Abstract
Bauhinia s.s. is a large genus in the family Fabaceae, but its evolutionary and biogeographical history is still unclear due to the scarcity of fossil records compared to the highly diverse modern species in pantropic regions. Here, we report the earliest fossil record of Bauhinia s.s., namely Bauhinia tibetensis Y. Gao et T. Su sp. nov., based on leaves from the latest Paleocene of the southern Tibetan region. Combined with palaeoecological niche simulations and ancestral state reconstruction, the new fossils suggested a Paleocene origin of Bauhinia s.s. in the Afrotropical realm that subsequently dispersed to the Neotropical and Indomalayan realms. Bauhinia tibetensis belongs to the Asian clade of Bauhinia s.s. that reached the southern Tibetan region from the Afrotropical realm via the Kohistan-Ladakh Island Arc in the early Paleocene. This clade spread to south-eastern China during the Oligocene and entered northern India during the Neogene or earlier. The discovery of the oldest Bauhinia s.s. from what is now the southern Tibetan Plateau updates our understanding of the biogeographical history of this genus and demonstrates that the Kohistan-Ladakh Island Arc is an ancient corridor for floristic interchange between Africa and India.
Keywords: Bauhinia s.s., biogeography, diversification, Paleocene, leaf fossil, palaeoecological niche simulations
Yi Gao, Ai Song, Wei-Yu-Dong Deng, Lin-Lin Chen, Jia Liu, Wei-Cheng Li, Gaurav Srivastava, Robert A. Spicer, Zhe-Kun Zhou and Tao Su. 2023. The Oldest Fossil Record of Bauhinia s.s. (Fabaceae) from the Tibetan Plateau sheds light on its Evolutionary and Biogeographic Implications. Journal of Systematic Palaeontology. 21(1); 2244495. DOI: doi.org/10.1080/14772019.2023.2244495
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