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Microbial and sponge loops modify fish production in phase‐shifting coral reefs
Author(s) -
Silveira Cynthia B.,
SilvaLima Arthur W.,
FranciniFilho Ronaldo B.,
Marques Jomar S.M.,
Almeida Marcelo G.,
Thompson Cristiane C.,
Rezende Carlos E.,
Paranhos Rodolfo,
Moura Rodrigo L.,
Salomon Paulo S.,
Thompson Fabiano L.
Publication year - 2015
Publication title -
environmental microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.954
H-Index - 188
eISSN - 1462-2920
pISSN - 1462-2912
DOI - 10.1111/1462-2920.12851
Subject(s) - benthic zone , reef , biology , coral reef , plankton , biomass (ecology) , ecology , coral , fishery
Summary Shifts from coral to algae dominance of corals reefs have been correlated to fish biomass loss and increased microbial metabolism. Here we investigated reef benthic and planktonic primary production, benthic dissolved organic carbon ( DOC ) release and bacterial growth efficiency in the A brolhos B ank, S outh A tlantic. Benthic DOC release rates are higher while water column bacterial growth efficiency is lower at impacted reefs. A trophic model based on the benthic and planktonic primary production was able to predict the observed relative fish biomass in healthy reefs. In contrast, in impacted reefs, the observed omnivorous fish biomass is higher, while that of the herbivorous/coralivorous fish is lower than predicted by the primary production‐based model. Incorporating recycling of benthic‐derived carbon in the model through microbial and sponge loops explains the difference and predicts the relative fish biomass in both reef types. Increased benthic carbon release rates and bacterial carbon metabolism, but decreased bacterial growth efficiency could lead to carbon losses through respiration and account for the uncoupling of benthic and fish production in phase‐shifting reefs. Carbon recycling by microbial and sponge loops seems to promote an increase of small‐bodied fish productivity in phase‐shifting coral reefs.