Historical biogeography of early diverging termite lineages (Isoptera: Teletisoptera)
Historical biogeography of early diverging termite lineages (Isoptera: Teletisoptera)
Abstract Termites are social cockroaches distributed throughout warm temperate and tropical ecosystems. The ancestor of modern termites (crown-Isoptera) occurred during the earliest Cretaceous, approximately 140 million years ago, suggesting that both vicariance through continental drift and overseas dispersal may have shaped the distribution of early diverging termite lineages. We reconstruct the historical biogeography of three early diverging termite families – Stolotermitidae, Hodotermitidae, and Archotermopsidae – using the nuclear rRNA genes and mitochondrial genomes of 27 samples. Our analyses confirmed the monophyly of Stolotermitidae + Hodotermitidae + Archotermopsidae (clade Teletisoptera), with Stolotermitidae diverging from a monophyletic Hodotermitidae + Archotermopsidae approximately 100.3 Ma (94.3–110.4 Ma, 95% HPD), and with Archotermopsidae paraphyletic to a monophyletic Hodotermitidae. The Oriental Archotermopsis and the Nearctic Zootermopsis diverged 50.8 Ma (40.7–61.4 Ma, 95% HPD) before land connections between the Palearctic region and North America ceased to exist. The African Hodotermes + Microhodotermes diverged from Anacanthotermes, a genus found in Africa and Asia, 32.1 Ma (24.8–39.9 Ma, 95% HPD), and the most recent common ancestor of Anacanthotermes lived 10.7 Ma (7.3–14.3 Ma, 95% HPD), suggesting that Anacanthotermes dispersed to Asia using the land bridge connecting Africa and Eurasia ~18–20 Ma. In contrast, the common ancestors of modern Porotermes and Stolotermes lived 20.2 Ma (15.7–25.1 Ma, 95% HPD) and 26.6 Ma (18.3–35.6 Ma, 95% HPD), respectively, indicating that the presence of these genera in South America, Africa, and Australia involved over-water dispersals. Our results suggest that early diverging termite lineages acquired their current distribution through a combination of over-water dispersals and dispersal via land bridges. We clarify the classification by resolving the paraphyly of Archotermopsidae, restricting the family to Archotermopsis and Zootermopsis, and elevating Hodotermopsinae (Hodotermopsis) as Hodotermopsidae (status novum).
Wang Menglin、Roisin Yves、Hellemans Simon、Sillam-Duss¨¨s David、Engel Michael S.、Arora Jigyasa、Evans Theodore A.、Bourguignon Thomas、?obotn¨ak Jan、Clitheroe Crystal、Lu Tomer、Bu?ek Ale?、Lo Nathan
Okinawa Institute of Science & Technology Graduate UniversityEvolutionary Biology and Ecology, Universit¨| Libre de BruxellesOkinawa Institute of Science & Technology Graduate UniversityLaboratory of Experimental and Comparative Ethology UR 4443, University Sorbonne Paris NordDepartment of Ecology & Evolutionary Biology, University of Kansas||Division of Invertebrate Zoology, American Museum of Natural HistoryOkinawa Institute of Science & Technology Graduate UniversitySchool of Animal Biology, University of Western AustraliaOkinawa Institute of Science & Technology Graduate University||Faculty of Tropical AgriSciences, Czech University of Life SciencesFaculty of Tropical AgriSciences, Czech University of Life SciencesOkinawa Institute of Science & Technology Graduate UniversityTomer Lu, Total Hadbara IsraelOkinawa Institute of Science & Technology Graduate UniversitySchool of Life and Environmental Sciences, University of Sydney
昆虫学古生物学生物科学研究方法、生物科学研究技术
Wang Menglin,Roisin Yves,Hellemans Simon,Sillam-Duss¨¨s David,Engel Michael S.,Arora Jigyasa,Evans Theodore A.,Bourguignon Thomas,?obotn¨ak Jan,Clitheroe Crystal,Lu Tomer,Bu?ek Ale?,Lo Nathan.Historical biogeography of early diverging termite lineages (Isoptera: Teletisoptera)[EB/OL].(2025-03-28)[2025-08-02].https://www.biorxiv.org/content/10.1101/2021.12.02.471008.点此复制
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