Albright, R. et al. Reversal of ocean acidification enhances net coral reef calcification. Nature 531, 362–365 (2016).
Google Scholar
Pandolfi, J. M., Connolly, S. R., Marshall, D. J. & Cohen, A. L. Projecting coral reef futures under global warming and ocean acidification. Science 333, 418–422 (2011).
Google Scholar
Davis, K. L., Colefax, A. P., Tucker, J. P., Kelaher, B. P. & Santos, I. R. Global coral reef ecosystems exhibit declining calcification and increasing primary productivity. Commun. Earth Environ. 2, 1–10 (2021).
Google Scholar
Silverman, J., Lazar, B., Cao, L., Caldeira, K. & Erez, J. Coral reefs may start dissolving when atmospheric CO2 doubles. Geophys. Res. Lett. 36, L05606 (2009).
Anthony, K. R. N., Kleypas, J. A. & Gattuso, J. P. Coral reefs modify their seawater carbon chemistry – implications for impacts of ocean acidification. Global Change Biol. 17, 3655–3666 (2011).
Google Scholar
Eyre, B. D. et al. Coral reefs will transition to net dissolving before end of century. Science 359, 908–911 (2018).
Google Scholar
Cantin, N. E., Cohen, A. L., Karnauskas, K. B., Tarrant, A. M. & McCorkle, D. C. Ocean warming slows coral growth in the central Red Sea. Science 329, 322–325 (2010).
Google Scholar
Ries, J. B., Ghazaleh, M. N., Connolly, B., Westfield, I. & Castillo, K. D. Impacts of seawater saturation state (ΩA=0.4-4.6) and temperature (10, 25˚C) on the dissolution kinetics of whole-shell biogenic carbonates. Geochim. Cosmochim. Ac 192, 318–337 (2016).
Google Scholar
Kornder, N. A., Riegl, B. M. & Figueiredo, J. Thresholds and drivers of coral calcification responses to climate change. Global Change Biol. 24, 5084–5095 (2018).
Google Scholar
Cyronak, T., Schulz, K. G. & Jokiel, P. L. The Omega myth: what really drives lower calcification rates in an acidifying ocean. Ices J Mar Sci 73, 558–562 (2016).
Google Scholar
Davis, K. L., McMahon, A., Kelaher, B., Shaw, E. & Santos, I. R. Fifty years of sporadic coral reef calcification estimates at One Tree Island, Great Barrier Reef: is it enough to imply long term trends? Front Marine Sci 6, 00282 (2019).
Cyronak, T. et al. Taking the metabolic pulse of the world’s coral reefs. PLoS One 13, e0190872 (2018).
Google Scholar
Kinsey, D. W. Carbon turnover and accumulation by coral reefs, (University of Hawaii, 1979).
Barnes, D. J. Profiling coral reef productivity and calcification using pH and oxygen electrodes. J. Exp. Mar. Biol. Ecol. 66, 149–161 (1983).
Google Scholar
Albright, R., Langdon, C. & Anthony, K. R. N. Dynamics of seawater carbonate chemistry, production, and calcification of a coral reef flat, central Great Barrier Reef. Biogeosciences 10, 6747–6758 (2013).
Google Scholar
Silverman, J. et al. Community calcification in Lizard Island, Great Barrier Reef: A 33 year perspective. Geochim. Cosmochim. Ac 144, 72–81 (2014).
Google Scholar
Pichon, M. & Morrissey, J. Benthic zonation and community structure of South Island Reef, Lizard Island (Great Barrier Reef). B. Mar. Sci. 31, 581–593 (1981).
SCU. Declining growth rates of global coral reef ecosystems, Southern Cross University, June 2021. https://www.scu.edu.au/engage/news/latest-news/2021/declining-growth-rates-of-global-coral-reef-ecosystems.php (2021).
Andersson, A. J., Yeakel, K. L., Bates, N. R. & de Putron, S. J. Partial offsets in ocean acidification from changing coral reef biogeochemistry. Nat. Clim. Change 4, 56–61 (2014).
Google Scholar
Kapsenberg, L. & Cyronak, T. Ocean acidification refugia in variable environments. Global Change Biol. 25, 3201–3214 (2019).
Google Scholar
Cvitanovic, C. & Hobday, A. J. Building optimism at the environmental science-policy-practice interface through the study of bright spots. Nat. Commun. 9, 1–5 (2018).
Google Scholar
Source: Ecology - nature.com