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Re-structuring of marine communities exposed to environmental change : A global study on the interactive effects of species and functional richness

Wahl, Martin ; Link, Heike ; Alexandridis, Nicolaos LU ; Thomason, Jeremy C. ; Cifuentes, Mauricio ; Costello, Mark J. ; da Gama, Bernardo A.P. ; Hillock, Kristina ; Hobday, Alistair J. and Kaufmann, Manfred J. , et al. (2011) In PLoS ONE 6(5).
Abstract

Species richness is the most commonly used but controversial biodiversity metric in studies on aspects of community stability such as structural composition or productivity. The apparent ambiguity of theoretical and experimental findings may in part be due to experimental shortcomings and/or heterogeneity of scales and methods in earlier studies. This has led to an urgent call for improved and more realistic experiments. In a series of experiments replicated at a global scale we translocated several hundred marine hard bottom communities to new environments simulating a rapid but moderate environmental change. Subsequently, we measured their rate of compositional change (re-structuring) which in the great majority of cases represented a... (More)

Species richness is the most commonly used but controversial biodiversity metric in studies on aspects of community stability such as structural composition or productivity. The apparent ambiguity of theoretical and experimental findings may in part be due to experimental shortcomings and/or heterogeneity of scales and methods in earlier studies. This has led to an urgent call for improved and more realistic experiments. In a series of experiments replicated at a global scale we translocated several hundred marine hard bottom communities to new environments simulating a rapid but moderate environmental change. Subsequently, we measured their rate of compositional change (re-structuring) which in the great majority of cases represented a compositional convergence towards local communities. Re-structuring is driven by mortality of community components (original species) and establishment of new species in the changed environmental context. The rate of this re-structuring was then related to various system properties. We show that availability of free substratum relates negatively while taxon richness relates positively to structural persistence (i.e., no or slow re-structuring). Thus, when faced with environmental change, taxon-rich communities retain their original composition longer than taxon-poor communities. The effect of taxon richness, however, interacts with another aspect of diversity, functional richness. Indeed, taxon richness relates positively to persistence in functionally depauperate communities, but not in functionally diverse communities. The interaction between taxonomic and functional diversity with regard to the behaviour of communities exposed to environmental stress may help understand some of the seemingly contrasting findings of past research.

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publishing date
type
Contribution to journal
publication status
published
subject
in
PLoS ONE
volume
6
issue
5
article number
e19514
pages
9 pages
publisher
Public Library of Science (PLoS)
external identifiers
  • scopus:79956211152
  • pmid:21611170
ISSN
1932-6203
DOI
10.1371/journal.pone.0019514
language
English
LU publication?
no
id
976038e3-3675-4b4f-8265-401bcc4b4855
date added to LUP
2018-06-16 10:27:57
date last changed
2024-06-18 10:53:27
@article{976038e3-3675-4b4f-8265-401bcc4b4855,
  abstract     = {{<p>Species richness is the most commonly used but controversial biodiversity metric in studies on aspects of community stability such as structural composition or productivity. The apparent ambiguity of theoretical and experimental findings may in part be due to experimental shortcomings and/or heterogeneity of scales and methods in earlier studies. This has led to an urgent call for improved and more realistic experiments. In a series of experiments replicated at a global scale we translocated several hundred marine hard bottom communities to new environments simulating a rapid but moderate environmental change. Subsequently, we measured their rate of compositional change (re-structuring) which in the great majority of cases represented a compositional convergence towards local communities. Re-structuring is driven by mortality of community components (original species) and establishment of new species in the changed environmental context. The rate of this re-structuring was then related to various system properties. We show that availability of free substratum relates negatively while taxon richness relates positively to structural persistence (i.e., no or slow re-structuring). Thus, when faced with environmental change, taxon-rich communities retain their original composition longer than taxon-poor communities. The effect of taxon richness, however, interacts with another aspect of diversity, functional richness. Indeed, taxon richness relates positively to persistence in functionally depauperate communities, but not in functionally diverse communities. The interaction between taxonomic and functional diversity with regard to the behaviour of communities exposed to environmental stress may help understand some of the seemingly contrasting findings of past research.</p>}},
  author       = {{Wahl, Martin and Link, Heike and Alexandridis, Nicolaos and Thomason, Jeremy C. and Cifuentes, Mauricio and Costello, Mark J. and da Gama, Bernardo A.P. and Hillock, Kristina and Hobday, Alistair J. and Kaufmann, Manfred J. and Keller, Stefanie and Kraufvelin, Patrik and Krüger, Ina and Lauterbach, Lars and Antunes, Bruno L. and Molis, Markus and Nakaoka, Masahiro and Nyström, Julia and bin Radzi, Zulkamal and Stockhausen, Björn and Thiel, Martin and Vance, Thomas and Weseloh, Annika and Whittle, Mark and Wiesmann, Lisa and Wunderer, Laura and Yamakita, Takehisa and Lenz, Mark}},
  issn         = {{1932-6203}},
  language     = {{eng}},
  month        = {{05}},
  number       = {{5}},
  publisher    = {{Public Library of Science (PLoS)}},
  series       = {{PLoS ONE}},
  title        = {{Re-structuring of marine communities exposed to environmental change : A global study on the interactive effects of species and functional richness}},
  url          = {{http://dx.doi.org/10.1371/journal.pone.0019514}},
  doi          = {{10.1371/journal.pone.0019514}},
  volume       = {{6}},
  year         = {{2011}},
}