Predicting ecological changes on benthic estuarine assemblages through decadal climate trends along Brazilian Marine Ecoregions

Estuaries are threatened coastal ecosystems that support relevant ecological functions worldwide. The predicted global climate changes demand actions to understand, anticipate and avoid further damage to estuarine habitats. In this study we reviewed data on polychaete assemblages, as a surrogate for...

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Bibliographic Details
Published in:Estuarine, coastal and shelf science coastal and shelf science, 2015-12, Vol.166, p.74-82
Main Authors: Bernardino, Angelo F., Netto, Sérgio A., Pagliosa, Paulo R., Barros, Francisco, Christofoletti, Ronaldo A., Rosa Filho, José S., Colling, André, Lana, Paulo C.
Format: Article
Language:English
Subjects:
benthic ecology
Brackish
Brazil
Climate
climate change
Ecology
Estuaries
Estuarine environments
Marine
marine ecoregions
polychaetes
Rainfall
Trends
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Summary:Estuaries are threatened coastal ecosystems that support relevant ecological functions worldwide. The predicted global climate changes demand actions to understand, anticipate and avoid further damage to estuarine habitats. In this study we reviewed data on polychaete assemblages, as a surrogate for overall benthic communities, from 51 estuaries along five Marine Ecoregions of Brazil (Amazonia, NE Brazil, E Brazil, SE Brazil and Rio Grande). We critically evaluated the adaptive capacity and ultimately the resilience to decadal changes in temperature and rainfall of the polychaete assemblages. As a support for theoretical predictions on changes linked to global warming we compared the variability of benthic assemblages across the ecoregions with a 40-year time series of temperature and rainfall data. We found a significant upward trend in temperature during the last four decades at all marine ecoregions of Brazil, while rainfall increase was restricted to the SE Brazil ecoregion. Benthic assemblages and climate trends varied significantly among and within ecoregions. The high variability in climate patterns in estuaries within the same ecoregion may lead to correspondingly high levels of noise on the expected responses of benthic fauna. Nonetheless, we expect changes in community structure and productivity of benthic species at marine ecoregions under increasing influence of higher temperatures, extreme events and pollution. •We reviewed decadal climatic variability from five Brazilian Marine Ecoregions.•Estuarine benthic assemblages differ among Marine Provinces and Ecoregions.•Warming and storm events may impact estuarine benthic ecosystems.
ISSN:0272-7714
1096-0015
DOI:10.1016/j.ecss.2015.05.021