Biomineralization control related to population density under ocean acidification

Goffredo, Stefano; Prada, Fiorella; Caroselli, Erik; Capaccioni, Bruno; Zaccanti, Francesco; Pasquini, Luca; Fantazzini, Paola; Fermani, Simona; Reggi, Michela; Levy, Oren; Fabricius, Katharina E.; Dubinsky, Zvy; Falini, Giuseppe

Biomineralization control related to population density under ocean acidification

Stefano Goffredo (), Fiorella Prada, Erik Caroselli, Bruno Capaccioni, Francesco Zaccanti, Luca Pasquini, Paola Fantazzini, Simona Fermani, Michela Reggi, Oren Levy, Katharina E. Fabricius, Zvy Dubinsky and Giuseppe Falini ()
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Stefano Goffredo: Marine Science Group, Geological and Environmental Sciences, Section of Biology, Alma Mater Studiorum — University of Bologna
Fiorella Prada: Marine Science Group, Geological and Environmental Sciences, Section of Biology, Alma Mater Studiorum — University of Bologna
Erik Caroselli: Marine Science Group, Geological and Environmental Sciences, Section of Biology, Alma Mater Studiorum — University of Bologna
Bruno Capaccioni: Geological and Environmental Sciences, Section of Geology, Alma Mater Studiorum — University of Bologna
Francesco Zaccanti: Marine Science Group, Geological and Environmental Sciences, Section of Biology, Alma Mater Studiorum — University of Bologna
Luca Pasquini: Alma Mater Studiorum — University of Bologna
Paola Fantazzini: Alma Mater Studiorum — University of Bologna
Simona Fermani: Alma Mater Studiorum — University of Bologna
Michela Reggi: Alma Mater Studiorum — University of Bologna
Oren Levy: The Mina and Everard Goodman Faculty of Life Sciences, Bar–Ilan University
Katharina E. Fabricius: Australian Institute of Marine Science
Zvy Dubinsky: The Mina and Everard Goodman Faculty of Life Sciences, Bar–Ilan University
Giuseppe Falini: Alma Mater Studiorum — University of Bologna

Nature Climate Change, 2014, vol. 4, issue 7, 593-597

Abstract: Carbon dioxide seeps in marine environments act as ‘natural labs’ for studying the impact of ocean acidification on benthic calcifiers. Focusing on the effects of an increased CO2 concentration on population density and biomineralization, this study helps explain species-specific responses to ocean acidification, and reveals some evidence of phenotypic plasticity that may improve the persistence of marine species in low pH conditions.

Date: 2014
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DOI: 10.1038/nclimate2241

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