From Gondwana to the Yellow Sea, evolutionary diversifications of true toads Bufo sp. in the Eastern Palearctic and a revisit of species boundaries for Asian lineages.

Yoonhyuk Bae,Yikweon Jang,Spartak N Litvinchuk,Irina Maslova,Kevin R Messenger,Jennifer Hoti,Dmitry V Skorinov,Michael J Jowers,Yosuke Kojima,Hollis Dahn,Ming-Feng Chuang,Kiyomi Yasumiba,Desiree Andersen,Yi-Huey Chen,Amael Borzee,Siti N Othman

doi:10.7554/elife.70494

Abstract

Taxa with vast distribution ranges often display unresolved phylogeographic structures and unclear taxonomic boundaries resulting in hidden diversity. This hypothesis-driven study reveals the evolutionary history of Bufonidae, covering the phylogeographic patterns found in Holarctic bufonids from the West Gondwana to the phylogenetic taxonomy of Asiatic true toads in the Eastern Palearctic. We used an integrative approach relying on fossilized birth-death calibrations, population dynamics, gene-flow, species distribution, and species delimitation modeling to resolve the biogeography of the clade and highlight cryptic lineages. We verified the near-simultaneous Miocene radiations within Western and Eastern Palearctic Bufo, c. 14.49-10.00 Mya, temporally matching with the maximum dust outflows in Central Asian deserts. Contrary to earlier studies, we demonstrated that the combined impacts of long dispersal and ice-age refugia equally contributed to the current genetic structure of Bufo in East Asia. Our findings reveal a climate-driven adaptation in septentrional Eastern Asian Bufo, explaining its range shifts toward northern latitudes. We resolve species boundaries within the Eastern Palearctic Bufo, and redefine the taxonomic and conservation units of the northeastern species: B. sachalinensis and its subspecies.

Highlights

Evolutionary history is critical in explaining the diversification within and between species, and the dynamics between species and environments in ecological zones (Ricklefs, 2006)
Our study addresses biogeographic scenarios explained in two different sections: (1) the biogeography of Holarctic bufonids and, (2) the biogeography of Eastern Palearctic Bufo and the taxonomic revision of the species complexes
Our reconstruction of the Holarctic bufonids biogeography using species tree with fossilised birth-death calibration and phylogenetic hypotheses testing verified that the earliest split between Western and Eastern Palearctic Bufo occurred during the Middle Miocene

Summary

Introduction

Evolutionary history is critical in explaining the diversification within and between species, and the dynamics between species and environments in ecological zones (Ricklefs, 2006) Factors such as past geological events, natural dispersion, and anthropogenic changes (Dufresnes et al, 2020; Othman et al, 2020) can drive and induce different evolutionary scenarios such as physiological adaptation, genetic variability and phenotypic divergence (Luquet et al, 2015). Understanding phylogeography and the processes contributing to genetic divergence can be more challenging in taxonomic groups distributed across vast ranges This difficulty results from the ecological responses to variability in environmental conditions and geographical features (Zhao and Yu, 2012). True toads in the family Bufonidae (bufonids) are well suited to this area of study due to their high species diversity (Rojas et al, 2018) and adaptive response to past climate change that led to an evolutionary-recent global radiation (Van Bocxlaer et al, 2010)

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