解小型化龟体型、生活史与个体发生之相关演化

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2021-05-26 DOI:10.1111/ede.12386
Gerardo A. Cordero
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引用次数: 7

摘要

有机体小型化的定义是相对于体型较大的祖先体型的缩小。在脊椎动物中,小型化是通过抑制生长的能量来实现的。然而,这可能会干扰卵生物种的生殖策略,因为胚胎生长和分化的能量预算有限。总的来说,小型化在多大程度上与动物发育的变化相一致仍然不清楚。为了解决身体大小,生活史和个体发生之间的相互作用,研究了龟的小型化。分析证实,车颌总分支的小型化是由祖先生长轨迹的抑制所导致的。在发育转化的早期序列中没有相关的变化,尽管在小型化胚胎中器官发生的相对持续时间缩短了。卵、幼鸟和成虫的大小在车梨总科中呈显著正相关。系统发育上更广泛的探索揭示了另一种小型化模式,其中异常大的幼体生长最小,从而达到小的成年尺寸。最后,研究表明,小型化的龟类骨化速度加快,甲壳骨减少约10%。与其他脊椎动物一样,小型化的影响不是全身性的,可能是由于相反的功能需求和组织几何限制。这突出了发展系统的综合和等级性质。
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Disentangling the correlated evolution of body size, life history, and ontogeny in miniaturized chelydroid turtles

Organismal miniaturization is defined by a reduction in body size relative to a large ancestor. In vertebrate animals, miniaturization is achieved by suppressing the energetics of growth. However, this might interfere with reproductive strategies in egg-laying species with limited energy budgets for embryo growth and differentiation. In general, the extent to which miniaturization coincides with alterations in animal development remains obscure. To address the interplay among body size, life history, and ontogeny, miniaturization in chelydroid turtles was examined. The analyses corroborated that miniaturization in the Chelydroidea clade is underlain by a dampening of the ancestral growth trajectory. There were no associated shifts in the early sequence of developmental transformations, though the relative duration of organogenesis was shortened in miniaturized embryos. The size of eggs, hatchlings, and adults was positively correlated within Chelydroidea. A phylogenetically broader exploration revealed an alternative miniaturization mode wherein exceptionally large hatchlings grow minimally and thus attain diminutive adult sizes. Lastly, it is shown that miniaturized Chelydroidea turtles undergo accelerated ossification coupled with a ~10% reduction in shell bones. As in other vertebrates, the effects of miniaturization were not systemic, possibly owing to opposing functional demands and tissue geometric constraints. This underscores the integrated and hierarchical nature of developmental systems.

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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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