School of Life Sciences, University of Hawai'i, Honolulu, HI 96822;
Department of Ecology and Evolutionary Biology, University of California, Los Angeles, CA 90095.
Proc Natl Acad Sci U S A. 2021 Feb 16;118(7). doi: 10.1073/pnas.2012215118.
Living turtles are characterized by extraordinarily low species diversity given their age. The clade's extensive fossil record indicates that climate and biogeography may have played important roles in determining their diversity. We investigated this hypothesis by collecting a molecular dataset for 591 individual turtles that, together, represent 80% of all turtle species, including representatives of all families and 98% of genera, and used it to jointly estimate phylogeny and divergence times. We found that the turtle tree is characterized by relatively constant diversification (speciation minus extinction) punctuated by a single threefold increase. We also found that this shift is temporally and geographically associated with newly emerged continental margins that appeared during the Eocene-Oligocene transition about 30 million years before present. In apparent contrast, the fossil record from this time period contains evidence for a major, but regional, extinction event. These seemingly discordant findings appear to be driven by a common global process: global cooling and drying at the time of the Eocene-Oligocene transition. This climatic shift led to aridification that drove extinctions in important fossil-bearing areas, while simultaneously exposing new continental margin habitat that subsequently allowed for a burst of speciation associated with these newly exploitable ecological opportunities.
活龟的物种多样性非常低,这与其年龄有关。该分支的广泛化石记录表明,气候和生物地理因素可能在决定其多样性方面发挥了重要作用。我们通过收集 591 个个体龟的分子数据集来研究这一假说,这些个体代表了所有龟类的 80%,包括所有科的代表和 98%的属,并用它来共同估计系统发育和分化时间。我们发现,龟类树的特征是相对稳定的多样化(物种形成减去灭绝),偶尔会出现一次三倍的增加。我们还发现,这种转变在时间和地理上与大约 3000 万年前始新世-渐新世过渡期间新出现的大陆边缘有关。相比之下,这一时期的化石记录显示出一次重大但区域性的灭绝事件。这些看似不一致的发现似乎是由一个共同的全球过程驱动的:始新世-渐新世过渡时期的全球降温干燥。这种气候转变导致干旱化,在重要的化石产地造成灭绝,同时暴露了新的大陆边缘栖息地,随后允许与这些新开发的生态机会相关的物种形成爆发。