期刊
MOLECULAR PHYLOGENETICS AND EVOLUTION
卷 157, 期 -, 页码 -出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.ympev.2020.107066
关键词
Tsuga; Phylotranscriptomics; Biogeography; Disjunct distribution; Bering Land Bridge; Hybrid origin
资金
- National Key R&D Program of China [2017YFA0605100]
- Strategic Priority Research Program, CAS [XDA23080000]
- Key Research Program of Frontier Sciences, CAS [QYZDJ-SSW-SMC027]
- Youth Innovation Promotion Association CAS [2012070]
The study reconstructed a highly resolved phylogeny of Tsuga using nuclear, chloroplast, and mitochondrial genes, revealing the biogeographic history of the species originating in North America and dispersing to East Asia via the Bering Land Bridge in the middle Miocene. Additionally, a complex reticulate evolutionary pattern among East Asian Tsuga species was discovered, with implications for taxonomic reconsideration.
The disjunct distribution between East Asia and North America is one of the best established biogeographic patterns. A robust phylogeny is fundamental for understanding the biogeographic histories of taxa with this distribution pattern. Tsuga (hemlock) is a genus of Pinaceae with a typical intercontinental disjunct distribution in East Asia and eastern and western North America, and its phylogeny has not been completely reconstructed in previous studies. In this study, we reconstructed a highly resolved phylogeny of Tsuga using 881 nuclear genes, 60 chloroplast genes and 23 mitochondrial genes and explored its biogeographic and reticulate evolutionary history. The results of phylogenetic analysis, molecular dating and ancestral area reconstruction indicate that Tsuga very likely originated from North America in the late Oligocene and dispersed from America to East Asia via the Bering Land Bridge during the middle Miocene. In particular, we found complex reticulate evolutionary pattern among the East Asian hemlock species. T. sieboldii possibly originated from hybridization with the ancestor of T. chinensis from mainland China and T. forrestii as the paternal donor and the ancestor of T. diversifolia and T. ulleungensis as the maternal donor. T. chinensis (Taiwan) could have originated by hybridization together with T. sieboldii and then evolved independently after dispersal to the Taiwan Island, subsequently experiencing mitochondrial DNA introgression with T. chinensis from mainland China. Moreover, our study found that T. chinensis from western China is more closely related to T. forrestii than to T. chinensis from eastern China. The nonmonophyletic T. chinensis needs taxonomic reconsideration.
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