Bipolar distributions in vascular plants: A review

Bipolar disjunct distributions are a fascinating biogeographic pattern exhibited by about 30 vascular plants, whose populations reach very high latitudes in the northern and southern hemispheres. In this review, we fi rst propose a new framework for the defi nition of bipolar disjunctions and then r...

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Bibliographic Details
Published in:American Journal of Botany
Main Authors: Villaverde, T., Escudero, Marcial, Martín-Bravo, Santiago, Jiménez-Mejías, Pedro, Sanmartín, Isabel, Vargas, P., Luceño, M.
Format: Article in Journal/Newspaper
Language:unknown
Published: Botanical Society of America 2017
Subjects:
Boreal
Biogeographic patterns
Amphitropical
Dispersal vectors
New Zealand
Polar regions
South America
Antarctic
Antarc*
Online Access:http://hdl.handle.net/10261/167223
https://doi.org/10.3732/ajb.1700159
Description
Summary:Bipolar disjunct distributions are a fascinating biogeographic pattern exhibited by about 30 vascular plants, whose populations reach very high latitudes in the northern and southern hemispheres. In this review, we fi rst propose a new framework for the defi nition of bipolar disjunctions and then reformulate a list of guiding principles to consider how to study bipolar species. Vicariance and convergent evolution hypotheses have been argued to explain the origin of this fragmented distribution pattern, but we show here that they can be rejected for all bipolar species, except for Carex microglochin . Instead, human introduction and dispersal (either direct or by mountain-hopping) — facilitated by standard and nonstandard vectors — are the most likely explanations for the origin of bipolar plant disjunctions. Successful establishment after dispersal is key for colonization of the disjunct areas and appear to be related to both intrinsic (e.g., self-compatibility) and extrinsic (mutualistic and antagonistic interactions) characteristics. Most studies on plant bipolar disjunctions have been conducted in Carex (Cyperaceae), the genus of vascular plants with the largest number of bipolar species. We found a predominant north-tosouth direction of dispersal, with an estimated time of diversifi cation in agreement with major cooling events during the Pliocene and Pleistocene. Bipolar Carex species do not seem to depend on specialized traits for long-distance dispersal and could have dispersed through one or multiple stochastic events, with birds as the most likely dispersal vector. Th is research was supported by the Spanish Ministry of Economy and Competitiveness (projects CGL2012-3874 and CGL2016-77401-P). Peer Reviewed

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