First evidence of bryophyte diaspores in the plumage of transequatorial migrant birds

Correlations between transequatorial migratory bird routes and bipolar biogeographic disjunctions in bryophytes suggest that disjunctions between northern and southern high latitude regions may result from bird-mediated dispersal; supporting evidence is, however, exclusively circumstantial. Birds di...

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Bibliographic Details
Published in:PeerJ
Main Authors: Lily R. Lewis, Emily Behling, Hannah Gousse, Emily Qian, Chris S. Elphick, Jean-François Lamarre, Joël Bêty, Joe Liebezeit, Ricardo Rozzi, Bernard Goffinet
Format: Article in Journal/Newspaper
Language:English
Published: PeerJ Inc. 2014
Subjects:
Bryophyte
Bipolar
Ectozoochory
Long-distance dispersal
Diaspore
Endozoochory
Medicine
R
Biology (General)
QH301-705.5
Arctic
Online Access:https://doi.org/10.7717/peerj.424
https://doaj.org/article/f0858d3755564137bae9764574ac0dd8
Description
Summary:Correlations between transequatorial migratory bird routes and bipolar biogeographic disjunctions in bryophytes suggest that disjunctions between northern and southern high latitude regions may result from bird-mediated dispersal; supporting evidence is, however, exclusively circumstantial. Birds disperse plant units (diaspores) internally via ingestion (endozoochory) or externally by the attachment of diaspores to the body (ectozoochory). Endozoochory is known to be the primary means of bird-mediated dispersal for seeds and invertebrates at local, regional, and continental scales. Data supporting the role of bird-mediated endozoochory or ectozoochory in the long distance dispersal of bryophytes remain sparse, however, despite the large number of bryophytes displaying bipolar disjunctions. To determine if transequatorial migrant shorebirds may play a role in the ectozoochory of bryophyte diaspores, we developed a method for screening feathers of wild birds. We provide the first evidence of microscopic bryophyte diaspores, as well as those from non-bryophyte lineages, embedded in the plumage of long distance transequatorial migrant birds captured in their arctic breeding grounds. The number of diaspores recovered suggests that entire migratory populations may be departing their northern breeding grounds laden with potentially viable plant parts and that they could thereby play significant roles in bipolar range expansions of lineages previously ignored in the migrant bird dispersal literature.

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