Unraveling the multiple bottom-up supplies of an Antarctic nearshore benthic community

•Nearshore benthic Antarctic community in Fildes Bay assimilates different primary food sources.•Benthopelagic coupling depend on the consumers’ trophic positions.•The energy channeled to upper trophic consumers comes from organic matter in the surface sediment.•For lower trophic consumers energy ch...

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Bibliographic Details
Published inProgress in oceanography Vol. 174; pp. 55 - 63
Main Authors Zenteno, L., Cárdenas, L., Valdivia, N., Gómez, I., Höfer, J., Garrido, I., Pardo, LM
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2019
Subjects
Benthos
Ecosystem stability
Food web
Isotopic analysis
Maxwell Bay
Polar
Trophic ecology
Western Antarctic Peninsula
Isotopic analysis
Maxwell Bay
Food web
Polar
Trophic ecology
Benthos
Western Antarctic Peninsula
Ecosystem stability
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Summary:•Nearshore benthic Antarctic community in Fildes Bay assimilates different primary food sources.•Benthopelagic coupling depend on the consumers’ trophic positions.•The energy channeled to upper trophic consumers comes from organic matter in the surface sediment.•For lower trophic consumers energy channeled comes from macroalgae and pelagic basal sources. Disentangling the bottom-up controls of natural ecosystems is key to understanding the capacity of local communities to resist natural and anthropogenic disturbances. Here, we used carbon and nitrogen stable isotope ratios with a Bayesian multiple source mixing model to trace diverse food sources supporting the benthic trophic network in Fildes Bay (South Shetland Island, Western Antarctic Peninsula). Individuals of 16 species of consumers and five potential food sources (e.g. inter- and subtidal macroalgae, suspended and sinking particulate organic matter, and particulate organic matter from sediment) were collected during January and February 2017. The results showed that benthic organisms of Fildes Bay assimilate a broad range of available organic matter: most of the energy channeled to upper trophic consumers comes from organic matter in the surface sediment, whereas energy moving among lower trophic consumers comes largely from macroalgae and pelagic primary food sources. Overall, our evidence indicates that the present-day nearshore benthic community of Fildes Bay relies on different primary food sources, channeling bottom-up supplies through multiple pathways, which leads to highly stable systems in the face of current scenarios of global change.
ISSN:0079-6611
1873-4472
DOI:10.1016/j.pocean.2018.10.016