Salinity tolerance in tomato genotypes at an early plant growth stage: Morphological and physiological responses

S. Choudhury, Shahjahan Ali, Md. Rezwan Sarker, Nazrul Islam
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Abstract

Salinity is a significant factor restricting plant development at various stages, resulting in lower yield and productivity. The current study was carried out to investigate and assess the tolerance of several tomato genotypes to salty conditions. Thirty (30) tomato genotypes were cultivated in pots and tested for salinity at three levels: 5 ds/m NaCl, 10 ds/m NaCl, and 15 ds/m NaCl, in comparison to the control (0 mM NaCl). Two weeks after treatment, several morphological and physiological parameters were measured. The effects of salt stress on tomato genotypes included a considerable reduction in leaf area, chlorophyll content, shoot and root length, shoot and root biomass, and relative water content. Different tomato genotypes responded differently to salinity severity score (SSS). Reduction of shoot dry weight (0.27 to 0.44) and leaf area (0.33 to 0.45) were positively correlated with SSS at moderate (10 ds/m) to higher (15 ds/m) salinity levels, respectively. Based on the experiment results, the genotypes BARI Tomato 4, BARI Tomato 14, BARI Tomato 15, SAU Tomato 2, AV0T0 1228, and NS 501 were found to be more salinity tolerant than other genotypes. The results showed that measuring shoot length, leaf area, and shoot fresh and dry weight was better for evaluating salinity stress and screening salt-tolerant tomato genotypes.
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植物生长早期番茄基因型的耐盐性:形态和生理反应
盐分是限制植物各阶段生长发育的一个重要因素,会导致产量和生产率降低。本研究旨在调查和评估几种番茄基因型对盐分条件的耐受性。盆栽番茄基因型有三十(30)种,与对照(0 mM NaCl)相比,测试了三种水平的盐度:5 ds/m NaCl、10 ds/m NaCl 和 15 ds/m NaCl。处理两周后,测量了一些形态和生理参数。盐胁迫对番茄基因型的影响包括叶面积、叶绿素含量、芽和根的长度、芽和根的生物量以及相对含水量显著减少。不同番茄基因型对盐胁迫严重程度评分(SSS)的反应不同。在中等(10 ds/m)到较高(15 ds/m)的盐度水平下,芽干重(0.27 到 0.44)和叶面积(0.33 到 0.45)的减少分别与 SSS 呈正相关。根据试验结果,发现基因型 BARI 番茄 4 号、BARI 番茄 14 号、BARI 番茄 15 号、SAU 番茄 2 号、AV0T0 1228 和 NS 501 比其他基因型更耐盐碱。结果表明,测量芽长、叶面积、芽的鲜重和干重更有利于评估盐胁迫和筛选耐盐番茄基因型。
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