Department of Biological and Environmental Sciences, University of Gothenburg, Box 461, 40530 Gothenburg, Sweden.
Gothenburg Global Biodiversity Centre, Box 461, 40530 Gothenburg, Sweden.
Proc Biol Sci. 2024 Aug;291(2028):20240473. doi: 10.1098/rspb.2024.0473. Epub 2024 Aug 7.
A central objective of historical biogeography is to understand where clades originated and how they moved across space and over time. However, given the dynamic history of ecosystem changes in response to climate change and geological events, the manifold long-distance dispersals over evolutionary timescales, and regional and global extinctions, it remains uncertain how reliable inferences based solely on extant taxa can be achieved. Using a novel species-level phylogeny of all known extant and extinct species of the mammalian order Carnivora and related extinct groups, we show that far more precise and accurate ancestral areas can be estimated by fully integrating extinct species into the analyses, rather than solely relying on extant species or identifying ancestral areas only based on the geography of the oldest fossils. Through a series of simulations, we further show that this conclusion is robust under realistic scenarios in which the unknown extinct taxa represent a biased subset of all extinct species. Our results highlight the importance of integrating fossil taxa into a phylogenetic framework to further improve our understanding of historical biogeography and reveal the dynamic dispersal and diversification history of carnivores.
历史生物地理学的一个主要目标是了解进化枝的起源地以及它们如何在空间和时间上移动。然而,鉴于生态系统响应气候变化和地质事件而发生的动态变化历史、在进化时间尺度上的多种长距离扩散以及区域和全球灭绝,仅基于现存分类单元的推理能够达到何种程度的可靠性仍然不确定。利用已知的所有现生和已灭绝的哺乳动物食肉目及其相关灭绝类群的物种水平系统发育新谱,我们表明,通过将灭绝物种完全纳入分析中,而不仅仅是仅依赖现生物种或仅根据最古老化石的地理位置来确定祖先区域,可以更精确和准确地估计祖先区域。通过一系列模拟,我们进一步表明,在未知灭绝分类单元代表所有灭绝物种中有偏差子集的现实情况下,这一结论是稳健的。我们的结果强调了将化石分类单元纳入系统发育框架以进一步提高我们对历史生物地理学的理解的重要性,并揭示了食肉动物的动态扩散和多样化历史。
