Jennifer A. Flannery
Christopher D. Reich
Daniel K. Umberger
Joseph M. Smoak
Richard Z. Poore
Adis Muslic
2013
<p><span>Colonies of three coral species,</span><i> Montastraea faveolata</i><span>, </span><i>Diploria strigosa</i><span>, and </span><i>Siderastrea siderea</i><span>, located in the Dry Tortugas National Park (DRTO), Florida, were sampled and analyzed to evaluate annual linear extension rates. </span><i>Montastraea faveolata</i><span> had the highest average linear extension and variability in (DRTO: C2 = 0.67 centimeters/year (cm yr</span><sup>-1</sup><span>) ± 0.04, B3 = 0.85 cm yr</span><sup>-1</sup><span> ± 0.07), followed by </span><i>D. strigosa</i><span> (DRTO: C1 = 0.73 cm yr</span><sup>-1</sup><span> ± 0.04; MK = 0.59 cm yr</span><sup>-1</sup><span> ± 0.06) and </span><i>S. siderea</i><span> (DRTO: A1 = 0.41 cm yr</span><sup>-1</sup><span> ± 0.03). Intercolony comparison of </span><i>M. faveolata</i><span> from DRTO yielded a significant correlation (r = 0.34, df = 67, P = 0.005) and similar long-term patterns. DRTO </span><i>S. siderea</i><span> core A1 showed an overall increasing trend (r = 0.61, df = 119, P < 0.0001) in extension rates that correlated significantly with International Comprehensive Ocean/Atmosphere Data Set annual sea-surface temperature (r = 0.42, df = 115, P < 0.0001) and an air temperature record from Key West (r = 0.37, df = 111, P < 0.0001). In conclusion, annual linear extension rates are species specific and potentially influence by long-term variability in sea-surface temperature.</span></p>
application/pdf
10.3133/ofr20131121
en
U.S. Geological Survey
Linear extension rates of massive corals from the Dry Tortugas National Park (DRTO), Florida
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