sameshima. 2014. Genotypic differences in soybean yield response to increasing temperature in a cool climate are related to maturity group. Agricultural and Forest Meteorology, 198-199:265-272
  • Liuet, X., J. Jian, Wguanghua and S.J. Herbert. 2008. Soybean yield physiology and development of high-yielding practices in Northeast China. Field Crops Research, 105:157-171
  • Marking, S. 1986. Heat stress shrivels bean bushels. Soybean Digest; May-June 44-45pp, USA
  • Mishra,V and K.A. Cherkauer. 2010. Retrospective droughts in the crop growing season: Implications to corn and soybean yield in the Midwestern United States. Agricultural and Forest Meteorology, 150:1030-1045
  • Munier-Jolain, N.G and B. Ney. 1998. Seed growth rate in grain legumes II. Seed growth rate depends on cotyledon cell number. J. Exp. Bot. 49:1971-1976
  • Ohyama, T., R. Minagawa, S. Ishikawa, M. Yamamoto, N. Van Phi Hung, N. Ohtake, K. Sueyoshi, T. Sato, Y. Nagumo, and Y. Takahasi. 2013. Soybean seed production and nitrogen nutrition. http:/dx.doi.org/10.5772/45867
  • Patel, D. and K.A. Franklin. 2009. Temperature-regulation of plant architecture. Plant Signaling and Behavior Journal, 4: 577-579
  • Prasad, P.V.V., P.Q. Craufurd and R.J. Summerfield. 2000. Effect of high air and soil temperature on dry matter production, pod yield and yield components of Groundnut. Plant and Soil, 222:231-239
  • Puteh, A.B., M. ThuZar, M.M.S. Mondal, N.A.P.B. Abdullah and M.R.A. Halim. 2013. Soybean [Glycine max (L.)Merrill] seed yield response to high temperature stress during reproductive growth stages. Australian J. of Crop Science, 7(10):1472-1479
  • Sadeghi, H., H.H.S. Abad, A. Hamidi, G.N. Mohammadi and H. Madani. 2014. Effect of planting management on soybean agronomic traits. Int. Journal of Biosciences, 4(5):85-91
  • Sadeghi, S.M and S.A. Niyaki. 2013. Effects of planting date and cultivar on the yield and yield components of soybean in North of Iran. ARPN journal of Agricultural and Biological Science, 8(1):81-85
  • Sapra, V.T and A.O. Anaele. 1991. Screening of soybean genotypes for drought and heat tolerance. J. Agron. Crop Sci.167:96-102
  • Sionite, N., B.R and E.P. Flint. 1987. Interaction of temperature and CO2 enrichment on soybean: growth and dry matter partitioning. Can. Journal Plant Science 67:59-67
  • Tacarindua, C.R.P., T. Shiraiwa, K. Homma and E. Kumagai. 2013. The effects of increased temperature on crop growth and yield of soybean grown in a temperature gradient chamber. Field Crops Research, 154:74-81
  • Thomas, J.F and C.D. Raper. 1978. Effect of day and night temperatures during floral induction on morphology of soybeans. Agronomy Journal, 70:893-898
  • Tubiello, F.N., J.F. Soussans and S.M. Howden. 2007. Crop and pasture response to climate change. Proc. Natl. Acad. Sci. 104: 19686-19690
  • Wheeler, T. and J. von Braun. 2013. Climate change impacts on global food security. Science 341: 508-513
  • Whigham, D.K and H.C. Minor. 1978. Agronomic characteristics and environmental stress. Soybean Agronomy, Physiology and Utilization. Geoffrey Norman, A. (Ed.), Academic Press, London. pp. 78-116, 247p.

THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES

Year 2017, Volume: 22 Issue: 2, 178 - 186, 15.12.2017

Bihter Onat Halil Bakal Leyla Gulluoglu Halis Arıoglu

https://doi.org/10.17557/tjfc.356210
Cited By: 13

Abstract

This study was conducted at the Experimental Area of Cukurova University in 2015 and 2016 as a double crop growing season. The objective of this study was to determine the effect of high temperature on seed yield and some yield component of soybean [Glycine max (L.) Merr] varieties in double crop growing season in Mediterranean region in Turkey. The experimental design was a Randomized Complete Block with three replications. The Arısoy, Atakisi, Ataem-7, Umut-2002, Turksoy, Adasoy, Cinsoy, Ilksoy, Bravo, Sa-88, S.4240, Blaze, Nova, May-5312, Cetinbey, May-5414 and 34A7 varieties (belonging to maturity groups II, III, IV and V) were used as a plant material in this research. The maximum air temperature data was recorded day by day during the growing period in both years and daily maximum air temperatures were higher in 2016 than in 2015. When the seed yield compared in 2015 and 2016, it is found that the seed yield was lower (29.5%) in 2016 than in 2015. The high temperature was negatively affected the seed yield of soybean varieties. It was found that the soybean varieties differ in their sensitivity to high temperatures.

Keywords

air temperature double crop seed yield soybean yield reduction

References

  • Anonymous, 2012a. http://www.cornandsoybeandigest.com/ corn/high-temperature-effects-corn-soybeans
  • Anonymous, 2012b. http://www.ipcc.ch. 2012. The Intergovernmental Panel on Climate Change (IPCC), Czechoslovakia
  • Anonymous, 2016. The Meteorological Data for Adana. Faculty of Agriculture Meteorological Station.
  • Arioglu,H.H. and T. Ersoy. 1987. The effect of high temperature at growing period on soybean [Glycine max (L.) Merr] yield. J. of Natural Science, 11 (2) : 262-268
  • Baker, J.T., L.H. Allen and K.J. Boote. 1989. Response of soybean to air temperature and carbon dioxide concentration. Crop Science, 29:98-105
  • Board, J.E and B.G. Harville. 1998. Late-planted soybean yield response to reproductive source/sink stress. Crop Science, 38:763-771
  • Brun, W.A. 1978. Assimilation. Soybean Agronomy, Physiology and Utilization. Geoffrey Norman, A. (Ed.), Academic Press, London. pp. 45-73 & 249.
  • Canci, H and Toker, C. 2009a. Evaluation of yield criteria for drought and heat resistance in Chickpea (Cicer arietinum L.).J.Agronomy and Crop Science, 195:47-54.
  • Canci, H and Toker, C. 2009b. Evelaution of annual wild Cicer species for drought and heat resistance under field conditions. Genetic Resources and Crop Evolution, 56:1-6.
  • Choi, D.W., H.Y. Ban, B.S. Seo, K.J. Lee and B.W. Lee. 2016. Phenology and seed yield performance of determinant soybean cultivars grown at elevated temperatures in a temperate region. Plos One, 11(11): e0165977. DOI:10.1371/journal.pone.0165977
  • Djanaguiraman, M and P.V.V.Prasad. 2010. Ethylene production under high temperature stress causes premature leaf senescence in soybean. Functional Plant Biology, 37:1071-1084
  • Dornbos, D.L and R.E. Mullen. 1991. Soybean Seed Protein and Oil Contents and Fatty Acid Composition Adjustments by Drought and Temperature. J. American Oil Chem. Soc. (JAOCS). 69(3): 228-231.
  • Duthion, C and A. Pigeaire. 1991. Seed lengths corresponding to the final stage in seed abortion of three grain legumes. Crop Science, 31:1579-1583
  • Egli, D.B and I.F. Wardlaw. 1980. Temperature response of seed growth characteristics of soybeans. Agronomy Journal, 72(3):560-564
  • Gibson, L.R and R.E. Mullen. 1996. Influence of day and night temperature on soybean seed yield. Crop Science, 36(1):98-104
  • Gulluoglu, L., H. Arioglu and M. Arslan. 2006. Effect of some plant growth regulators and nutrient complexes on above-ground biomass and seed yield of some soybean grown under heat-stressed environment. Journal of Agronomy, 5(2):126-130
  • Gulluoglu, L., H. Bakal and H. Arioglu. 2016. The Effects of Twin-row Planting Pattern and Plant Population on Seed Yield and Yield Components of Soybean at Late Double-Cropped Planting in Cukurova Region. Turkish Journal of Field Crops, 21(1):59-65
  • Hicks, D.R. 1978. Growth and development. Soybean Agronomy, Physiology and Utilization. Geoffrey Norman, A. (Ed.), Academic Press, London. pp. 17-41 & 249.
  • Huan,F., A.Lizhe, T. Ling Ling, H. Zonf Dong and W. Xunling. 2000. Effect of enhanced ultraviolet-B radiation on pollen germination and tube growth of 19 taxa in vitro. Environment an Experimental Botany, 43:45-53
  • Hu, M and P. Wiatrak. 2012. Effect of Planting Date on Soybean Growth Yield and Grain Quality: Review. Agronomy Journal, 104(3):785-790
  • Huxley, P.A., R.J. Summerfield and P. Hughes. 1976. Growth and development of soybean CV-TK5 as affected by tropical day lengths, day/night temperatures and nitrogen nutrition. Ann. Apply. Biol.82:117-133
  • Kakani, V.G., P.V.V. Parasad, P.Q. Craufurd and T.R. Wheeler. 2002. Response of in vitro pollen germination and pollen tube growth of Groundnut (Arachis hypogaea L.) genotype to temperature. Plant Cell and Environment, 25:1651-1661
  • Khan, A.Z., H. Khan, A. Ghoneim, R. Khan and A. Ebid. 2007. Seed quality and vigor of soybean as influenced by planting date, density and cultivar under temperature environment. Int. Journal of Agriculture Research, 2(4): 368-376
  • Kumagai, E and R. Sameshima. 2014. Genotypic differences in soybean yield response to increasing temperature in a cool climate are related to maturity group. Agricultural and Forest Meteorology, 198-199:265-272
  • Liuet, X., J. Jian, Wguanghua and S.J. Herbert. 2008. Soybean yield physiology and development of high-yielding practices in Northeast China. Field Crops Research, 105:157-171
  • Marking, S. 1986. Heat stress shrivels bean bushels. Soybean Digest; May-June 44-45pp, USA
  • Mishra,V and K.A. Cherkauer. 2010. Retrospective droughts in the crop growing season: Implications to corn and soybean yield in the Midwestern United States. Agricultural and Forest Meteorology, 150:1030-1045
  • Munier-Jolain, N.G and B. Ney. 1998. Seed growth rate in grain legumes II. Seed growth rate depends on cotyledon cell number. J. Exp. Bot. 49:1971-1976
  • Ohyama, T., R. Minagawa, S. Ishikawa, M. Yamamoto, N. Van Phi Hung, N. Ohtake, K. Sueyoshi, T. Sato, Y. Nagumo, and Y. Takahasi. 2013. Soybean seed production and nitrogen nutrition. http:/dx.doi.org/10.5772/45867
  • Patel, D. and K.A. Franklin. 2009. Temperature-regulation of plant architecture. Plant Signaling and Behavior Journal, 4: 577-579
  • Prasad, P.V.V., P.Q. Craufurd and R.J. Summerfield. 2000. Effect of high air and soil temperature on dry matter production, pod yield and yield components of Groundnut. Plant and Soil, 222:231-239
  • Puteh, A.B., M. ThuZar, M.M.S. Mondal, N.A.P.B. Abdullah and M.R.A. Halim. 2013. Soybean [Glycine max (L.)Merrill] seed yield response to high temperature stress during reproductive growth stages. Australian J. of Crop Science, 7(10):1472-1479
  • Sadeghi, H., H.H.S. Abad, A. Hamidi, G.N. Mohammadi and H. Madani. 2014. Effect of planting management on soybean agronomic traits. Int. Journal of Biosciences, 4(5):85-91
  • Sadeghi, S.M and S.A. Niyaki. 2013. Effects of planting date and cultivar on the yield and yield components of soybean in North of Iran. ARPN journal of Agricultural and Biological Science, 8(1):81-85
  • Sapra, V.T and A.O. Anaele. 1991. Screening of soybean genotypes for drought and heat tolerance. J. Agron. Crop Sci.167:96-102
  • Sionite, N., B.R and E.P. Flint. 1987. Interaction of temperature and CO2 enrichment on soybean: growth and dry matter partitioning. Can. Journal Plant Science 67:59-67
  • Tacarindua, C.R.P., T. Shiraiwa, K. Homma and E. Kumagai. 2013. The effects of increased temperature on crop growth and yield of soybean grown in a temperature gradient chamber. Field Crops Research, 154:74-81
  • Thomas, J.F and C.D. Raper. 1978. Effect of day and night temperatures during floral induction on morphology of soybeans. Agronomy Journal, 70:893-898
  • Tubiello, F.N., J.F. Soussans and S.M. Howden. 2007. Crop and pasture response to climate change. Proc. Natl. Acad. Sci. 104: 19686-19690
  • Wheeler, T. and J. von Braun. 2013. Climate change impacts on global food security. Science 341: 508-513
  • Whigham, D.K and H.C. Minor. 1978. Agronomic characteristics and environmental stress. Soybean Agronomy, Physiology and Utilization. Geoffrey Norman, A. (Ed.), Academic Press, London. pp. 78-116, 247p.
There are 41 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Bihter Onat This is me

Halil Bakal This is me

Leyla Gulluoglu This is me

Halis Arıoglu

Publication Date December 15, 2017
Published in Issue Year 2017 Volume: 22 Issue: 2

Cite

APA Onat, B., Bakal, H., Gulluoglu, L., Arıoglu, H. (2017). THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES. Turkish Journal Of Field Crops, 22(2), 178-186. https://doi.org/10.17557/tjfc.356210
AMA Onat B, Bakal H, Gulluoglu L, Arıoglu H. THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES. TJFC. December 2017;22(2):178-186. doi:10.17557/tjfc.356210
Chicago Onat, Bihter, Halil Bakal, Leyla Gulluoglu, and Halis Arıoglu. “THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine Max (L.) Merr] VARIETIES”. Turkish Journal Of Field Crops 22, no. 2 (December 2017): 178-86. https://doi.org/10.17557/tjfc.356210.
EndNote Onat B, Bakal H, Gulluoglu L, Arıoglu H (December 1, 2017) THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES. Turkish Journal Of Field Crops 22 2 178–186.
IEEE B. Onat, H. Bakal, L. Gulluoglu, and H. Arıoglu, “THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES”, TJFC, vol. 22, no. 2, pp. 178–186, 2017, doi: 10.17557/tjfc.356210.
ISNAD Onat, Bihter et al. “THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine Max (L.) Merr] VARIETIES”. Turkish Journal Of Field Crops 22/2 (December 2017), 178-186. https://doi.org/10.17557/tjfc.356210.
JAMA Onat B, Bakal H, Gulluoglu L, Arıoglu H. THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES. TJFC. 2017;22:178–186.
MLA Onat, Bihter et al. “THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine Max (L.) Merr] VARIETIES”. Turkish Journal Of Field Crops, vol. 22, no. 2, 2017, pp. 178-86, doi:10.17557/tjfc.356210.
Vancouver Onat B, Bakal H, Gulluoglu L, Arıoglu H. THE EFFECTS OF HIGH TEMPERATURE AT THE GROWING PERIOD ON YIELD AND YIELD COMPONENTS OF SOYBEAN [Glycine max (L.) Merr] VARIETIES. TJFC. 2017;22(2):178-86.

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