Climatic and biotic thresholds of coral-reef shutdown

Lauren T. Toth, Richard B. Aronson, Kim M. Cobb, Hai Cheng, R. Lawrence Edwards, Pamela R. Grothe, Hussein R. Sayani

Research output: Contribution to journalArticlepeer-review

30 Scopus citations


Climate change is now the leading cause of coral-reef degradation and is altering the adaptive landscape of coral populations. Increasing sea temperatures and declining carbonate saturation states are inhibiting short-term rates of coral calcification, carbonate precipitation and submarine cementation. A critical challenge to coral-reef conservation is understanding the mechanisms by which environmental perturbations scale up to influence long-term rates of reef-framework construction and ecosystem function. Here we reconstruct climatic and oceanographic variability using corals sampled from a 6,750-year core from Pacific Panamá. Simultaneous reconstructions of coral palaeophysiology and reef accretion allowed us to identify the climatic and biotic thresholds associated with a 2,500-year hiatus in vertical accretion beginning â 1/44,100 years ago. Stronger upwelling, cooler sea temperatures and greater precipitation-indicators of La Ninã-like conditions-were closely associated with abrupt reef shutdown. The physiological condition of the corals deteriorated at the onset of the hiatus, corroborating theoretical predictions that the tipping points of radical ecosystem transitions should be manifested sublethally in the biotic constituents. Future climate change could cause similar threshold behaviours, leading to another shutdown in reef development in the tropical eastern Pacific.

Original languageEnglish (US)
Pages (from-to)369-374
Number of pages6
JournalNature Climate Change
Issue number4
StatePublished - Mar 25 2015

Bibliographical note

Funding Information:
We are grateful to P. Swart, A. Rosenberg and A. Waite for providing assistance with geochemical analyses. We also thank M. Bush, P. Glynn, J. Trefry and R. van Woesik for advice and discussion. H. Guzmán and S. Dos Santos of the Smithsonian Tropical Research Institute provided regional temperature and rainfall data for the proxy calibrations. This research was financially supported by a Graduate Student Research Grant from the Geological Society of America, a grant from the Lerner–Gray Fund for Marine Research of the American Museum of Natural History, grants from the Smithsonian Institution’s Marine Science Network, and the Natural Science Foundation of China grant no. 41230524. Field work was carried out under permits from the Republic of Panamá. This paper is dedicated to the memory of G. M. Wellington, whose research in the eastern Pacific laid the foundations on which our work is built. This is Contribution 128 from the Institute for Research on Global Climate Change at the Florida Institute of Technology.

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