Evolutionary transition from surface to subterranean living in Australian water beetles (Coleoptera: Dytiscidae) through adaptive and relaxed selection

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Yuxuan Zhao, Michelle T Guzik, William F Humphreys, Christopher H S Watts, Steven J B Cooper, Emma Sherratt
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Abstract

Abstract Over the last 5 million years, numerous species of Australian stygobiotic (subterranean and aquatic) beetles have evolved underground following independent colonization of aquifers by surface ancestors, providing a set of repeated evolutionary transitions from surface to subterranean life. We used this system as an ‘evolutionary experiment’ to investigate whether relaxed selection has provided a source of variability for adaptive radiations into ecosystems containing open niches and whether this variability underpins phenotypic evolution in cave animals. Linear and landmark-based measurements were used to quantify the morphology of subterranean species from different aquifers, compared to interstitial and closely related aquatic surface species. Subterranean dytiscids were observed to be morphologically distinct, suggesting they have a different lifestyle compared to their surface relatives. However, variation in the measured traits was much greater in the subterranean species, and unstructured, showing no evidence of clustering that would indicate adaptation to specific niches. Furthermore, a previously identified pattern of repeated nonoverlapping size variation in beetles across aquifers was not correlated with repeated body shape evolution. The observed variability across body shape and limb traits provides support for the hypothesis that relaxed selection and neutral evolution underlie the phenotypic evolution in these species.
澳大利亚水甲虫(鞘翅目:瓢虫科)通过适应和放松选择从地表生活到地下生活的进化转变
在过去的500万年里,许多种类的澳大利亚茎生(地下和水生)甲虫在地表祖先独立定居含水层后在地下进化,提供了一系列从地表到地下生命的重复进化过渡。我们使用这个系统作为一个“进化实验”来研究放松选择是否为包含开放生态位的生态系统的适应性辐射提供了变异性的来源,以及这种变异性是否支持洞穴动物的表型进化。采用线性和基于地标的测量来量化来自不同含水层的地下物种的形态,并与间隙和密切相关的水面水生物种进行比较。地下dytiscids被观察到在形态上是不同的,这表明它们与地表近亲相比有不同的生活方式。然而,在地下物种中,测量到的性状变化要大得多,而且是非结构化的,没有证据表明聚类可以表明对特定生态位的适应。此外,以前发现的甲虫跨含水层的重复的不重叠的大小变化模式与重复的体型进化无关。观察到的体型和肢体特征的差异为这些物种的表型进化提供了宽松选择和中性进化的假设。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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