Intraspecific variation in responses to extreme and moderate temperature stress in the wild species, Solanum carolinense (Solanaceae)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Emma K Chandler, Steven E Travers
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Abstract

Adaptation or acclimation to local temperature regimes has often been used as a proxy for predicting how plant populations will respond to impending novel conditions driven by human-caused climate change. To understand how plants may successfully respond to increasing air temperatures (extreme and moderate) in the future, we explored how temperature tolerance traits differ in populations of Solanum carolinense from northern (MN) and southern (TX) regions of the continental United States in a two-experiment study. In the first experiment, we compared the heat and cold tolerance in vegetative (sporophyte) and reproductive (male gametophyte) traits. In the second experiment, we studied if long-term heat influences plant development by examining how development in moderate heat affected reproductive structures and reproductive success. We found that temperature-sensitivity differed between southern populations, which regularly experience extreme heat, and northern populations that do not. In contrast to our expectations, northern populations appeared more heat-tolerant than southern populations for vegetative traits such as chlorophyll stability and reproductive traits such as pollen germination. Our results are consistent with a heat-avoidance, rather than tolerance mechanism to mitigate extreme heat during pollen germination. In the second experiment, plants developing under the moderate heat treatment had significantly smaller reproductive structures and reduced seed production (27% fewer seeds on average than in the control treatment). Reproductive structures that developed in moderate heat were also reduced in size, particularly in the northern populations relative to populations from the south. We conclude that rising temperatures have the potential to incur substantial negative consequences for the reproductive success of individuals in this species and that some populations already mitigate stressful temperature conditions through phenotypic plasticity.
野生种茄科植物对极端和温和温度胁迫反应的种内差异
对当地温度机制的适应或驯化经常被用来预测植物种群将如何应对人类造成的气候变化所导致的即将到来的新情况。为了了解植物如何成功应对未来气温的升高(极端温度和中等温度),我们通过两项实验研究,探讨了美国大陆北部(明尼苏达州)和南部(德克萨斯州)茄属植物种群对温度的耐受性有何不同。在第一个实验中,我们比较了无性系(孢子体)和生殖系(雄配子体)的耐热性和耐寒性。在第二个实验中,我们研究了长期高温是否会影响植物的生长发育,方法是考察中度高温下的生长发育如何影响生殖结构和生殖成功率。我们发现,经常经历极端高温的南方种群和不经历极端高温的北方种群对温度的敏感性不同。与我们的预期相反,北方种群在叶绿素稳定性等无性性状和花粉萌发等生殖性状方面似乎比南方种群更耐热。我们的结果与花粉萌发过程中缓解极端高温的避热机制而非耐热机制是一致的。在第二个实验中,在中度高温处理下发育的植株的生殖结构明显较小,种子产量也有所减少(与对照处理相比,种子平均减少 27%)。在中度高温下发育的生殖结构也缩小了,尤其是北方种群与南方种群相比。我们的结论是,气温升高有可能对该物种个体的繁殖成功率造成严重的负面影响,而且一些种群已经通过表型可塑性缓解了恶劣的温度条件。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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