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晚成性哺乳动物体温调节能力的胎后发育 被引量:8

Postnatal Development of Thermoregulation in Altricial Mammals
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摘要 按照体温调节能力的发育情况,哺乳动物的生长发育可分为早成性、晚成性和未成熟性3类。本文主要综述了晚成性哺乳动物体温调节能力的发育特点。这类动物的幼体出生时一般身体裸露,热传导率较高,产热能力较差,不能进行有效的体温调节。当环境温度低于热中性区时,单独的个体不能维持较高的恒定体温。但晚成性幼体也具有一定的体温调节能力,当受低温刺激时,即使新生幼体也会具有增加代谢率的反应;同时结合亲体关怀和幼体之间的聚群效应以及巢的保温作用等方式,仍能使其体温维持在一个较高的水平。晚成性幼体生理性产热的不足,也可看作是一种有利的特点,这样可以减少能量在体温调节方面的消耗,从而增加用于生长发育的能量。文章最后对可能的发展方向进行了展望。 Mammalian neonates can be divided into three categories, namely precocial, altricial, and immature, mainly according to their establishment of successful thermoregulation. The altricial mammals are often born naked with poor insulation and weak thermogenic abilities. So they cannot thermoregulate efficiently in their early lives. When ambient temperature falls below the thermal neutral zone, isolated young cannot maintain high constant body temperatures. However, the newborns can increase thermogenesis when cold exposed, which is different from poikilotherms. The altricial mammals often show careful parental care and the young can huddle together to prevent heat loss. Thus, even newborns can maintain their body temperatures at a relatively high level in the nest. The deficiency of physiological heat production in the early stages of altricial mammals can be regarded as advantageous for development because it can promote growth and development by decreasing the energy allocation to thermoregulation. Finally the possible research trends of this field are proposed.
作者 迟庆生 王德华
机构地区 中国科学院动物研究所农业虫害鼠害综合治理研究国家重点实验室
出处 《动物学杂志》 CAS CSCD 北大核心 2005年第6期137-143,共7页 Chinese Journal of Zoology
基金 国家自然科学基金(No.30430140 30470279)
关键词 晚成性 发育 体温调节 聚群 褐色脂肪组织 Altricial Development Thermoregulation Huddling Brown adipose tissue(BAT)
分类号 Q413 [生物学—生理学]
  • 相关文献

参考文献53

  • 1迟庆生.[D].中国科学院动物研究所,2005.
  • 2Leon M. Development of thermoregulation. In : Blass E M ed.Handbook of Behavioral Neurobiology. vol. 8. New York:Plenum Press, 1986, 97 - 322.
  • 3王培潮 钱国桢 陆厚基 盛贺林 祝龙彪 赵实.温度与聚群对三种仔兽能量代谢的影响[J].兽类学报,1985,5(3):211-221.
  • 4Hill R W. The altricial/precocial contrast in the thermal relation and energetics of mammals. In : Tomasi T E, Horton T H eds. Mammalian Energetics. New York: Cornell Univ Press, 1992, 122-159.
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  • 7Bruck K, Hinckel P. Ontogenetic and adaptive adjustments in the thermoregulatory system. In: Fregly M J, Blatteis C M eds. Handbook of Physiology. Oxford: Oxford Press, 1996,597 - 611.
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二级参考文献3

  • 1景绍亮,生态学报,1982年,2卷,189页
  • 2Gerhard Heldmaier,Astrid Buchberger. Sources of heat during nonshivering thermogenesis in Djungarian hamsters: a dominant role of brown adipose tissue during cold adaptation[J] 1985,Journal of Comparative Physiology B(2):237~245
  • 3G. Robert Lynch. Seasonal changes in thermogenesis, organ weights, and body composition in the white-footed mouse,Peromyscus leucopus[J] 1973,Oecologia(4):363~376

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动物学杂志
2005年 第6期

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