Rapid size change associated with intra-island evolutionary radiation in extinct Caribbean "island-shrews".

IF 3.4 Q1 Agricultural and Biological Sciences
Roseina Woods, Samuel T Turvey, Selina Brace, Christopher V McCabe, Love Dalén, Emily J Rayfield, Mark J F Brown, Ian Barnes
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引用次数: 0

Abstract

Background: The Caribbean offers a unique opportunity to study evolutionary dynamics in insular mammals. However, the recent extinction of most Caribbean non-volant mammals has obstructed evolutionary studies, and poor DNA preservation associated with tropical environments means that very few ancient DNA sequences are available for extinct vertebrates known from the region's Holocene subfossil record. The endemic Caribbean eulipotyphlan family Nesophontidae ("island-shrews") became extinct ~ 500 years ago, and the taxonomic validity of many Nesophontes species and their wider evolutionary dynamics remain unclear. Here we use both morphometric and palaeogenomic methods to clarify the status and evolutionary history of Nesophontes species from Hispaniola, the second-largest Caribbean island.

Results: Principal component analysis of 65 Nesophontes mandibles from late Quaternary fossil sites across Hispaniola identified three non-overlapping morphometric clusters, providing statistical support for the existence of three size-differentiated Hispaniolan Nesophontes species. We were also able to extract and sequence ancient DNA from a ~ 750-year-old specimen of Nesophontes zamicrus, the smallest non-volant Caribbean mammal, including a whole-mitochondrial genome and partial nuclear genes. Nesophontes paramicrus (39-47 g) and N. zamicrus (~ 10 g) diverged recently during the Middle Pleistocene (mean estimated divergence = 0.699 Ma), comparable to the youngest species splits in Eulipotyphla and other mammal groups. Pairwise genetic distance values for N. paramicrus and N. zamicrus based on mitochondrial and nuclear genes are low, but fall within the range of comparative pairwise data for extant eulipotyphlan species-pairs.

Conclusions: Our combined morphometric and palaeogenomic analyses provide evidence for multiple co-occurring species and rapid body size evolution in Hispaniolan Nesophontes, in contrast to patterns of genetic and morphometric differentiation seen in Hispaniola's extant non-volant land mammals. Different components of Hispaniola's mammal fauna have therefore exhibited drastically different rates of morphological evolution. Morphological evolution in Nesophontes is also rapid compared to patterns across the Eulipotyphla, and our study provides an important new example of rapid body size change in a small-bodied insular vertebrate lineage. The Caribbean was a hotspot for evolutionary diversification as well as preserving ancient biodiversity, and studying the surviving representatives of its mammal fauna is insufficient to reveal the evolutionary patterns and processes that generated regional diversity.

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已灭绝的加勒比 "岛鼩 "体型的快速变化与岛内进化辐射有关。
背景:加勒比海为研究海岛哺乳动物的进化动态提供了一个独特的机会。然而,大多数加勒比海非濒危哺乳动物最近都已灭绝,这阻碍了进化研究,而且热带环境下的DNA保存不佳意味着该地区全新世亚化石记录中已知的已灭绝脊椎动物的古DNA序列很少。加勒比海特有的雌鼩科("岛鼩")在大约 500 年前灭绝,许多雌鼩物种的分类学有效性及其更广泛的进化动态仍不清楚。在这里,我们使用形态计量学和古基因组学方法来澄清加勒比海第二大岛伊斯帕尼奥拉岛的栉水母物种的地位和进化历史:对来自伊斯帕尼奥拉岛各地第四纪晚期化石遗址的 65 个笛鲷下颌骨进行了主成分分析,发现了三个不重叠的形态群,为伊斯帕尼奥拉岛存在三个体型不同的笛鲷物种提供了统计支持。我们还从加勒比海最小的非流浪哺乳动物 Nesophontes zamicrus 的一个约 750 年前的标本中提取了古 DNA 并对其进行了测序,包括整个线粒体基因组和部分核基因。Nesophontes paramicrus(39-47 克)和 N. zamicrus(约 10 克)最近在中更新世分化(平均估计分化 = 0.699 Ma),与 Eulipotyphla 和其他哺乳动物类群最年轻的物种分化相当。基于线粒体和核基因的N. paramicrus和N. zamicrus的成对遗传距离值较低,但属于现存鞘翅目物种成对比较数据的范围:我们的形态计量学和古基因组学综合分析提供了伊斯帕尼奥拉岛Nesophontes多种共存物种和快速体型演化的证据,这与伊斯帕尼奥拉岛现存非volant陆生哺乳动物的遗传和形态计量学分化模式形成了鲜明对比。因此,伊斯帕尼奥拉岛哺乳动物群的不同组成部分表现出了截然不同的形态进化速度。与整个Eulipotyphla的模式相比,Nesophontes的形态演化也非常迅速,我们的研究提供了一个重要的新实例,说明在一个小体型的海岛脊椎动物谱系中,体型变化非常迅速。加勒比海是进化多样化的热点地区,同时也保存着古老的生物多样性,对其哺乳动物群现存代表的研究不足以揭示产生区域多样性的进化模式和过程。
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
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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