Deep vicariance and frequent transoceanic dispersal shape the evolutionary history of a globally distributed fern family

Premise The historical biogeography of ferns is typically expected to be dominated by long‐distance dispersal due to their minuscule spores. However, few studies have inferred the historical biogeography of a large and widely distributed group of ferns to test this hypothesis. Our aims were to deter...

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Bibliographic Details
Published in:American journal of botany 2022-10, Vol.109 (10), p.1579-1595
Main Authors: Testo, Weston L., Gasper, André L., Molino, Sonia, Galán, José María Gabriel y, Salino, Alexandre, Dittrich, Vinícius Antonio de Oliveira, Sessa, Emily B.
Format: Article
Language:English
Subjects:
Australia
Biogeography
Biological Evolution
Blechnaceae
Chloroplasts
Climate
Cretaceous
Dispersal
Dispersion
Diversification
Ecological effects
Eocene
Ferns
Ferns - genetics
Hemispheres
historical biogeography
History
long‐distance dispersal
Paleocene
Phylogeny
Phylogeography
pteridophytes
Speciation
Spores
Stochasticity
vicariance
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Summary:Premise The historical biogeography of ferns is typically expected to be dominated by long‐distance dispersal due to their minuscule spores. However, few studies have inferred the historical biogeography of a large and widely distributed group of ferns to test this hypothesis. Our aims were to determine the extent to which long‐distance dispersal vs. vicariance have shaped the history of the fern family Blechnaceae, to explore ecological correlates of dispersal and diversification, and to determine whether these patterns differ between the northern and southern hemispheres. Methods We used sequence data for three chloroplast loci to infer a time‐calibrated phylogeny for 154 of 265 species of Blechnaceae, including representatives of all genera in the family. This tree was used to conduct ancestral range reconstruction and stochastic character mapping, estimate diversification rates, and identify ecological correlates of diversification. Results Blechnaceae originated in Eurasia and began diversifying in the late Cretaceous. A lineage comprising most extant diversity diversified principally in the austral Pacific region around the Paleocene–Eocene Thermal Maximum. Land connections that existed near the poles during periods of warm climates likely facilitated migration of several lineages, with subsequent climate‐mediated vicariance shaping current distributions. Long‐distance dispersal is frequent and asymmetrical, with New Zealand/Pacific Islands, Australia, and tropical America being major source areas. Conclusions Ancient vicariance and extensive long‐distance dispersal have shaped the history of Blechnaceae in both the northern and southern hemispheres. The exceptional diversity in austral regions appears to reflect rapid speciation in these areas; mechanisms underlying this evolutionary success remain uncertain.
ISSN:0002-9122
1537-2197
DOI:10.1002/ajb2.16062