Shelton Delia S, Alberts Jeffrey R
Leibniz Institute for Freshwater Ecology and Inland Fisheries, Berlin, Germany.
Oregon State University, Corvallis, Oregon.
Dev Psychobiol. 2018 Jan;60(1):5-14. doi: 10.1002/dev.21588. Epub 2017 Nov 20.
Body temperature regulation involves the development of responses to cold and warm challenges. Matching our understanding of the development of body temperature regulation to warm challenges with that of cold challenges will enhance our understanding of the ontogeny of thermoregulation and reveal different adaptive specializations. Warm and cold thermoregulation are important processes, and they include direct thermal effects on offspring, as well as indirect effects on them, such as those imposed by thermally associated alterations of maternal behavior. The present paper is a selective review of the existing literature and a report of some new empirical data, aimed at processes of mammalian development, especially those affecting behavior. We briefly discuss the development of body temperature regulation in rats and mice, and thermal aspects of maternal behavior with emphasis on responses to high temperatures. The new data extend previous analyses of individual and group responses in developing rodents to warm and cool ambient temperatures. This literature not only reveals a variety of adaptive specializations during development, but it points to the earlier appearance in young mammals of abilities to combat heat loss, relative to protections from hyperthermia. These relative developmental delays in compensatory defenses to heating appear to render young mammals especially vulnerable to environmental warming. We describe cascading consequences of warming-effects that illustrate interactions across levels of physiological, neural, and behavioral development.
体温调节涉及对寒冷和温暖挑战做出反应的过程。将我们对体温调节应对温暖挑战的发育过程的理解与应对寒冷挑战的理解相匹配,将增进我们对体温调节个体发育的理解,并揭示不同的适应性特化。温暖和寒冷体温调节是重要过程,它们包括对后代的直接热效应,以及对它们的间接效应,例如由母体行为的热相关改变所施加的效应。本文是对现有文献的选择性综述以及一些新实证数据的报告,旨在探讨哺乳动物发育过程,尤其是那些影响行为的过程。我们简要讨论大鼠和小鼠体温调节的发育,以及母体行为的热方面,重点是对高温的反应。新数据扩展了先前对发育中的啮齿动物对温暖和凉爽环境温度的个体和群体反应的分析。这些文献不仅揭示了发育过程中的各种适应性特化,而且指出相对于防止体温过高,幼年哺乳动物对抗热量损失的能力出现得更早。对加热的代偿性防御中这些相对的发育延迟似乎使幼年哺乳动物特别容易受到环境变暖的影响。我们描述了变暖效应的级联后果,这些后果说明了生理、神经和行为发育水平之间的相互作用。