A passage through India: The biotic ferry model supports the build‐up of Indo‐Australian biodiversity of an ancient soil arthropod clade

IF 3.4 2区 环境科学与生态学 Q2 ECOLOGY Journal of Biogeography Pub Date : 2024-08-24 DOI:10.1111/jbi.14994
Maya Manivannan, Nehal Gurung, Gregory D. Edgecombe, Jahnavi Joshi
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Abstract

AimScutigeromorpha is a globally distributed, ancient group of centipedes with at least 400 million years of evolutionary history. We assess the biogeographic history of the order, with a particular focus on the Peninsular Indian Plate (PIP), a Gondwanan fragment. We hypothesize that continental vicariance explains the disjunct distribution of extant scutigeromorphs, that PIP scutigeromorphs are of ancient Gondwanan origins, and that East Gondwana vicariance explains the diversification of the subfamily Thereuoneminae into its Asian and Australian clades.LocationGlobal.TaxaCentipedes, Scutigeromorpha.MethodsWe use a novel molecular dataset sampled across the PIP and a global sequence database representing the geographic distribution of all families and subfamilies. We employ molecular phylogenetic analyses on two mitochondrial and three nuclear markers, molecular species delimitation and ancestral range estimation to reconstruct biogeographic history.ResultsAncestral scutigeromorphs were likely widely distributed across Gondwana and diverged prior to any continental vicariance. Their subsequent biogeography is shaped by continental vicariance, long‐distance dispersal and jump dispersal, indicating an ability to colonize areas far from their ancestral range. The PIP emerged as the ancestral range of Thereuoneminae, which started diversifying during the Cretaceous Period. Subsequent in‐situ diversification within the PIP and dispersals into Asia, Australia and the Pacific Islands best explained the extant distribution of Thereuoneminae, more so than East Gondwana vicariance.Main ConclusionsThe in‐situ diversification of PIP species and their ancient divergence suggest they represent Gondwanan relicts in a landmass whose biota is primarily dispersal‐driven. A single dispersal event from the PIP generated most of the extant diversity in Australia, another Gondwanan fragment. Furthermore, the discovery of 11 putative species from the PIP and the Andaman Islands, five times more than was known, highlights the Wallacean and Linnean shortfalls in tropical Asia.
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穿越印度:生物渡轮模型支持一个古老的土壤节肢动物支系在印度-澳大利亚建立生物多样性
目的鞘翅目蜈蚣科(Scutigeromorpha)是一个分布于全球的古老蜈蚣类群,至少有 4 亿年的进化历史。我们评估了该类群的生物地理历史,并特别关注印度半岛板块(PIP)这一冈瓦纳大陆碎片。我们假设,大陆沧海桑田可以解释现生鳞甲目动物的不连续性分布,印度半岛鳞甲目动物起源于古老的冈瓦纳,而东冈瓦纳沧海桑田可以解释鳞甲亚科(Thereuoneminae)分为亚洲支系和澳大利亚支系的多样性。地点全球分类群节足动物方法我们使用了一个新的分子数据集,该数据集在整个PIP和一个代表所有科和亚科地理分布的全球序列数据库中取样。我们利用两个线粒体标记和三个核标记的分子系统发育分析、分子物种划分和祖先分布范围估计来重建生物地理历史。它们随后的生物地理学是由大陆变迁、远距离扩散和跳跃扩散形成的,这表明它们有能力在远离其祖先分布区的地区定居。白垩纪期间开始多样化的白垩纪原生动物群(PIP)成为了蝶形目(Thereuoneminae)的祖先分布区。主要结论PIP物种的就地多样化及其远古分化表明,它们代表了生物群主要由扩散驱动的陆块中的冈瓦纳遗存。PIP的单一扩散事件产生了澳大利亚的大部分现存多样性,而澳大利亚则是另一个冈瓦纳残片。此外,从太平洋岛屿群和安达曼群岛发现的 11 个推定物种(比已知物种多 5 倍)凸显了华莱士和林奈在亚洲热带地区的不足。
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来源期刊
Journal of Biogeography
Journal of Biogeography 环境科学-生态学
CiteScore
7.70
自引率
5.10%
发文量
203
审稿时长
2.2 months
期刊介绍: Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.
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