The evolution and biogeographic history of epiphytic thalloid liverworts

The evolution and biogeographic history of epiphytic thalloid liverworts

[Display omitted] •Comprehensive molecular phylogeny of the epiphytic thalloid liverwort Metzgeria.•Austrometzgeria is a member of Metzgeria.•The cosmopolitan morpho-species M. furcata and M. leptoneura are not monophyletic.•Metzgeria originated in Gondwana during the Cretaceous.•Epiphytic thalloid...

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Published in:Molecular phylogenetics and evolution Vol. 165; p. 107298
Main Authors: Bechteler, Julia, Schäfer-Verwimp, Alfons, Glenny, David, Cargill, D. Christine, Maul, Karola, Schütz, Nicole, von Konrat, Matt, Quandt, Dietmar, Nebel, Martin
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-12-2021
Subjects:
Africa
Bryophyte
Divergence time estimates
Evolution, Molecular
Gondwana vicariance
Hepatophyta - genetics
Long-distance dispersal
Metzgeria
Phylogeny
Plant Leaves
Plastids
Taxonomy
Africa
Gondwana vicariance
Divergence time estimates
Taxonomy
Bryophyte
Long-distance dispersal
Metzgeria
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Summary:[Display omitted] •Comprehensive molecular phylogeny of the epiphytic thalloid liverwort Metzgeria.•Austrometzgeria is a member of Metzgeria.•The cosmopolitan morpho-species M. furcata and M. leptoneura are not monophyletic.•Metzgeria originated in Gondwana during the Cretaceous.•Epiphytic thalloid liverworts evolved between the Triassic and Cretaceous. Among liverworts, the epiphytic lifestyle is not only present in leafy forms but also in thalloid liverworts, which so far has received little attention in evolutionary and biogeographical studies. Metzgeria, with about 107 species worldwide, is the only genus of thalloid liverworts that comprises true epiphytes. In the present study, we provide the first comprehensive molecular phylogeny, including estimated divergence times and ancestral ranges of this genus. Analyses are based on a plastid marker dataset representing about half of the Metzgeria species diversity. We show for the first time with molecular data that Austrometzgeria is indeed a member of Metzgeria and that two morpho-species M. furcata and M. leptoneura are not monophyletic, but rather represent geographically well-defined clades. Our analyses indicate that Metzgeria started to diversify in the Cretaceous in an area encompassing today’s South America and Australasia. Thus, Metzgeria is one of the few known epiphytic liverwort genera whose biogeographic history was directly shaped by Gondwana vicariance. Subsequent dispersal events in the Cenozoic resulted in the colonization of Asia, Africa, North America, and Europe and led to today’s worldwide distribution of its species. We also provide the first reliable stem age estimate for Metzgeria due to the inclusion of its sister taxon Vandiemenia in our dating analyses. Additionally, this stem age estimate of about 240 million years most likely marks the starting point of a transition from a terrestrial to an epiphytic lifestyle in thalloid liverworts of the Metzgeriales. We assume that the Cretaceous Terrestrial Revolution played a key role in the evolution of epiphytic thalloid liverworts similar to that known for leafy liverworts.
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ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2021.107298