Growth rates of Florida corals from 1937 to 1996 and their response to climate change

Growth rates of Florida corals from 1937 to 1996 and their response to climate change

Ocean acidification causes declines in calcification rates of corals because of decreasing aragonite saturation states (Ω arag ). Recent evidence also indicates that increasing sea surface temperatures may have already reduced growth and calcification rates because of the stenothermic threshold of l...

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Bibliographic Details
Published in:Nature communications Vol. 2; no. 1; p. 215
Main Authors: Helmle, Kevin P, Dodge, Richard E, Swart, Peter K, Gledhill, Dwight K, Eakin, C. Mark
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 01-03-2011
Nature Publishing Group
Subjects:
20th century
704/106/694
704/106/829/2737
704/158/2446/837
Animals
Anthozoa - growth & development
Atmospheric sciences
Calcification, Physiologic
Climate Change
Coral reefs
Ecosystem
Florida
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
Temperature
Trends
Florida
Florida Keys
Red Sea
United States > US
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Summary:Ocean acidification causes declines in calcification rates of corals because of decreasing aragonite saturation states (Ω arag ). Recent evidence also indicates that increasing sea surface temperatures may have already reduced growth and calcification rates because of the stenothermic threshold of localized coral populations. Density banding in coral skeletons provides a record of growth over the coral's lifespan. Here we present coral extension, bulk density and calcification master chronologies from seven subtropical corals ( Montastraea faveolata ) located in the Florida Keys, USA with a 60-year common period, 1937–1996. Linear trends indicate that extension increased, density decreased and calcification remained stable while the most recent decade was not significantly different than decadal averages over the preceding 50 years for extension and calcification. The results suggest that growth rates in this species of subtropical coral have been tolerant to recent climatic changes up to the time of collection (1996). Ocean acidification due to increasing carbon dioxide levels can affect the growth and viability of corals. In this study, the authors measured extension, calcification and density in Florida corals collected in 1996, and show that recent climate change did not cause a decline in their extension or calcification.
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms1222