{"title":"A late-surviving phytosaur from the northern Atlantic rift reveals climate constraints on Triassic reptile biogeography.","authors":"Chase Doran Brownstein","doi":"10.1186/s12862-023-02136-8","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>The origins of all major living reptile clades, including the one leading to birds, lie in the Triassic. Following the largest mass extinction in Earth's history at the end of the Permian, the earliest definite members of the three major living reptile clades, the turtles (Testudines), crocodylians and birds (Archosauria), and lizards, snakes, amphisbaenians, and Tuatara (Lepidosauria) appeared. Recent analyses of the Triassic reptile fossil record suggest that the earliest diversifications in all three of these clades were tightly controlled by abrupt paleoclimate fluctuations and concordant environmental changes. Yet, this has only been preliminarily tested using information from evolutionary trees. Phytosauria consists of superficially crocodylian-like archosaurs that either form the sister to the crown or are the earliest divergence on the crocodylian stem and are present throughout the Triassic, making this clade an excellent test case for examining this biogeographic hypothesis.</p><p><strong>Results: </strong>Here, I describe a new phytosaur, Jupijkam paleofluvialis gen. et sp. nov., from the Late Triassic of Nova Scotia, Canada, which at that time sat in northern Pangaea near the northern terminus of the great central Pangean rift. As one of the northernmost occurrences of Phytosauria, J. paleofluvialis provides critical new biogeographic data that enables revised estimations of phytosaur historical biogeography along phylogenies of this clade built under multiple methodologies. Reconstructions of phytosaur historical biogeography based on different phylogenies and biogeographic models suggest that phytosaurs originated in northern Pangaea, spread southward, and then dispersed back northward at least once more during the Late Triassic.</p><p><strong>Conclusions: </strong>The results presented in this study link phytosaur biogeography to major changes to Triassic global climate and aridity. Together with the earliest dinosaurs and several other reptile lineages, phytosaur diversification and migration appear to have been restricted by the formation and loss of arid belts across the Pangean supercontinent.</p>","PeriodicalId":9127,"journal":{"name":"BMC Ecology and Evolution","volume":"23 1","pages":"33"},"PeriodicalIF":0.0000,"publicationDate":"2023-07-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10351158/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"BMC Ecology and Evolution","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1186/s12862-023-02136-8","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract
Background: The origins of all major living reptile clades, including the one leading to birds, lie in the Triassic. Following the largest mass extinction in Earth's history at the end of the Permian, the earliest definite members of the three major living reptile clades, the turtles (Testudines), crocodylians and birds (Archosauria), and lizards, snakes, amphisbaenians, and Tuatara (Lepidosauria) appeared. Recent analyses of the Triassic reptile fossil record suggest that the earliest diversifications in all three of these clades were tightly controlled by abrupt paleoclimate fluctuations and concordant environmental changes. Yet, this has only been preliminarily tested using information from evolutionary trees. Phytosauria consists of superficially crocodylian-like archosaurs that either form the sister to the crown or are the earliest divergence on the crocodylian stem and are present throughout the Triassic, making this clade an excellent test case for examining this biogeographic hypothesis.
Results: Here, I describe a new phytosaur, Jupijkam paleofluvialis gen. et sp. nov., from the Late Triassic of Nova Scotia, Canada, which at that time sat in northern Pangaea near the northern terminus of the great central Pangean rift. As one of the northernmost occurrences of Phytosauria, J. paleofluvialis provides critical new biogeographic data that enables revised estimations of phytosaur historical biogeography along phylogenies of this clade built under multiple methodologies. Reconstructions of phytosaur historical biogeography based on different phylogenies and biogeographic models suggest that phytosaurs originated in northern Pangaea, spread southward, and then dispersed back northward at least once more during the Late Triassic.
Conclusions: The results presented in this study link phytosaur biogeography to major changes to Triassic global climate and aridity. Together with the earliest dinosaurs and several other reptile lineages, phytosaur diversification and migration appear to have been restricted by the formation and loss of arid belts across the Pangean supercontinent.
背景:所有现存的主要爬行动物分支的起源,包括鸟类的起源,都在三叠纪。在二叠纪末地球历史上最大规模的物种灭绝之后,出现了最早确定的三种主要爬行动物分支的成员,乌龟(鳖目动物)、鳄鱼和鸟类(始祖动物),以及蜥蜴、蛇、两栖动物和蜥蜴(鳞翅目动物)。最近对三叠纪爬行动物化石记录的分析表明,这三个分支的最早分化都是由突然的古气候波动和一致的环境变化严格控制的。然而,这只是利用进化树的信息进行的初步测试。植物蜥脚类由表面上像鳄鱼的始祖龙组成,它们要么是冠类的姐妹,要么是鳄鱼茎上最早的分支,存在于整个三叠纪,这使得这一分支成为检验这一生物地理学假说的绝佳测试案例。结果:本文描述了一种来自加拿大新斯科舍省晚三叠世的Jupijkam古河流龙(Jupijkam palefluvialis gen. et sp. nov.)的新植物龙,该植物龙当时位于泛大陆北部,靠近泛大陆中央大裂谷的北端。作为植物蜥脚类最北端的出现点之一,古河流龙提供了重要的新生物地理数据,可以在多种方法的基础上对植物蜥脚类的历史生物地理进行修正。基于不同系统发育和生物地理模型的植物恐龙历史生物地理重建表明,植物恐龙起源于泛大陆北部,向南扩散,然后在晚三叠世至少再次向北扩散。结论:植物龙生物地理学与三叠纪全球气候和干旱的重大变化有关。与最早的恐龙和其他几种爬行动物谱系一样,植物龙的多样化和迁徙似乎受到了泛古超大陆干旱带的形成和丧失的限制。
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