Data from: Global biogeographic patterns in bipolar moss species

A bipolar disjunction is an extreme, yet common, biogeographic pattern in non-vascular plants, yet its underlying mechanisms (vicariance or long-distance dispersal), origin and timing remain poorly understood. Here, combining a large-scale population dataset and multiple dating analyses, we examine...

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Bibliographic Details
Main Authors: Biersma, Elisabeth Machteld, Jackson, Jennifer A., Hyvonen, Jaakko, Koskinen, Satu, Linse, Katrin, Griffiths, Howard, Convey, Peter
Format: Dataset
Language:unknown
Published: 2017
Subjects:
high latitude
polar
Polytrichum juniperinum
Polytrichastrum
Polytrichaceae
bryophyte
Polytrichum piliferum
moss
Polytrichum strictum
Polytrichastrum alpinum
Oligocene
Amphitropical
Bipolar disjunction
Miocene
Antarctic
Stepping Stones
The Antarctic
Antarc*
Online Access:https://zenodo.org/record/4945172
https://doi.org/10.5061/dryad.4m35m
Description
Summary:A bipolar disjunction is an extreme, yet common, biogeographic pattern in non-vascular plants, yet its underlying mechanisms (vicariance or long-distance dispersal), origin and timing remain poorly understood. Here, combining a large-scale population dataset and multiple dating analyses, we examine the biogeography of four bipolar Polytrichales mosses, common to the Holarctic (temperate and polar Northern Hemisphere regions) and the Antarctic region (Antarctic, sub-Antarctic, southern South America) and other Southern Hemisphere (SH) regions. Our data reveal contrasting patterns, for three species were of Holarctic origin, with subsequent dispersal to the SH, while one, currently a particularly common species in the Holarctic (Polytrichum juniperinum), diversified in the Antarctic region and from here colonized both the Holarctic and other SH regions. Our findings suggest long-distance dispersal as the driver of bipolar disjunctions. We find such inter-hemispheric dispersals are rare, occurring on multi-million-year timescales. High-altitude tropical populations did not act as trans-equatorial 'stepping-stones', but rather were derived from later dispersal events. All arrivals to the Antarctic region occurred well before the Last Glacial Maximum and previous glaciations, suggesting that, despite the harsh climate during these past glacial maxima, plants have had a much longer presence in this southern region than previously thought. Bayesian_analysesnex and tree files for Bayesian phylogenetic analyses of trnL-F and ITS 1+2ML_analysesRAxML-GUI tree filesArlequin_filesArlequin arp analyses and xml result filesHaplotype_network_analysesTCS network nex files (ITS1+2 and ITS2 only) used in PopartBEAST_analysesxml and tree files for the different molecular dating analyses as used in BEAST. These include the two two-step dating analyses, one with (I1a + I2a) and one without (I1b + I2b) the fossil Eopolytrichum antiquum, and the molecular rate analysis (II).

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