评估生态恢复中百慕大草(Cynodon dactylon)的种质变异和对中性及碱性盐胁迫的耐受阈值

Agronomy Pub Date : 2024-09-05 DOI:10.3390/agronomy14092023
Lisi Tang, Wen Li, Qikun Yu, Zongjiu Sun, Peiying Li
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摘要

百慕大草(Cynodon dactylon)是一种耐盐物种,可在 pH 值高达 9.3 的环境中生存,它在盐和碱胁迫下表现出不同的萌发反应。本研究评估了不同 pH 值的中性盐和碱盐对百慕大草种子萌发的影响。使用中性盐(NaCl: Na2SO4 = 1:1, pH 6.12-7.14)和碱性盐(NaHCO3:Na2CO3 = 1:1, pH 9.62-9.90)对六种百慕大草种质进行了分析。盐浓度范围为 0 至 250 毫摩尔/升,增量为 25 毫摩尔/升。评估参数包括种子发芽率、发芽势、发芽指数、胚根长度、胚珠长度、幼苗重量以及胚根和胚珠长度比。利用线性回归拟合模型计算了各种质的耐盐阈值。通过逐步回归筛选出耐盐性的关键指标,并采用成员函数和判别分析相结合的方法确定了耐盐碱性的等级。结果表明,在中性盐胁迫下,总分随着盐浓度的增加而降低。与中性盐胁迫相比,碱盐胁迫对百慕大草幼苗的伤害更大,在 50 mmol/L 的盐浓度下,百慕大草幼苗的发芽受到抑制。中性盐耐受阈值范围为 31.7 至 207.7 mmol/L,碱性盐耐受阈值范围为 16.9 至 53.3 mmol/L。六种种质对盐和碱胁迫表现出不同的反应。中性盐耐受性的关键指标包括羽叶长度、胚根与羽叶长度比和幼苗重量。耐碱盐胁迫的关键指标是发芽势、胚根长度和幼苗重量,这些指标可用于筛选抗性种质。我们的研究表明,与中性盐相比,碱性盐对种子萌发和幼苗生长的抑制作用更大,pH 值会影响幼苗的根系生长和胚根与胚珠的长度比。这项研究具有重要的生态学意义,它深入揭示了百慕大草在盐碱环境中的适应策略,有助于退化生态系统的恢复和管理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing Germplasm Variation and Tolerance Thresholds of Bermudagrass (Cynodon dactylon) to Neutral and Alkaline Salt Stress in Ecological Restoration
Bermudagrass (Cynodon dactylon), a salt-tolerant species surviving in environments with pH up to 9.3, and it exhibits variable germination responses under salt and alkaline stress. This study evaluates the impact of neutral and alkali salts with varying pH levels on bermudagrass seed germination. Six bermudagrass germplasm accessions were analyzed using neutral (NaCl: Na2SO4 = 1:1, pH 6.12–7.14) and alkali (NaHCO3:Na2CO3 = 1:1, pH 9.62–9.90) salt treatments. Salt concentrations ranged from 0 to 250 mmol/L, with increments of 25 mmol/L. The assessed parameters included seed germination rate, germination potential, germination index, radicle length, plumule length, seedling weight, and radicle and plumule length ratio. The salt tolerance threshold of each germplasm was calculated using a linear regression fitting model. Critical indicators of salt tolerance were selected through stepwise regression, and the salt-alkali tolerance ranking was determined using a combined membership function and discriminant analysis. The results indicated that the total score decreased with increasing salt concentration under neutral salt stress. Alkali salt stress was more damaging to bermudagrass seedlings than neutral salt stress, inhibiting germination at 50 mmol/L. Neutral salt tolerance thresholds ranged from 31.7 to 207.7 mmol/L, while alkaline salt tolerance thresholds ranged from 16.9 to 53.3 mmol/L. The six germplasm accessions exhibited different responses to salt and alkali stress. Key indicators for neutral salt tolerance included plumule length, radicle and plumule length ratio, and seedling weight. For alkali salt tolerance, key indicators were germination potential, radicle length, and seedling weight, which can be used to screen for resistant germplasms. Our study demonstrates that alkaline salts inhibit seed germination and seedling growth more than neutral salts, and pH affects root growth and the radicle-to-plumule length ratio in seedlings. This research has significant ecological implications, providing insights into the adaptation strategies of bermudagrass in salt-affected and alkaline environments, which could aid in the restoration and management of degraded ecosystems.
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