Climatic and topographic changes since the Miocene influenced the diversification and biogeography of the tent tortoise (Psammobates tentorius) species complex in Southern Africa

dc.contributor.authorZhao, Z
dc.contributor.authorHofmeyr, D. M
dc.contributor.authorJordaan, A
dc.contributor.authorBester, P
dc.contributor.authorHeideman, N
dc.date.accessioned2021-09-30T11:06:53Z
dc.date.available2021-09-30T11:06:53Z
dc.date.issued2020
dc.description.abstractBackground: Climatic and topographic changes function as key drivers in shaping genetic structure and cladogenic radiation in many organisms. Southern Africa has an exceptionally diverse tortoise fauna, harbouring one-third of the world’s tortoise genera. The distribution of Psammobates tentorius (Kuhl, 1820) covers two of the 25 biodiversity hotspots in the world, the Succulent Karoo and Cape Floristic Region. The highly diverged P. tentorius represents an excellent model species for exploring biogeographic and radiation patterns of reptiles in Southern Africa. Results: We investigated genetic structure and radiation patterns against temporal and spatial dimensions since the Miocene in the Psammobates tentorius species complex, using multiple types of DNA markers and niche modelling analyses. Cladogenesis in P. tentorius started in the late Miocene (11.63–5.33 Ma) when populations dispersed from north to south to form two geographically isolated groups. The northern group diverged into a clade north of the Orange River (OR), followed by the splitting of the group south of the OR into a western and an interior clade. The latter divergence corresponded to the intensifcation of the cold Benguela current, which caused western aridifcation and rainfall seasonality. In the south, tectonic uplift and subsequent exhumation, together with climatic fuctuations seemed responsible for radiations among the four southern clades since the late Miocene. We found that each clade occurred in a habitat shaped by diferent climatic parameters, and that the niches difered substantially among the clades of the northern group but were similar among clades of the southern group. Conclusion: Climatic shifts, and biome and geographic changes were possibly the three major driving forces shaping cladogenesis and genetic structure in Southern African tortoise species. Our results revealed that the cladogenesis of the P. tentorius species complex was probably shaped by environmental cooling, biome shifts and topographic uplift in Southern Africa since the late Miocene. The Last Glacial Maximum (LGM) may have impacted the distribution of P. tentorius substantially. We found the taxonomic diversify of the P. tentorius species complex to be highest in the Greater Cape Floristic Region. All seven clades discovered warrant conservation attention, particularly Ptt-B–Ptr, Ptt-A and Pv-Aen_US
dc.identifier.citationZhao, Z., Heideman, N., Bester, P., Jordaan, A., & Hofmeyr, M. D. (2020). Climatic and topographic changes since the Miocene influenced the diversification and biogeography of the tent tortoise (Psammobates tentorius) species complex in Southern Africa. BMC Evolutionary Biology, 20(1). https://doi.org/10.1186/s12862-020-01717-1en_US
dc.identifier.issn14712148
dc.identifier.other10.1186/s12862-020-01717-1
dc.identifier.urihttp://hdl.handle.net/10566/6847
dc.publisherBMCen_US
dc.subjectCladogenesisen_US
dc.subjectEvolutionary driveren_US
dc.subjectMiocene coolingen_US
dc.subjectRefugia retractingen_US
dc.subjectBiogeographyen_US
dc.subjectHidden diversityen_US
dc.titleClimatic and topographic changes since the Miocene influenced the diversification and biogeography of the tent tortoise (Psammobates tentorius) species complex in Southern Africaen_US
dc.typeArticleen_US

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