Advanced Mutant Line Developed from Fatemadhan Shows Salinity Tolerance at both Seedling and Reproductive Stages

IF 0.7 Q4 PLANT SCIENCES Plant Science Today Pub Date : 2023-12-14 DOI:10.14719/pst.2917
Tasnia Khatun, Sheikh Mahfuja Khatun, Mumtarin Haque Mim, Jannatul Naim, Sopnil Ahmed Jahin, Mohammad Rashed Hossain, M. El‐Esawi, Mohammad Anwar Hossain
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Abstract

The generation of high-yielding rice mutants and their assessment under salt stress offers a great possibility to isolate salt tolerant line(s) with desired trait of interest. Two separate experiments were conducted at the seedling and reproductive stages of rice to assess the level of salinity tolerance of few advanced high-yielding rice mutants. In the first experiment, rice seedlings were grown under hydroponic conditions and 14-day-old seedlings were subjected to salt stress (EC=10 dS/m; 7 days). Salt stress caused significant reduction in root and shoot length and biomass and leaf chlorophyll content; however, a little reduction was found in the mutant Line-1. In contrast, a sharp increase in shoot Na+/K+ ratio was found in all the genotypes except, Binadhan-10, FL-478 and the mutant Line-1, which exhibited little increased ratio. The second experiment involved exposure of plant to salt stress (EC=10 dS/m) for three weeks at the late booting stage in a sizable plastic tub filled with field soil. Salt stress resulted in a significant decrease in yield and yield attributing traits in all the genotypes except Binadhan-10. Grain yield per panicle was found significantly positive correlation with panicle length, the number of filled grains per panicle, and 100-seed weight under both control and salt stress conditions. Based on the studied traits and stress tolerance indices, Binadhan-10 and mutant Line-1 categorized as salt tolerant and rest of the genotypes were categorized as susceptible, which is also evident from the biplot of principal component analysis. Considering the results from both of the experiments, mutant Line-1 was found tolerant genotype at both seedling and reproductive stage. However, further studies are required to determine the genetic issues controlling the salinity tolerance in mutant Line-1 and the high-yield potential of mutant Line-65 under control condition in a way to develop salt tolerant and high-yielding rice varieties, respectively.
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从 Fatemadhan 培育出的先进突变品系在幼苗和生殖阶段均表现出耐盐性
水稻高产突变体的产生及其在盐胁迫下的评估为分离出具有所需性状的耐盐品系提供了极大的可能性。在水稻的幼苗期和生育期分别进行了两项实验,以评估少数先进的高产水稻突变体的耐盐性水平。在第一项实验中,水稻幼苗在水培条件下生长,14 天大的幼苗受到盐胁迫(EC=10 dS/m;7 天)。盐胁迫导致根和芽的长度、生物量以及叶片叶绿素含量明显减少;然而,在突变体 Line-1 中仅发现少量减少。相反,除了 Binadhan-10、FL-478 和突变株系-1 的 Na+/K+ 比率略有增加外,所有基因型的芽 Na+/K+ 比率都急剧增加。第二项实验是让植物在出苗后期在一个装满田间土壤的大塑料盆中暴露于盐胁迫(EC=10 dS/m)三周。除 Binadhan-10 外,盐胁迫导致所有基因型的产量和产量性状显著下降。在对照和盐胁迫条件下,发现每圆锥花序的谷粒产量与圆锥花序长度、每圆锥花序的饱满谷粒数和 100 粒种子重量呈显著正相关。根据所研究的性状和抗逆性指数,Binadhan-10 和突变体 Line-1 被归类为耐盐基因型,其余基因型被归类为易感基因型,这一点从主成分分析的双图中也可以看出。综合这两项实验的结果,突变株系-1 在幼苗期和生育期都是耐盐基因型。然而,还需要进一步研究控制突变株系-1 耐盐性的遗传问题以及突变株系-65 在控制条件下的高产潜力,以便分别培育出耐盐和高产的水稻品种。
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来源期刊
Plant Science Today
Plant Science Today PLANT SCIENCES-
CiteScore
1.50
自引率
11.10%
发文量
177
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