生物大分子化石揭示祖先恐龙的禽类新陈代谢-小柯机器人-科学网

生物大分子化石揭示祖先恐龙的禽类新陈代谢

2022-05-29 15:36

美国耶鲁大学Jasmina Wiemann等研究人员揭示恐龙祖先的禽类新陈代谢。相关论文于2022年5月25日在线发表在《自然》杂志上。

研究人员使用原位拉曼和傅里叶变换红外光谱来量化现代和化石羊膜动物骨骼中代谢脂质氧化信号的体内积累。研究人员观察到大气中的氧气浓度和代谢率之间没有关联。推断的祖先状态显示，与内温性相一致的代谢率在哺乳动物和蛇颈龙类中独立演化，并且是鸟类的祖先，其代谢率沿着禽类谱系不断增加。翼龙类、鸟臀目恐龙、蜥脚类亚目类和兽脚亚目类的高代谢率是在高能量代价的适应性出现之前获得的，如鸟类的飞行。尽管它们祖先有较高的代谢率，但鸟脚亚目动物降低了它们的代谢能力，以达到外温性。

这种外温动物的生理活动依赖于环境和行为的温度调节，与内温动物的积极生活方式形成鲜明对比。巨大的蜥脚类动物和兽脚亚目动物不是巨温性动物，而是真正的内温动物。除了某些哺乳动物和鸟类外，许多晚白垩世分类群的内温性表明，在白垩纪末期大灭绝期间，新陈代谢以外的属性决定了它们的命运。

据悉，鸟类和哺乳动物独立地进化出了现存动物中最高的新陈代谢率。它们的新陈代谢产生的热量使它们能够主动进行体温调节，塑造了它们可以占据的生态位和对环境变化的适应性。鸟类的新陈代谢性能超过了哺乳动物，被认为是沿着它们的主干谱系演化而来的。然而，没有任何替代物能够从化石中直接重建新陈代谢率。

附：英文原文

Title: Fossil biomolecules reveal an avian metabolism in the ancestral dinosaur

Author: Wiemann, Jasmina, Menndez, Iris, Crawford, Jason M., Fabbri, Matteo, Gauthier, Jacques A., Hull, Pincelli M., Norell, Mark A., Briggs, Derek E. G.

Issue&Volume: 2022-05-25

Abstract: Birds and mammals independently evolved the highest metabolic rates among living animals1. Their metabolism generates heat that enables active thermoregulation1, shaping the ecological niches they can occupy and their adaptability to environmental change2. The metabolic performance of birds, which exceeds that of mammals, is thought to have evolved along their stem lineage3,4,5,6,7,8,9,10. However, there is no proxy that enables the direct reconstruction of metabolic rates from fossils. Here we use in situ Raman and Fourier-transform infrared spectroscopy to quantify the in vivo accumulation of metabolic lipoxidation signals in modern and fossil amniote bones. We observe no correlation between atmospheric oxygen concentrations11 and metabolic rates. Inferred ancestral states reveal that the metabolic rates consistent with endothermy evolved independently in mammals and plesiosaurs, and are ancestral to ornithodirans, with increasing rates along the avian lineage. High metabolic rates were acquired in pterosaurs, ornithischians, sauropods and theropods well before the advent of energetically costly adaptations, such as flight in birds. Although they had higher metabolic rates ancestrally, ornithischians reduced their metabolic abilities towards ectothermy. The physiological activities of such ectotherms were dependent on environmental and behavioural thermoregulation12, in contrast to the active lifestyles of endotherms1. Giant sauropods and theropods were not gigantothermic9,10, but true endotherms. Endothermy in many Late Cretaceous taxa, in addition to crown mammals and birds, suggests that attributes other than metabolism determined their fate during the terminal Cretaceous mass extinction.

DOI: 10.1038/s41586-022-04770-6

Source: https://www.nature.com/articles/s41586-022-04770-6

Nature：《自然》，创刊于1869年。隶属于施普林格·自然出版集团，最新IF：69.504
官方网址：http://www.nature.com/
投稿链接：http://www.nature.com/authors/submit_manuscript.html

本期文章：《自然》：Online/在线发表

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