Phylogenomic conflict analyses in the apple genus Malus s.l. reveal widespread hybridization and allopolyploidy driving diversification, with insights into the complex biogeographic history in the Northern Hemisphere

Phylogenomic evidence from an increasing number of studies has demonstrated that different data sets and analytical approaches often reconstruct strongly supported but conflicting relationships. In this study, 785 single‐copy nuclear genes and 75 complete plastomes were used to infer the phylogeneti...

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Bibliographic Details
Published in:Journal of integrative plant biology 2022-05, Vol.64 (5), p.1020-1043
Main Authors: Liu, Bin‐Bin, Ren, Chen, Kwak, Myounghai, Hodel, Richard G.J., Xu, Chao, He, Jian, Zhou, Wen‐Bin, Huang, Chien‐Hsun, Ma, Hong, Qian, Guan‐Ze, Hong, De‐Yuan, Wen, Jun
Format: Article
Language:English
Subjects:
Allopolyploidy
Biogeography
Chloroplasts
Datasets
deep genome skimming
Discordance
Dispersal
Eocene
Genomes
genomic discordance
historical biogeography
Hybridization
Malus coronaria
Malus doumeri
massive extinction
Northern Hemisphere
Phylogeny
Plastomes
reticulate evolution
single‐copy nuclear genes
Workflow
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Summary:Phylogenomic evidence from an increasing number of studies has demonstrated that different data sets and analytical approaches often reconstruct strongly supported but conflicting relationships. In this study, 785 single‐copy nuclear genes and 75 complete plastomes were used to infer the phylogenetic relationships and estimate the historical biogeography of the apple genus Malus sensu lato, an economically important lineage disjunctly distributed in the Northern Hemisphere and involved in known and suspected hybridization and allopolyploidy events. The nuclear phylogeny recovered the monophyly of Malus s.l. (including Docynia); however, the genus was supported to be biphyletic in the plastid phylogeny. An ancient chloroplast capture event in the Eocene in western North America best explains the cytonuclear discordance. Our conflict analysis demonstrated that ILS, hybridization, and allopolyploidy could explain the widespread nuclear gene tree discordance. One deep hybridization event (Malus doumeri) and one recent event (Malus coronaria) were detected in Malus s.l. Furthermore, our historical biogeographic analysis integrating living and fossil data supported a widespread East Asian‐western North American origin of Malus s.l. in the Eocene, followed by several extinction and dispersal events in the Northern Hemisphere. We also propose a general workflow for assessing phylogenomic discordance and biogeographic analysis using deep genome skimming data sets. Phylogenomic conflict analyses in the apple genus Malus s.l. reveal widespread hybridization and allopolyploidy driving diversification, provide insights into the complex biogeographic history in the Northern Hemisphere, and inspire a general workflow for assessing phylogenomic discordance and biogeographic analysis using deep genome skimming datasets.
ISSN:1672-9072
1744-7909
DOI:10.1111/jipb.13246