姬蛙蜥腹部和背部鳞片的脱钩进化:腹龙骨与树栖性有关。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-07-03 DOI:10.1098/rsbl.2024.0171
Michael L Yuan, Erin P Westeen
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引用次数: 0

摘要

树栖性在所有主要脊椎动物种系中都得到了进化,而且往往与形态适应性和进入新的生态位空间同时增加的多样化有关。在有鳞类爬行动物中,足、爪和尾的形态是经过深入研究的适应性特征,这些特征被证明与向树栖性的过渡有关。在这里,我们研究了一个较少被人了解的特征--龙骨状鳞片--与微生境、气候和蜥蜴类(Agamidae)多样化动态的关系。我们发现,姬蛙科的祖先具有龙骨状的背鳞,但没有腹鳞;此外,背鳞和腹鳞在进化过程中是分离的。腹龙骨状鳞片的反复进化与树栖性有关,可能有利于减少磨损或促进攀爬时的交错。我们没有发现龙骨状鳞片与多样化之间的关系,这表明龙骨状鳞片不允许在其他树栖相关特征中观察到的更精细的微生境划分。此外,我们还在陆生物种中发现了龙骨状腹鳞与降水之间的关系,我们认为龙骨状腹鳞可能具有减少鳞片退化的功能。我们的研究结果表明,龙骨状腹鳞促进了锹形目蜥蜴向树栖过渡,并强调了未来研究的必要性,即探讨龙骨状腹鳞的生物力学功能与微生境和气候的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decoupled evolution of ventral and dorsal scales in agamid lizards: ventral keels are associated with arboreality.

Arboreality has evolved in all major vertebrate lineages and is often associated with morphological adaptations and increased diversification concomitant with accessing novel niche space. In squamate reptiles, foot, claw, and tail morphology are well-studied adaptations shown to be associated with transitions to arboreality. Here, we examined a less well understood trait-the keeled scale-in relation to microhabitat, climate, and diversification dynamics across a diverse lizard radiation, Agamidae. We found that the ancestral agamid had keeled dorsal but not ventral scales; further, dorsal and ventral keels are evolutionarily decoupled. Ventral keeled scales evolved repeatedly in association with arboreality and may be advantageous in reducing wear or by promoting interlocking when climbing. We did not find an association between keeled scales and diversification, suggesting keels do not allow finer-scale microhabitat partitioning observed in other arboreal-associated traits. We additionally found a relationship between keeled ventral scales and precipitation in terrestrial species where we posit that the keels may function to reduce scale degradation. Our results suggest that keeled ventral scales facilitated transitions to arboreality across agamid lizards, and highlight a need for future studies that explore their biomechanical function in relation to microhabitat and climate.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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