Phylogeographic surveys and apomictic genetic connectivity in the North Atlantic red seaweed Mastocarpus stellatus

The North Atlantic red alga Mastocaipus stellatus is characterized by two life histories (sexual-type and direct-type), which correspond to two geographically isolated breeding groups. These features enable M. stellatus to be an interesting model to investigate how environmental shift and apomictic...

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Bibliographic Details
Published in:Molecular Phylogenetics and Evolution
Main Authors: Li, Jing-Jing, Hu, Zi-Min, Liu, Ruo-Yu, Zhang, Jie, Liu, Shao-Lun, Duan, De-Lin
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
Apomictic Propagation
Demographic History
Gene Flow
Mastocarpus Stellatus
Palaeoclimatic Oscillation
Population Genetic Structure
Norway
North Atlantic
Online Access:http://ir.qdio.ac.cn/handle/337002/86612
https://doi.org/10.1016/j.ympev.2015.10.029
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Summary:The North Atlantic red alga Mastocaipus stellatus is characterized by two life histories (sexual-type and direct-type), which correspond to two geographically isolated breeding groups. These features enable M. stellatus to be an interesting model to investigate how environmental shift and apomictic propagation have influenced its population genetic structure, historical demography and distribution dynamic. To test these ideas, we obtained 456 specimens from 15 locations on both sides of the North Atlantic and sequenced portion of the nuclear internal transcribed spacer (ITS), mitochondria] cox2-3 region (COX) and plastid RuBisCo spacer (RLS). Median-joining networks and ML trees inferred from COX and RLS consistently revealed two gene lineages (mtDNA: C-N, C-S; cpDNA: R-N, R-S). The concatenated COX and RLS markers yielded three cytotypes: a northern C-N-R-N, a southern C-S-R-S and a mixed cytotype C-S-R-N, which enabled us to roughly separate samples into D (direct-type life-cycle) and S (sexual-type life-cycle) groups (northern CN-RN and mixed cytotype C-S-R-N = D; southern C-S-R-S = S). Pairwise F-ST analysis of the D group revealed a high level of genetic differentiation both along European coasts and across the Atlantic basin. Bayesian skyline plots (BSPs) and IMa analyses indicated that M. stellatus underwent slight demographic expansion at the late-Pleistocene, with the beginning of divergence between lineages dating to c. 0.189 Ma (95%HPD: 0.083-0.385 Ma). IMa analyses also revealed asymmetric genetic exchange among European populations and a predominant postglacial trans-Atlantic migration from Norway and Galway Bay to North America. Our study highlights the importance of phylogeographic approaches to discover the imprints of climate change, life histories and gene flow in driving population genetic connectivity and biogeographic distribution of intertidal seaweeds in the North Atlantic. (C) 2015 Elsevier Inc. All rights reserved.

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