Consumers control diversity and functioning of a natural marine ecosystem

Our understanding of the functional consequences of changes in biodiversity has been hampered by several limitations of previous work, including limited attention to trophic interactions, a focus on species richness rather than evenness, and the use of artificially assembled communities. In this stu...

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Veröffentlicht in:	PloS one 2009-04, Vol.4 (4), p.e5291-e5291
Hauptverfasser:	Altieri, Andrew H, Trussell, Geoffrey C, Ewanchuk, Patrick J, Bernatchez, Genevieve, Bracken, Matthew E S
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Animals Aquatic plants Biodiversity Biological diversity Biomass Communities Consumers Coral reefs Data analysis Ecology Ecology/Community Ecology and Biodiversity Ecology/Marine and Freshwater Ecology Ecosystem Ecosystem biology Ecosystems Environmental changes Experiments Feeding Behavior Flowers & plants Food chains Influence Littorina Marine ecosystems Metabolism Mollusks Multivariate analysis Respiration Science Snails Snails - physiology Species richness Tide pool ecology Tide pools Tides Ulva lactuca Variance analysis
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creator	Altieri, Andrew H Trussell, Geoffrey C Ewanchuk, Patrick J Bernatchez, Genevieve Bracken, Matthew E S
description	Our understanding of the functional consequences of changes in biodiversity has been hampered by several limitations of previous work, including limited attention to trophic interactions, a focus on species richness rather than evenness, and the use of artificially assembled communities. In this study, we manipulated the density of an herbivorous snail in natural tide pools and allowed seaweed communities to assemble in an ecologically relevant and non-random manner. Seaweed species evenness and biomass-specific primary productivity (mg O(2) h(-1) g(-1)) were higher in tide pools with snails because snails preferentially consumed an otherwise dominant seaweed species that can reduce biomass-specific productivity rates of algal assemblages. Although snails reduced overall seaweed biomass in tide pools, they did not affect gross primary productivity at the scale of tide pools (mg O(2) h(-1) pool(-1) or mg O(2) h(-1) m(-2)) because of the enhanced biomass-specific productivity associated with grazer-mediated increases in algal evenness. Our results suggest that increased attention to trophic interactions, diversity measures other than richness, and particularly the effects of consumers on evenness and primary productivity, will improve our understanding of the relationship between diversity and ecosystem functioning and allow more effective links between experimental results and real-world changes in biodiversity.
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subjects	Algae Animals Aquatic plants Biodiversity Biological diversity Biomass Communities Consumers Coral reefs Data analysis Ecology Ecology/Community Ecology and Biodiversity Ecology/Marine and Freshwater Ecology Ecosystem Ecosystem biology Ecosystems Environmental changes Experiments Feeding Behavior Flowers & plants Food chains Influence Littorina Marine ecosystems Metabolism Mollusks Multivariate analysis Respiration Science Snails Snails - physiology Species richness Tide pool ecology Tide pools Tides Ulva lactuca Variance analysis
title	Consumers control diversity and functioning of a natural marine ecosystem
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