Research Article
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Assessment of Germination and Seedling Development Factors of Soybean Cultivars in Different Salinity Levels

Year 2024, Volume: 7 Issue: 5, 477 - 485, 15.09.2024
https://doi.org/10.47115/bsagriculture.1463877

Abstract

Salinity poses a significant abiotic stress factor that exerts detrimental effects on plant growth during germination and early seedling stages. The global prevalence of high salt concentration has transformed salinity into a serious problem, impacting vast expanses of land worldwide. This experiment aims to examine the effects of various concentrations of sodium chloride (NaCl), including 200 mM, 150 mM, 100 mM, and 50 mM, on the seed development at early stage and germination of different cultivars of soybean to determine the variety with the highest value of tolerance, while exploring the underlying mechanisms responsible for salt tolerance in these plants. The parameters considered for measurement included relative injury rate, mean germination time, germination percentage, water uptake percentage, seedling height reduction, seedling biomass, and salt tolerance. Among these parameters, seedling height was highly affected with up to 72.58% reduction in 200 mM, followed by fresh weight and water uptake percentage. The parameters with minimum changes from 0 mM to 200 mM were mean germination time and relative injury rate. By assessing these parameters, a comprehensive understanding of the effects of salinity on soybean genotypes can be obtained. In conclusion, the study suggests that seedling traits are a reliable way to identify genotypes with increased tolerance to salinity stress by farmers according to the salinity situation in their soils.

References

  • Açikbaş S, Özyazici M. A, Biçakçi E, Özyazici G. 2023. Germination and seedling development performances of some soybean (glycine max (l.) merrill) cultivars under salinity stress. Turkish J Range Forage Sci, 4(2): 108-118.
  • Ahmadvand G, Soleimani F, Saadatian B, Pouya M. 2012. Effects of seed priming on germination and mergence traits of two soybean cultivars under salinity stress (Glycine max L). Inter Res J Applied Basic Sci, 3: 234-241.
  • Ahmed R, Islam MM, Sarker HMU, Hasan M, Hossain MR, Shila A, Ahammed R. 2023. Morphological responses of three contrasting soybean (Glycine max (L.) Merrill) genotypes under different levels of salinity stress in the coastal region of Bangladesh. J Plant Stress Physiol, 9: 18-26.
  • Allen SG, Dobrenz AK, Bartels PG. 1986. Physiological response of salt‐tolerant and nontolerant alfalfa to salinity during germination 1. Crop Sci, 26(5): 1004-1008.
  • Dehnavi AR, Zahedi M, Ludwiczak A, Perez SC, Piernik A. 2020. Effect of salinity on seed germination and seedling development of sorghum (Sorghum bicolor (L.) Moench) Genotypes. Agronomy 10: 859. doi:10.3390/agronomy10060859.
  • El Sabagh A, Abd O, Saneoka H, Barutçular C. 2015. Comparative physiological study of soybean (Glycine max L.) cultivars under salt stress. Yüzüncü Yıl Üniv Tarım Bilim Derg, 25(3): 269-284.
  • Essa TA. 2002. Effect of salinity stress on growth and nutrient composition of three soybean (Glycine max L. Merrill) cultivars. J Agron Crop Sci, 188: 86-93.
  • Farhoudi R, Tafti MM. 2011. Effect of salt stress on seedlings growth and ions homeostasis of soybean (Glycine max) Cultivars. Adv Environ Biol, 5: 2522-2526.
  • Hampson C, Simpson G. 1990. Effect of temperature salt and water stress on early growth of wheat (Triticum aestivum L.) germination. Can J Bot, 68: 524-528.
  • Han HS, Lee KD. 2005. Physiological responses of soybean-inoculation of Bradyrhizobium japonicum with PGPR in saline soil conditions. Res J Agri Biol Sci, 1(3): 216-221.
  • Hassan M, Ahmed Z, Munir M, Malik SI, Shahzad K. 2009. Effect of sorbitol in callus induction and plant regeneration in wheat. African J Biotechnol, 8(23): 6529-6535.
  • Hill J, Nelson E, Tilman D, Polasky S, Tiffany D. 2006. Environmental economic and energetic costs and benefits of biodiesel and ethanol biofuels. Proceed National Acad Sci, 103(30): 11206-11210.
  • Hosseini MK, Powell AA, Bingham I. 2000. The effects of reduced water availability and salinity on the early seedling growth of soybean. In Third Inter Crop Sciences Congress, 17-18 August, Berlin, Germany, pp: 48.
  • Hosseini MK, Powell AA, Bingham IJ. 2002. Comparison of the seed germination and early seedling growth of soybean in saline conditions. Seed Sci Res, 12(3): 165-172.
  • Huang J, Rozelle S. 1995. Environmental stress and grain yields in China. American J Agri Econ, 77(4): 853-864.
  • Jeschke WD, Wolf O. 1988a. Effect of NaCI salinity on growth development ion distribution and ion translocation in castor bean (Ricinus communis L. J Plant Physiol, 132(1): 45-53.
  • Jeschke WD, Wolf O. 1988b. External potassium supply is not required for root growth in saline conditions: experiments with Ricinus communis L. grown in a reciprocal split-root system. J Experiment Botany, 39(9): 1149-1167.
  • Kingsbury RW, Epstein E. 1986. Salt sensitivity in wheat. Plant Physiol, 80: 651-654.
  • Kinraide TB. 1999. Interactions among Ca2+ Na+ and K+ in salinity toxicity: quantitative resolution of multiple toxic and ameliorative effects. J Exper Botany, 50(338): 1495-1505.
  • Kumar A. 2017. Germination behaviour of soybean varieties under different salinity stress. Int J Appl Agric Res, 12: 69-76.
  • Kumar A, Sharma BK. 1990. Specific ion effect on germination and seedling growth of wild canary grass (Phalaris minor (L.) Retz J Adv Plant Sci, 3: 321-325.
  • Le LTT, Kotula L, Siddique KHM, Colmer TD. 2021. Na+ and/or Cl− toxicities determine salt sensitivity in soybean (Glycine max (L.) Merr.): mungbean (Vigna radiata (L.) R. Wilczek): cowpea (Vigna unguiculata (L.) Walp.): and common bean (Phaseolus vulgaris L). Inter J Molec Sci, 22: 1909.
  • Lindberg S, Premkumar A. 2023. Ion changes and signaling under salt stress in wheat and other important crops. Plants 13(1): 46.
  • Linh NT, Cham LTT, Thang VN. 2021. Effects of salinity stress on the growth physiology and yield of soybean (Glycine max (L.) Merrill). Vietnam J Agri Sci, 7(2): 54-57.
  • Munns R. 2002. Comparative physiology of salt and water stress. Plant Cell Environ, 25: 239-250.
  • Ndifon EM. 2013. Assessment of salt and drought stresses using soybean (Glycine max (L.) Merrill) seedling as indicator. Adv Agri Sci Engin Res, 3: 1102-1111.
  • Neves GYS, Zonetti PC, Ferrarese ML, Braccini AL, Ferrarese-Filho O. 2005. Seed germination and seedling growth of soybean (Glycine max (L.) Merill) varieties at germination and early seedling growth under salt stress. Biosoc J Uberlandia, 21: 77-83.
  • Pearson GA, Ayers AD, Eberhard DL. 1966. Relative salt tolerance of rice during germination and early seedling development. Soil Sci, 102(3): 151-156.
  • Redmann RE. 1974. Osmotic and specific ion effects on the germination of alfalfa. Canadian J Botany 52(4): 803-808.
  • Rogers HH, Prior SA, Runion GB, Mitchell RJ. 1995. Root to shoot ratio of crops as influenced by CO 2. Plant Soil, 187: 229-248.
  • Rogers ME, Noble CL. 1991. The effect of NaCl on the establishment and growth of balansa clover (Trifolium michelianum Savi var. balansae Boiss. Australian J Agri Res, 42(5): 847-857.
  • Shanko D, Jateni G, Debela A. 2017. Effects of salinity on chickpea (Cicer arietinum L.) landraces during germination stage. Biochem Molec Biol J, 3(2): 9.
  • Tester M, Davenport R. 2003. Na+ tolerance and Na+ transport in higher plants. Annals Bota, 91(5): 503-527.
  • Tsegay BA, Gebreslassie B. 2014. The effect of salinity (NaCl) on germination and early seedling growth of Lathyrus sativus and Pisum sativum var. abyssinicum. African J Plant Sci, 8(5): 225-231.
  • Tunçtürk M, Tunçtürk R, Yildirim B, Çiftçi V. 2011. Effect of salinity stress on plant fresh weight and nutrient composition of some Canola (Brassica napus L.) cultivars. African J Biotech, 10(10): 1827-1832.
  • Volkmar KM, Hu Y, Steppuhn H. 1998. Physiological responses of plants to salinity: a review. Canadian J Plant Sci, 78(1): 19-27.
  • Zhang N Zhang H Sun Q Cao Y Li X Zhao B. 2017. Proteomic analysis reveals a role of melatonin in promoting cucumber seed germination under high salinity by regulating energy production. Sci Rep, 7: 503.
Year 2024, Volume: 7 Issue: 5, 477 - 485, 15.09.2024
https://doi.org/10.47115/bsagriculture.1463877

Abstract

References

  • Açikbaş S, Özyazici M. A, Biçakçi E, Özyazici G. 2023. Germination and seedling development performances of some soybean (glycine max (l.) merrill) cultivars under salinity stress. Turkish J Range Forage Sci, 4(2): 108-118.
  • Ahmadvand G, Soleimani F, Saadatian B, Pouya M. 2012. Effects of seed priming on germination and mergence traits of two soybean cultivars under salinity stress (Glycine max L). Inter Res J Applied Basic Sci, 3: 234-241.
  • Ahmed R, Islam MM, Sarker HMU, Hasan M, Hossain MR, Shila A, Ahammed R. 2023. Morphological responses of three contrasting soybean (Glycine max (L.) Merrill) genotypes under different levels of salinity stress in the coastal region of Bangladesh. J Plant Stress Physiol, 9: 18-26.
  • Allen SG, Dobrenz AK, Bartels PG. 1986. Physiological response of salt‐tolerant and nontolerant alfalfa to salinity during germination 1. Crop Sci, 26(5): 1004-1008.
  • Dehnavi AR, Zahedi M, Ludwiczak A, Perez SC, Piernik A. 2020. Effect of salinity on seed germination and seedling development of sorghum (Sorghum bicolor (L.) Moench) Genotypes. Agronomy 10: 859. doi:10.3390/agronomy10060859.
  • El Sabagh A, Abd O, Saneoka H, Barutçular C. 2015. Comparative physiological study of soybean (Glycine max L.) cultivars under salt stress. Yüzüncü Yıl Üniv Tarım Bilim Derg, 25(3): 269-284.
  • Essa TA. 2002. Effect of salinity stress on growth and nutrient composition of three soybean (Glycine max L. Merrill) cultivars. J Agron Crop Sci, 188: 86-93.
  • Farhoudi R, Tafti MM. 2011. Effect of salt stress on seedlings growth and ions homeostasis of soybean (Glycine max) Cultivars. Adv Environ Biol, 5: 2522-2526.
  • Hampson C, Simpson G. 1990. Effect of temperature salt and water stress on early growth of wheat (Triticum aestivum L.) germination. Can J Bot, 68: 524-528.
  • Han HS, Lee KD. 2005. Physiological responses of soybean-inoculation of Bradyrhizobium japonicum with PGPR in saline soil conditions. Res J Agri Biol Sci, 1(3): 216-221.
  • Hassan M, Ahmed Z, Munir M, Malik SI, Shahzad K. 2009. Effect of sorbitol in callus induction and plant regeneration in wheat. African J Biotechnol, 8(23): 6529-6535.
  • Hill J, Nelson E, Tilman D, Polasky S, Tiffany D. 2006. Environmental economic and energetic costs and benefits of biodiesel and ethanol biofuels. Proceed National Acad Sci, 103(30): 11206-11210.
  • Hosseini MK, Powell AA, Bingham I. 2000. The effects of reduced water availability and salinity on the early seedling growth of soybean. In Third Inter Crop Sciences Congress, 17-18 August, Berlin, Germany, pp: 48.
  • Hosseini MK, Powell AA, Bingham IJ. 2002. Comparison of the seed germination and early seedling growth of soybean in saline conditions. Seed Sci Res, 12(3): 165-172.
  • Huang J, Rozelle S. 1995. Environmental stress and grain yields in China. American J Agri Econ, 77(4): 853-864.
  • Jeschke WD, Wolf O. 1988a. Effect of NaCI salinity on growth development ion distribution and ion translocation in castor bean (Ricinus communis L. J Plant Physiol, 132(1): 45-53.
  • Jeschke WD, Wolf O. 1988b. External potassium supply is not required for root growth in saline conditions: experiments with Ricinus communis L. grown in a reciprocal split-root system. J Experiment Botany, 39(9): 1149-1167.
  • Kingsbury RW, Epstein E. 1986. Salt sensitivity in wheat. Plant Physiol, 80: 651-654.
  • Kinraide TB. 1999. Interactions among Ca2+ Na+ and K+ in salinity toxicity: quantitative resolution of multiple toxic and ameliorative effects. J Exper Botany, 50(338): 1495-1505.
  • Kumar A. 2017. Germination behaviour of soybean varieties under different salinity stress. Int J Appl Agric Res, 12: 69-76.
  • Kumar A, Sharma BK. 1990. Specific ion effect on germination and seedling growth of wild canary grass (Phalaris minor (L.) Retz J Adv Plant Sci, 3: 321-325.
  • Le LTT, Kotula L, Siddique KHM, Colmer TD. 2021. Na+ and/or Cl− toxicities determine salt sensitivity in soybean (Glycine max (L.) Merr.): mungbean (Vigna radiata (L.) R. Wilczek): cowpea (Vigna unguiculata (L.) Walp.): and common bean (Phaseolus vulgaris L). Inter J Molec Sci, 22: 1909.
  • Lindberg S, Premkumar A. 2023. Ion changes and signaling under salt stress in wheat and other important crops. Plants 13(1): 46.
  • Linh NT, Cham LTT, Thang VN. 2021. Effects of salinity stress on the growth physiology and yield of soybean (Glycine max (L.) Merrill). Vietnam J Agri Sci, 7(2): 54-57.
  • Munns R. 2002. Comparative physiology of salt and water stress. Plant Cell Environ, 25: 239-250.
  • Ndifon EM. 2013. Assessment of salt and drought stresses using soybean (Glycine max (L.) Merrill) seedling as indicator. Adv Agri Sci Engin Res, 3: 1102-1111.
  • Neves GYS, Zonetti PC, Ferrarese ML, Braccini AL, Ferrarese-Filho O. 2005. Seed germination and seedling growth of soybean (Glycine max (L.) Merill) varieties at germination and early seedling growth under salt stress. Biosoc J Uberlandia, 21: 77-83.
  • Pearson GA, Ayers AD, Eberhard DL. 1966. Relative salt tolerance of rice during germination and early seedling development. Soil Sci, 102(3): 151-156.
  • Redmann RE. 1974. Osmotic and specific ion effects on the germination of alfalfa. Canadian J Botany 52(4): 803-808.
  • Rogers HH, Prior SA, Runion GB, Mitchell RJ. 1995. Root to shoot ratio of crops as influenced by CO 2. Plant Soil, 187: 229-248.
  • Rogers ME, Noble CL. 1991. The effect of NaCl on the establishment and growth of balansa clover (Trifolium michelianum Savi var. balansae Boiss. Australian J Agri Res, 42(5): 847-857.
  • Shanko D, Jateni G, Debela A. 2017. Effects of salinity on chickpea (Cicer arietinum L.) landraces during germination stage. Biochem Molec Biol J, 3(2): 9.
  • Tester M, Davenport R. 2003. Na+ tolerance and Na+ transport in higher plants. Annals Bota, 91(5): 503-527.
  • Tsegay BA, Gebreslassie B. 2014. The effect of salinity (NaCl) on germination and early seedling growth of Lathyrus sativus and Pisum sativum var. abyssinicum. African J Plant Sci, 8(5): 225-231.
  • Tunçtürk M, Tunçtürk R, Yildirim B, Çiftçi V. 2011. Effect of salinity stress on plant fresh weight and nutrient composition of some Canola (Brassica napus L.) cultivars. African J Biotech, 10(10): 1827-1832.
  • Volkmar KM, Hu Y, Steppuhn H. 1998. Physiological responses of plants to salinity: a review. Canadian J Plant Sci, 78(1): 19-27.
  • Zhang N Zhang H Sun Q Cao Y Li X Zhao B. 2017. Proteomic analysis reveals a role of melatonin in promoting cucumber seed germination under high salinity by regulating energy production. Sci Rep, 7: 503.
There are 37 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering (Other)
Journal Section Research Articles
Authors

Rüstem Üstün 0000-0001-6211-5071

Muhammad Amjid 0000-0002-7328-9584

Publication Date September 15, 2024
Submission Date April 2, 2024
Acceptance Date July 30, 2024
Published in Issue Year 2024 Volume: 7 Issue: 5

Cite

APA Üstün, R., & Amjid, M. (2024). Assessment of Germination and Seedling Development Factors of Soybean Cultivars in Different Salinity Levels. Black Sea Journal of Agriculture, 7(5), 477-485. https://doi.org/10.47115/bsagriculture.1463877

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