Adaptive responses of the embryos of birds and reptiles to spatial and temporal variations in nest temperatures

W. Du, R. Shine, Liang Ma, Bao‐jun Sun
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引用次数: 26

Abstract

Natural nests of egg-laying birds and reptiles exhibit substantial thermal variation, at a range of spatial and temporal scales. Rates and trajectories of embryonic development are highly sensitive to temperature, favouring an ability of embryos to respond adaptively (i.e. match their developmental biology to local thermal regimes). Spatially, thermal variation can be significant within a single nest (top to bottom), among adjacent nests (as a function of shading, nest depth etc.), across populations that inhabit areas with different weather conditions, and across species that differ in climates occupied and/or nest characteristics. Thermal regimes also vary temporally, in ways that generate differences among nests within a single population (e.g. due to seasonal timing of laying), among populations and across species. Anthropogenic activities (e.g. habitat clearing, climate change) add to this spatial and temporal diversity in thermal regimes. We review published literature on embryonic adaptations to spatio-temporal heterogeneity in nest temperatures. Although relatively few taxa have been studied in detail, and proximate mechanisms remain unclear, our review identifies many cases in which natural selection appears to have fine-tuned embryogenesis to match local thermal regimes. Developmental rates have been reported to differ between uppermost versus lower eggs within a single nest, between eggs laid early versus late in the season, and between populations from cooler versus warmer climates. We identify gaps in our understanding of thermal adaptations of early (embryonic) phases of the life history, and suggest fruitful opportunities for future research.
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鸟类和爬行动物胚胎对巢温时空变化的适应性反应
产蛋鸟类和爬行动物的天然巢穴在一定的时空尺度上表现出明显的热变化。胚胎发育的速率和轨迹对温度高度敏感,有利于胚胎的适应性反应能力(即使其发育生物学与当地的热制度相匹配)。在空间上,单个巢内(从上到下)、相邻巢之间(作为遮阳、巢深等的函数)、居住在不同天气条件地区的种群之间、以及在气候和/或巢特征上不同的物种之间的热变化可能是显著的。热状态也随时间而变化,在单个种群内(例如,由于产卵的季节性时间)、种群间和物种间的巢穴之间产生差异。人为活动(如栖息地清理、气候变化)增加了这种热状态的时空多样性。我们回顾了已发表的关于胚胎适应巢温度时空异质性的文献。尽管对相对较少的分类群进行了详细的研究,并且其近似机制尚不清楚,但我们的综述确定了许多自然选择似乎对胚胎发生进行了微调以匹配当地的热制度的情况。据报道,在一个巢穴中,最上面的蛋与最下面的蛋之间的发育率不同,在季节早期和晚期产卵之间的发育率不同,以及在寒冷和温暖气候下的种群之间的发育率不同。我们发现了我们对生命早期(胚胎)阶段的热适应的理解上的差距,并为未来的研究提出了富有成效的机会。
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