Dry storage alters intraspecific variation in phenotypic traits at early life stages: evidence from a dominant alpine meadow species

IF 2.1 3区 生物学 Q2 PLANT SCIENCES Seed Science Research Pub Date : 2024-02-01 DOI:10.1017/s0960258523000223
Dali Chen, Haiying Yuan, Jinglong Bao, Xiaohua Zhao, Xiuzhen Fu, Xiaowen Hu
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Abstract

The intraspecific variations of phenotypic traits in the early life stages, such as seed germination and seedling establishment, are important components affecting species adaptation and differentiation. As one of the most common ways in which seeds are maintained, dry storage usually affects these traits, by either increasing or decreasing variation among populations. However, little is known about how the interaction between dry storage and population variation of a species affects the performance and adaptability of early life-cycle traits. In this study, we conducted experiments with seeds from ten populations of Elymus nutans along an altitudinal gradient on the eastern Qinghai-Tibet Plateau. Fresh seeds and seeds stored dry for 6 months were used to quantify the temperature thresholds for germination, determine seedling emergence and survival in two common gardens and examine the correlation between these traits and environmental conditions of population provenance. Dry storage increased germination percentage, germination speed and seedling emergence, and decreased intraspecific variation in germination traits of seeds (reduced by 33.36, 52.05 and 20.45% for Tb, θT(50) and σθT, respectively). Dry storage had little effect on the intraspecific variation of seedling emergence and survival. In addition, the temperature threshold for germination cannot be used to predict seedling emergence and survival in either common garden, regardless of whether seeds were stored or not. These results indicated that it is feasible to use dry-stored seeds to evaluate and select suitable provenances in ecological restoration, and using dry-stored seeds in ecological restoration projects is expected to achieve better vegetation restoration results than fresh seeds. On the other hand, the status of seeds (fresh vs. dry stored) should be considered in an evaluation of the adaptive value of plant functional traits, especially in the early life stages, otherwise, inconsistent conclusions may be drawn.

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干燥储藏会改变生命早期阶段表型特征的种内变异:来自高山草甸优势物种的证据
种子萌发和育苗等生命早期阶段表型特征的种内差异是影响物种适应和分化的重要因素。作为种子最常见的保存方式之一,干藏通常会通过增加或减少种群间的差异来影响这些性状。然而,人们对干燥贮藏与物种种群变异之间的相互作用如何影响早期生命周期性状的表现和适应性知之甚少。在这项研究中,我们对青藏高原东部海拔梯度上的十个岚草种群的种子进行了实验。我们用新鲜种子和干藏6个月的种子量化了萌发的温度阈值,测定了两个常见园地的出苗率和存活率,并研究了这些性状与种群来源环境条件之间的相关性。干藏提高了种子的发芽率、发芽速度和出苗率,减少了种子发芽性状的种内变异(Tb、θT(50)和σθT分别减少了33.36%、52.05%和20.45%)。干藏对出苗率和成活率的种内差异影响很小。此外,无论种子是否贮藏,萌发的温度阈值都不能用来预测两种普通园林植物的出苗率和存活率。这些结果表明,在生态恢复中使用干藏种子来评估和选择合适的产地是可行的,在生态恢复项目中使用干藏种子有望取得比新鲜种子更好的植被恢复效果。另一方面,在评估植物功能特性的适应价值时,应考虑种子的状态(新鲜种子与干藏种子),尤其是在生命早期阶段,否则可能会得出不一致的结论。
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来源期刊
Seed Science Research
Seed Science Research 生物-植物科学
CiteScore
3.60
自引率
4.80%
发文量
23
审稿时长
>12 weeks
期刊介绍: Seed Science Research, the official journal of the International Society for Seed Science, is a leading international journal featuring high-quality original papers and review articles on the fundamental aspects of seed science, reviewed by internationally distinguished editors. The emphasis is on the physiology, biochemistry, molecular biology and ecology of seeds.
期刊最新文献
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