Changes in tree community structure in defaunated forests are not driven only by dispersal limitation

Title
Changes in tree community structure in defaunated forests are not driven only by dispersal limitation
Publication Date
2020-04
Author(s)
Hazelwood, Kirstie
Paine, C E Timothy
( author )
OrcID: https://orcid.org/0000-0001-8705-3719
Email: cpaine2@une.edu.au
UNE Id une-id:cpaine2
Cornejo Valverde, Fernando H
Pringle, Elizabeth G
Beck, Harald
Terborgh, John
Type of document
Journal Article
Language
en
Entity Type
Publication
Publisher
John Wiley & Sons Ltd
Place of publication
United Kingdom
DOI
10.1002/ece3.6133
UNE publication id
une:1959.11/38876
Abstract
  1. Bushmeat hunting has reduced population sizes of large frugivorous vertebrates throughout the tropics, thereby reducing the dispersal of seeds. This is believed to affect tree population dynamics, and therefore community composition, because the seed dispersal of large-seeded trees depends upon large-bodied vertebrates.
  2. We report on a long-running study of the effect of defaunation on a tropical tree community. In three censuses over 11 years, we compared sapling recruitment between a hunted and a nonhunted site, which are nearby and comparable to one another, to determine the extent to which species composition has changed through time following defaunation. We expected to find a reduced abundance of tree species that rely on large frugivores for dispersal at the hunted site and altered community structure as a consequence.
  3. Although community composition at the hunted site diverged from that at the nonhunted site, the changes were independent of dispersal syndrome, with no trend toward a decline in species that are dispersed by large, hunted vertebrates. Moreover, the loss of large-bodied dispersers did not generate the changes in tree community composition that we hypothesized. Some species presumed to rely on large-bodied frugivores for dispersal are effectively recruiting despite the absence of their dispersers.
  4. Synthesis: The presumption that forests depleted of large-bodied dispersers will experience rapid, directional compositional change is not fully supported by our results. Altered species composition in the sapling layer at the hunted site, however, indicates that defaunation may be connected with changes to the tree community, but that the nature of these changes is not unidirectional as previously assumed. It remains difficult to predict how defaunation will affect tree community composition without a deeper understanding of the driving mechanisms at play.
Link
Citation
Ecology and Evolution, 10(7), p. 3392-3401
ISSN
2045-7758
Pubmed ID
32273996
Start page
3392
End page
3401
Rights
Attribution 4.0 International

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