Consumer effects on ecosystem functioning in rock pools: roles of species richness and composition

A key challenge in research linking biodiversity and ecosystem functioning is to incorporate the trophic interactions that characterise natural systems. There is a particular shortage of studies investigating consumer species richness and composition (identity) effects in the context of ecosystem de...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) 2010-01, Vol.420, p.45-56
Main Authors: Griffin, John N., Noël, Laure M.-L. J., Crowe, Tasman P., Burrows, Michael T., Hawkins, Stephen J., Thompson, Richard C., Jenkins, Stuart R.
Format: Article
Language:English
Subjects:
Biodiversity
Biomass
Biomass production
Ecosystems
Environmental Sciences
Gibbula umbilicalis
Life Sciences
Littorina littorea
Marine
Marine ecosystems
Mollusca
Patella
Patella ulyssiponensis
Primary productivity
Productivity
Species
Species diversity
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Summary:A key challenge in research linking biodiversity and ecosystem functioning is to incorporate the trophic interactions that characterise natural systems. There is a particular shortage of studies investigating consumer species richness and composition (identity) effects in the context of ecosystem development (or succession). We manipulated the richness and composition of an assemblage of molluscan grazers (Patella ulyssiponensis,Gibbula umbilicalisandLittorina littorea) added to rock pools denuded of existing biota. We created monocultures and all possible multispecies combinations in a substitutive design, and ran a field experiment for 13 mo. We used 2 separate nested analyses to isolate the roles of species richness, species composition nested within levels of species richness and the specific effect of the limpetP. ulyssiponensis, a putative key species. We found no evidence that the biomass or productivity of the developing macroalgal assemblage was affected by grazer richness or species composition nested within richness levels. Rather, the presence ofP. ulyssiponensis, irrespective of the presence of other grazer species, acted to suppress mean values of these response variables. Biomass and productivity were not strongly related, showing that they provide unique information on ecosystem functioning in this system. Macroalgal species richness was also reduced byP. ulyssiponensis, and correlated positively with macroalgal biomass, indicating a link between these response variables. Macroalgal species composition was largely insensitive to either species richness or the presence ofP. ulyssiponensis, but responded to particular combinations of species within levels of these factors. The key role ofP. ulyssiponensisin determining ecosystem functioning is apparent from our results, but we note that consumer species richness may play an important role under more heterogeneous conditions.
ISSN:0171-8630
1616-1599
DOI:10.3354/meps08844