Papadopoulou Anna, Knowles L Lacey
Department of Ecology and Evolutionary Biology, Museum of Zoology, University of Michigan, Ann Arbor, MI 48109; Department of Integrative Ecology, Estación Biológica de Doñana, Consejo Superior de Investigaciones Cientificas, 41092 Seville, Spain.
Department of Ecology and Evolutionary Biology, Museum of Zoology, University of Michigan, Ann Arbor, MI 48109;
Proc Natl Acad Sci U S A. 2016 Jul 19;113(29):8018-24. doi: 10.1073/pnas.1601069113.
For three decades, comparative phylogeography has conceptually and methodologically relied on the concordance criterion for providing insights into the historical/biogeographic processes driving population genetic structure and divergence. Here we discuss how this emphasis, and the corresponding lack of methods for extracting information about biotic/intrinsic contributions to patterns of genetic variation, may bias our general understanding of the factors driving genetic structure. Specifically, this emphasis has promoted a tendency to attribute discordant phylogeographic patterns to the idiosyncracies of history, as well as an adherence to generic null expectations of concordance with reduced predictive power. We advocate that it is time for a paradigm shift in comparative phylogeography, especially given the limited utility of the concordance criterion as genomic data provide ever-increasing levels of resolution. Instead of adhering to the concordance-discordance dichotomy, comparative phylogeography needs to emphasize the contribution of taxon-specific traits that will determine whether concordance is a meaningful criterion for evaluating hypotheses or may predict discordant phylogeographic structure. Through reference to some case studies we illustrate how refined hypotheses based on taxon-specific traits can provide improved predictive frameworks to forecast species responses to climatic change or biogeographic barriers while gaining unique insights about the taxa themselves and their interactions with their environment. We outline a potential avenue toward a synthetic comparative phylogeographic paradigm that includes addressing some important conceptual and methodological challenges related to study design and application of model-based approaches for evaluating support of trait-based hypotheses under the proposed paradigm.
三十年来,比较系统地理学在概念和方法上一直依赖一致性标准,以深入了解驱动种群遗传结构和分化的历史/生物地理过程。在此,我们讨论这种侧重点以及相应地缺乏提取有关生物/内在因素对遗传变异模式贡献信息的方法,可能如何影响我们对驱动遗传结构因素的总体理解。具体而言,这种侧重点促使人们倾向于将不一致的系统地理模式归因于历史的特殊性,以及坚持具有较低预测力的一致性的一般零假设。我们主张,比较系统地理学是时候进行范式转变了,特别是考虑到随着基因组数据提供的分辨率不断提高,一致性标准的效用有限。比较系统地理学不应坚持一致性 - 不一致性二分法,而需要强调特定分类群特征的贡献,这些特征将决定一致性是否是评估假设的有意义标准,或者是否可以预测不一致的系统地理结构。通过参考一些案例研究,我们说明了基于特定分类群特征的精细假设如何能够提供改进的预测框架,以预测物种对气候变化或生物地理障碍的反应,同时获得有关分类群本身及其与环境相互作用的独特见解。我们概述了迈向综合比较系统地理学范式的潜在途径,其中包括应对一些与研究设计以及在提议的范式下评估基于特征假设的支持的基于模型方法的应用相关的重要概念和方法挑战。