Improved mammalian family phylogeny using gap-rare multiple sequence alignment: A timetree of extant placentals and marsupials

The timing of mammalian diversification in relation to the Cretaceous-Paleogene (KPg) mass extinction continues to be a subject of substantial debate. Previous studies have either focused on limited taxonomic samples with available whole-genome data or relied on short sequence alignments coupled wit...

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Published inZoological research Vol. 44; no. 6; p. 1064
Main Authors Liu, Gao-Ming, Pan, Qi, Du, Juan, Zhu, Ping-Fen, Liu, Wei-Qiang, Li, Zi-Hao, Wang, Ling, Hu, Chun-Yan, Dai, Yi-Chen, Zhang, Xiao-Xiao, Zhang, Zhan, Yu, Yang, Li, Meng, Wang, Peng-Cheng, Wang, Xiao, Li, Ming, Zhou, Xu-Ming
Format Journal Article
LanguageEnglish
Published China 18.11.2023
Subjects
Animals
Biological Evolution
Female
Humans
Mammals - genetics
Marsupialia - genetics
Phylogeny
Placenta
Pregnancy
Sequence Alignment - veterinary
Evolutionary model
Phylogeny
Diversification
Mammals
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Summary:The timing of mammalian diversification in relation to the Cretaceous-Paleogene (KPg) mass extinction continues to be a subject of substantial debate. Previous studies have either focused on limited taxonomic samples with available whole-genome data or relied on short sequence alignments coupled with extensive species samples. In the present study, we improved an existing dataset from the landmark study of Meredith et al. (2011) by filling in missing fragments and further generated another dataset containing 120 taxa and 98 exonic markers. Using these two datasets, we then constructed phylogenies for extant mammalian families, providing improved resolution of many conflicting relationships. Moreover, the timetrees generated, which were calibrated using appropriate molecular clock models and multiple fossil records, indicated that the interordinal diversification of placental mammals initiated before the Late Cretaceous period. Additionally, intraordinal diversification of both extant placental and marsupial lineages accelerated after the KPg boundary, supporting the hypothesis that the availability of numerous vacant ecological niches subsequent to the mass extinction event facilitated rapid diversification. Thus, our results support a scenario of placental radiation characterized by both basal cladogenesis and active interordinal divergences spanning from the Late Cretaceous into the Paleogene.
ISSN:2095-8137
DOI:10.24272/j.issn.2095-8137.2023.189