Experimental evolution reveals that males evolving within warmer thermal regimes improve reproductive performance under heatwave conditions in a model insect.

IF 2.1 3区 生物学 Q3 ECOLOGY
Kris Sales, M J G Gage, R Vasudeva
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Abstract

Climate change is increasing mean temperatures, and intensifying heatwaves. Natural populations may respond to stress through shorter-term acclimation via plasticity and/or longer-term inter-generational evolution. However, if the pace and/or extent of thermal change is too great, local extinctions occur; one potential cause in ectotherms is identified to be the heat-liability of male reproductive biology. Recent data from several species, including the beetle Tribolium castaneum, confirmed that male reproductive biology is vulnerable to heatwaves, which may constrain populations. However, such reproductive-damage may be overestimated, if there is potential to adapt to elevated mean temperatures associated with climate change via evolution and/or acclimation. Here, we tested this to evaluate whether pre-exposures could improve heatwave tolerance (adaptation or acclimation), by experimentally evolving Tribolium castaneum populations to divergent thermal regimes (30 °C vs. 38 °C). Findings across assays revealed that relative to 30 °C-regime males, males from the 38 °C regime, maintained constantly at 8 °C warmer for 25 generations, displayed an increase; (i) in post heatwave (42 °C) reproductive fitness by 55%, (ii) survival by 33%, and (iii) 32% larger testes volumes. Unexpectedly, in the acclimation assay, warm-adapted males' post-heatwave survival and reproduction were best if they experienced cool developmental acclimation beforehand, suggesting a cost to adapting to 38 °C. These results help progress knowledge of the potential for survival and reproduction to adapt to climate change; trait specific adaptation to divergent thermal regimes can occur over relatively few generations, but this capacity depended on the interaction of evolutionary and thermal acclimatory processes.

实验进化揭示,在一种模式昆虫中,在较温暖的热环境中进化的雄性个体在热浪条件下的繁殖性能会提高。
气候变化导致平均气温升高,热浪加剧。自然种群可通过可塑性和/或较长期的代际进化进行短期适应,以应对压力。然而,如果热变化的速度和/或程度过快,就会造成局部灭绝;外温动物的一个潜在原因被认为是雄性生殖生物学的耐热性。包括甲虫 Tribolium castaneum 在内的几个物种的最新数据证实,雄性生殖生物学易受热浪影响,这可能会限制种群数量。然而,如果存在通过进化和/或适应来适应与气候变化相关的平均温度升高的潜力,这种生殖损伤可能会被高估。在此,我们通过实验将蓖麻种群进化到不同的热制度(30°C 与 38°C),以评估预暴露是否能提高对热浪的耐受性(适应或驯化)。各种试验结果表明,与 30°C 体系的雄性相比,38°C 体系的雄性在温度持续保持在 8°C 的情况下经过 25 代后,i)热浪(42°C)后的繁殖能力提高了 55%,ii)存活率提高了 33%,iii)睾丸体积增大了 32%。出乎意料的是,在适应性试验中,如果事先经历了低温发育适应,则热浪后适应性强的雄性存活率和繁殖力最好,这表明适应38°C需要付出代价。这些结果有助于进一步了解存活和繁殖适应气候变化的潜力;在相对较少的几代人的时间里就能出现对不同热制度的特异性适应,但这种能力取决于进化和热适应过程的相互作用。
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
Journal of Evolutionary Biology
Journal of Evolutionary Biology 生物-进化生物学
CiteScore
4.20
自引率
4.80%
发文量
152
审稿时长
3-6 weeks
期刊介绍: It covers both micro- and macro-evolution of all types of organisms. The aim of the Journal is to integrate perspectives across molecular and microbial evolution, behaviour, genetics, ecology, life histories, development, palaeontology, systematics and morphology.
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