A comprehensive kelp phylogeny sheds light on the evolution of an ecosystem

[Display omitted] •Phylogenomic analysis of kelps resolves controversial relationships.•Dating analyses suggest a burst in speciation during a period of global cooling.•Biogeographical reconstructions identify several key dispersal events.•Complex morphological and ecological traits have evolved rep...

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Veröffentlicht in:Molecular phylogenetics and evolution 2019-07, Vol.136, p.138-150
Hauptverfasser: Starko, Samuel, Soto Gomez, Marybel, Darby, Hayley, Demes, Kyle W., Kawai, Hiroshi, Yotsukura, Norishige, Lindstrom, Sandra C., Keeling, Patrick J., Graham, Sean W., Martone, Patrick T.
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Sprache:eng
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Zusammenfassung:[Display omitted] •Phylogenomic analysis of kelps resolves controversial relationships.•Dating analyses suggest a burst in speciation during a period of global cooling.•Biogeographical reconstructions identify several key dispersal events.•Complex morphological and ecological traits have evolved repeatedly.•Taxonomy is updated to reflect newly identified evolutionary relationships. Reconstructing phylogenetic topologies and divergence times is essential for inferring the timing of radiations, the appearance of adaptations, and the historical biogeography of key lineages. In temperate marine ecosystems, kelps (Laminariales) drive productivity and form essential habitat but an incomplete understanding of their phylogeny has limited our ability to infer their evolutionary origins and the spatial and temporal patterns of their diversification. Here, we reconstruct the diversification of habitat-forming kelps using a global genus-level phylogeny inferred primarily from organellar genome datasets, and investigate the timing of kelp radiation. We resolve several important phylogenetic features, including relationships among the morphologically simple kelp families and the broader radiation of complex kelps, demonstrating that the initial radiation of the latter resulted from an increase in speciation rate around the Eocene-Oligocene boundary. This burst in speciation rate is consistent with a possible role of recent climatic cooling in triggering the kelp radiation and pre-dates the origin of benthic-foraging carnivores. Historical biogeographical reconstructions point to a northeast Pacific origin of complex kelps, with subsequent colonization of new habitats likely playing an important role in driving their ecological diversification. We infer that complex morphologies associated with modern kelp forests (e.g. branching, pneumatocysts) evolved several times over the past 15–20 MY, highlighting the importance of morphological convergence in establishing modern upright kelp forests. Our phylogenomic findings provide new insights into the geographical and ecological proliferation of kelps and provide a timeline along which feedbacks between kelps and their food-webs could have shaped the structure of temperate ecosystems.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2019.04.012