Cai Lirong, Kreft Holger, Denelle Pierre, Taylor Amanda, Craven Dylan, Dawson Wayne, Essl Franz, van Kleunen Mark, Pergl Jan, Pyšek Petr, Winter Marten, Cabezas Francisco J, Wagner Viktoria, Pelser Pieter B, Wieringa Jan J, Weigelt Patrick
Biodiversity, Macroecology and Biogeography, University of Göttingen, Göttingen, Germany.
German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig, Leipzig, Germany.
Nat Ecol Evol. 2025 Feb;9(2):314-324. doi: 10.1038/s41559-024-02599-y. Epub 2024 Nov 29.
Environmental filtering and dispersal history limit plant distributions and affect biogeographical patterns, but how their relative importance varies across evolutionary timescales is unresolved. Phylogenetic beta diversity quantifies dissimilarity in evolutionary relatedness among assemblages and might help resolve the ecological and biogeographical mechanisms structuring biodiversity. Here, we examined the effects of environmental dissimilarity and geographical distance on phylogenetic and taxonomic turnover for ~270,000 seed plant species globally and across evolutionary timescales. We calculated past and present dispersal barriers using palaeogeographical reconstructions and calculated geographical linear and least-cost distances, accounting for dispersal over water, mountains or areas with unsuitable climates. Environmental dissimilarity and geographical distance jointly explained most of the deviance in taxonomic (up to 86.4%) and phylogenetic turnover (65.6%). While environmental dissimilarity consistently showed strongly positive effects, the effect of geographical distance on phylogenetic turnover was less pronounced further back in evolutionary time. Past physiogeographical barriers explained a relatively low amount of the variation across all timescales, with a slight peak at intermediate timescales (20-50 Myr BP). Our results suggest that while old lineages have generally dispersed widely, the imprint of environmental filtering on range expansion persists, providing insights into biogeographical and evolutionary processes underlying global biodiversity patterns.
环境过滤和扩散历史限制了植物分布并影响生物地理格局,但它们的相对重要性如何在不同进化时间尺度上变化仍未得到解决。系统发育β多样性量化了群落间进化亲缘关系的差异,可能有助于解析构建生物多样性的生态和生物地理机制。在此,我们研究了环境差异和地理距离对全球约27万种种子植物在系统发育和分类学更替方面的影响,并跨越了不同的进化时间尺度。我们利用古地理重建计算过去和现在的扩散障碍,并计算地理直线距离和最小成本距离,同时考虑了在水体、山脉或气候不适宜地区的扩散情况。环境差异和地理距离共同解释了分类学更替(高达86.4%)和系统发育更替(65.6%)中的大部分偏差。虽然环境差异始终显示出强烈的正向影响,但地理距离对系统发育更替的影响在进化时间上越往前越不明显。过去的地质地理障碍在所有时间尺度上解释的变异量相对较低,在中间时间尺度(20 - 50百万年前)有一个轻微的峰值。我们的结果表明,虽然古老谱系通常广泛扩散,但环境过滤对范围扩张的印记仍然存在,这为全球生物多样性格局背后的生物地理和进化过程提供了见解。
