复合异时性塑造了蝾螈跨适应区域的视觉系统。

IF 3.5
Proceedings. Biological sciences Pub Date : 2025-09-01 Epub Date: 2025-09-24 DOI:10.1098/rspb.2025.0910
Ronald M Bonett, Emily L Bierbaum, Alexander J Hess, Samantha D Trame, Campbell W Eckhardt, Madison A Herrboldt, Carissa N McGouran, Andrew D Kolozsvary, Sydney Sowell, Ann Marie Flusche, Rhiannon McGlone
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引用次数: 0

摘要

在不同的环境之间转换会带来新的物理挑战,而变形可以提供解决方案。大多数两栖动物的生命周期涉及水生到陆地的过渡和伴随的变态,但发育时间的变化(异时性)也产生了各种各样的水生和陆地形式。甲状腺激素(TH)信号可以控制组织转化的时间,可能是一些变质性状发育和多样化之间关系的关键机制。在这里,我们表明,通过异时性的生命周期模式和洞穴适应(troglomorphy)主要解释了蝾螈眼睛和视网膜的变异。在组织(器官/组织)的各个层面上,异时性导致幼虫形式的幼体视觉系统的一系列减少,失去了变态。这种模式在随后过渡到地下环境并进化出troglomerorphic特征的幼体形态谱系中更为复杂。根据哈勒规则,视觉系统投资在个体发育过程中下降,但在幼体发育中下降速度更快,在巨球发育中甚至更快(就眼睛大小而言)。甲状腺激素通常在变态时增加眼睛的大小;然而,我们表明,反应性在幼体中降低,而在巨肾小球中丧失或逆转。蝾螈视觉系统的变化是一个例子,说明当物种进入更多样化的环境时,激素介导的转化如何改变发育轨迹和复合表型修饰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Compounding heterochrony shapes the salamander visual system across adaptive zones.

Transitioning between disparate environments presents new physical challenges, and metamorphosis can provide solutions. The life cycles of most amphibians involve an aquatic-to-terrestrial transition and concomitant metamorphosis, but shifts in developmental timing (heterochrony) have also produced a wide variety of aquatic-only and terrestrial-only forms. Thyroid hormone (TH) signalling can govern the timing of tissue transformation and may be a key mechanism behind the relationship between development and diversification of some metamorphic traits. Here, we show that life cycle mode and cave adaptation (troglomorphy) through heterochrony primarily explain variation in salamander eyes and retina. Across levels of organization (organ/tissue), heterochrony led to serial reductions in the visual system of larval-form paedomorphs that lost metamorphosis. This pattern is compounded in larval-form paedomorphic lineages that subsequently transitioned to subterranean environments and evolved troglomorphic traits. Following Haller's Rule, visual system investment declines across ontogeny but at a faster rate in paedomorphs and even faster (for eye size) in troglomorphs. Thyroid hormone typically increases eye size during metamorphosis; however, we show that responsiveness is reduced in paedomorphs and lost or reversed in troglomorphs. Salamander visual system variation is an example of how alterations to hormone-mediated transformation can shift developmental trajectories and compound phenotypic modifications as species move into more divergent environments.

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