The evolutionary history and ancestral biogeographic range estimation of old-world Rhinolophidae and Hipposideridae (Chiroptera).

Ada Chornelia, Alice Catherine Hughes
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引用次数: 2

Abstract

Background: Family Rhinolophidae (horseshoe bats), Hipposideridae (leaf-nosed bats) and Rhinonycteridae (trident bats) are exclusively distributed in the Old-World, and their biogeography reflects the complex historic geological events throughout the Cenozoic. Here we investigated the origin of these families and unravel the conflicting family origin theories using a high resolution tree covering taxa from each zoogeographic realm from Africa to Australia. Ancestral range estimations were performed using a probabilistic approach implemented in BioGeoBEARS with subset analysis per biogeographic range [Old-World as whole, Australia-Oriental-Oceania (AOO) and Afrotropical-Madagascar-Palearctic (AMP)].

Result: Our result supports an Oriental origin for Rhinolophidae, whereas Hipposideridae originated from the Oriental and African regions in concordance with fossil evidence of both families. The fossil evidence indicates that Hipposideridae has diversified across Eurasia and the Afro-Arabian region since the Middle Eocene. Meanwhile, Rhinonycteridae (the sister family of Hipposideridae) appears to have originated from the Africa region splitting from the common ancestor with Hipposideridae in Africa. Indomalaya is the center of origin of Rhinolophidae AOO lineages, and Indomalayan + Philippines appears to be center of origin of Hipposideridae AOO lineage indicating allopatric speciation and may have involved jump-dispersal (founder-event) speciation within AOO lineage. Wallacea and the Philippines may have been used as stepping stones for dispersal towards Oceania and Australia from the Oriental region. Multiple colonization events via different routes may have occurred in the Philippines (i.e., Palawan and Wallacea) since the Late Miocene. The colonization of Rhinolophidae towards Africa from Asia coincided with the estimated time of Tethys Ocean closure around the Oligocene to Miocene (around 27 Ma), allowing species to disperse via the Arabian Peninsula. Additionally, the number of potential cryptic species in Rhinolophidae in Southeast Asia may have increased since Plio-Pleistocene and late Miocene.

Conclusion: Overall, we conclude an Oriental origin for Rhinolophidae, and Oriental + African for Hipposideridae. The result demonstrates that complex historical events, in addition to species specific ecomorphology and specialization of ecological niches may shape current distributions.

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旧大陆鼻蝇科和翼翅目河马科的进化历史和祖先生物地理范围的估计。
背景:Rhinolophidae科(马蹄蝠)、Hipposideridae科(叶鼻蝠)和Rhinonycteridae科(三叉戟蝙蝠)仅分布于旧大陆,其生物地理反映了整个新生代复杂的历史地质事件。在这里,我们调查了这些科的起源,并利用覆盖从非洲到澳大利亚的每个动物地理领域的分类群的高分辨率树来解开相互矛盾的科起源理论。祖先范围估算使用了在biogeobars中实现的概率方法,并对每个生物地理范围进行了子集分析[整个旧世界,澳大利亚-东方-大洋洲(AOO)和非洲热带-马达加斯加-古北(AMP)]。结果:我们的研究结果支持犀牛科起源于东方,而河马科起源于东方和非洲地区,这与两个科的化石证据一致。化石证据表明,自始新世中期以来,河马科在欧亚大陆和非洲-阿拉伯地区已经多样化。与此同时,Rhinonycteridae (Hipposideridae的姐妹科)似乎起源于非洲地区,从非洲的河马科共同祖先中分离出来。Indomalaya是Rhinolophidae AOO谱系的起源中心,Indomalaya +菲律宾似乎是Hipposideridae AOO谱系的起源中心,表明异域物种形成,可能涉及AOO谱系内的跳跃-扩散(创始事件)物种形成。Wallacea和菲律宾可能被用作从东方地区向大洋洲和澳大利亚扩散的垫脚石。自中新世晚期以来,通过不同路线在菲律宾(即巴拉望岛和Wallacea)可能发生了多次殖民事件。犀牛科从亚洲向非洲的殖民化与特提斯洋在渐新世到中新世(约27 Ma)的关闭时间相吻合,这使得物种能够通过阿拉伯半岛分散开来。此外,东南亚犀科潜在的隐种数量可能在上新世至中新世晚期有所增加。结论:总的来说,我们得出了犀牛科的东方起源,而河马科的东方+非洲起源。结果表明,除了物种特有的生态形态和生态位的特化外,复杂的历史事件可能会影响当前的分布。
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