Morphological responses of three contrasting Soybean (Glycine max (L.) Merrill) genotypes under different levels of salinity stress in the coastal region of Bangladesh

Journal of Plant Stress Physiology Pub Date : 2023-10-10 DOI:10.25081/jpsp.2023.v9.8595

Rayhan Ahmed, Md. Morshedul Islam, H. M. Moin Uddin Sarker, Mehedi Hasan, Md. Rakib Hossain, Akhinur Shila, Rayhan Ahammed

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Abstract

Soil salinity, a global environmental issue, inhibits plant development and production. Soybean is an economically important legume crop whose yield and quality are highly affected by excessive levels of salt in the root zone. A factorial experiment was conducted in a net house from October 2019 to January 2020 to evaluate the performance of three distinct soybean genotypes under varying levels of salinity stress. The experiment followed a completely randomized design (CRD) with three replications. Three soybean cultivars, namely BINA Soybean 1, BINA Soybean 2, and BINA Soybean 4 were used in this experiment. The soil salinity treatments were 0 mM NaCl, 50 mM NaCl, 100 mM NaCl, 150 mM NaCl, and 200 mM NaCl. The electrical conductivity (EC) of the soil sample was 0.91dS/m. Six seeds were sown 3 cm deep in each pot. A total of 45 pots were used in this experiment. The performance of each variety was evaluated based on its germination percentage, time of germination, no. of branches/plant, no. of leaves/plant, no. of flowers/plant, plant height (cm), no. of pods/plant, pod length (cm), seeds/pod, and root length (cm). Based on the results obtained from this research trial, it can be inferred that the BINA Soybean 2 variety along with 0 mM NaCl, 50 mM NaCl, and 100 mM NaCl treatments exhibited superior performance in all parameters compared to the other varieties. This study provides clear evidence that the soybean, particularly the BINA Soybean 2 variety, holds significant promise as a crop suitable for coastal regions. Furthermore, it suggests that the cultivation of soybeans in such areas could potentially enhance agricultural productivity, particularly in the presence of mild saline conditions. Nevertheless, it exhibits limited growth potential in environments with elevated salinity levels.

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3种对照大豆(Glycine max (L.))的形态响应Merrill)基因型在孟加拉国沿海地区不同盐度胁迫水平下的差异

土壤盐度是一个全球性的环境问题，它抑制了植物的发育和生产。大豆是一种经济上重要的豆科作物，其产量和品质受到根区盐含量过高的严重影响。本试验于2019年10月至2020年1月在净屋进行了因子试验，以评估3种不同基因型大豆在不同盐度胁迫下的生产性能。试验采用完全随机设计(CRD)， 3个重复。试验选用BINA大豆1号、BINA大豆2号和BINA大豆4号3个大豆品种。土壤盐分处理分别为0 mM NaCl、50 mM NaCl、100 mM NaCl、150 mM NaCl和200 mM NaCl。土壤样品电导率(EC)为0.91dS/m。每盆播种6粒种子，深3cm。本试验共使用45盆。每个品种的性能评估是基于其发芽率,发芽,没有。对于树枝/植物，没有。叶子/植物，没有。花/株数，株高(cm)，无。豆荚/植物，豆荚长度(厘米)，种子/豆荚，根长度(厘米)。从试验结果可以推断，BINA大豆2号品种在0 mM、50 mM和100 mM NaCl处理下，各项指标均优于其他品种。这项研究提供了明确的证据，表明大豆，特别是BINA大豆2号品种，作为一种适合沿海地区的作物具有重要的前景。此外，研究还表明，在这些地区种植大豆可能会提高农业生产率，特别是在轻度盐水条件下。然而，它在盐度升高的环境中表现出有限的生长潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Plant Stress Physiology

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