Author
Listed:
- Paola Fantazzini
(University of Bologna
Centro Enrico Fermi)
- Stefano Mengoli
(University of Bologna)
- Luca Pasquini
(University of Bologna)
- Villiam Bortolotti
(Chemical, Environmental, and Materials Engineering, University of Bologna)
- Leonardo Brizi
(University of Bologna
Centro Enrico Fermi)
- Manuel Mariani
(University of Bologna
Centro Enrico Fermi)
- Matteo Di Giosia
(University of Bologna)
- Simona Fermani
(University of Bologna)
- Bruno Capaccioni
(Geological and Environmental Sciences, Section of Geology, University of Bologna)
- Erik Caroselli
(Marine Science Group, Geological and Environmental Sciences, Section of Biology, University of Bologna)
- Fiorella Prada
(Marine Science Group, Geological and Environmental Sciences, Section of Biology, University of Bologna)
- Francesco Zaccanti
(Marine Science Group, Geological and Environmental Sciences, Section of Biology, University of Bologna)
- Oren Levy
(The Mina and Everard Goodman Faculty of Life Sciences, Bar-Ilan University)
- Zvy Dubinsky
(The Mina and Everard Goodman Faculty of Life Sciences, Bar-Ilan University)
- Jaap A. Kaandorp
(Section Computational Science, Faculty of Science, University of Amsterdam)
- Pirom Konglerd
(Section Computational Science, Faculty of Science, University of Amsterdam)
- Jörg U. Hammel
(Institute of Materials Research, Helmholtz-Zentrum Geesthacht, Outstation at DESY)
- Yannicke Dauphin
(Micropaléontologie, UFR TEB Université P. & M. Curie)
- Jean-Pierre Cuif
(Micropaléontologie, UFR TEB Université P. & M. Curie)
- James C. Weaver
(Wyss Institute for Biologically Inspired Engineering at Harvard University)
- Katharina E. Fabricius
(Australian Institute of Marine Science)
- Wolfgang Wagermaier
(Max Planck Institute of Colloids and Interfaces)
- Peter Fratzl
(Max Planck Institute of Colloids and Interfaces)
- Giuseppe Falini
(University of Bologna)
- Stefano Goffredo
(Marine Science Group, Geological and Environmental Sciences, Section of Biology, University of Bologna)
Abstract
Ocean acidification is predicted to impact ecosystems reliant on calcifying organisms, potentially reducing the socioeconomic benefits these habitats provide. Here we investigate the acclimation potential of stony corals living along a pH gradient caused by a Mediterranean CO2 vent that serves as a natural long-term experimental setting. We show that in response to reduced skeletal mineralization at lower pH, corals increase their skeletal macroporosity (features >10 μm) in order to maintain constant linear extension rate, an important criterion for reproductive output. At the nanoscale, the coral skeleton’s structural features are not altered. However, higher skeletal porosity, and reduced bulk density and stiffness may contribute to reduce population density and increase damage susceptibility under low pH conditions. Based on these observations, the almost universally employed measure of coral biomineralization, the rate of linear extension, might not be a reliable metric for assessing coral health and resilience in a warming and acidifying ocean.
Suggested Citation
Paola Fantazzini & Stefano Mengoli & Luca Pasquini & Villiam Bortolotti & Leonardo Brizi & Manuel Mariani & Matteo Di Giosia & Simona Fermani & Bruno Capaccioni & Erik Caroselli & Fiorella Prada & Fra, 2015.
"Gains and losses of coral skeletal porosity changes with ocean acidification acclimation,"
Nature Communications, Nature, vol. 6(1), pages 1-7, November.
Handle:
RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8785
DOI: 10.1038/ncomms8785
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