Wei Z, Kießling W, Guo Z, Benton MJ, Su L, Huang Y, Chen ZQ (2026)
Publication Type: Journal article
Publication year: 2026
Book Volume: 123
Article Number: e2532242123
Journal Issue: 26
The ecological success of modern reef-building corals is rooted in photosymbiosis, yet its macroevolutionary benefit remains unclear. Analyzing the Phanerozoic record of inferred zooxanthellate (Z) and azooxanthellate (AZ) corals over geologic time scales using Bayesian methods, we identify a fundamental shift in diversification dynamics and their drivers across the Paleozoic–Mesozoic transition. Although Z corals dominate modern tropical reef ecosystems, their Paleozoic counterparts were outpaced by AZ forms and showed failed recoveries after the Late Devonian mass extinction. We found Z coral diversification was primarily driven by origination, whereas AZ diversification was controlled by extinction. Multivariate birth–death models reveal that Paleozoic coral diversification was governed by abiotic stressors like warming and anoxia, to which Z and AZ corals showed similar vulnerability. The rise of scleractinian corals in the Triassic marked a distinct macroevolutionary regime shift after which photosymbiosis spurred coral diversification. Positive correlations between temperature and Z coral extinction dominated the Paleozoic, while negative correlations prevailed in the Meso-Cenozoic. The long-term reversal of this relationship could be the reduced supersaturation of the oceans with respect to CaCO
APA:
Wei, Z., Kießling, W., Guo, Z., Benton, M.J., Su, L., Huang, Y., & Chen, Z.Q. (2026). The contingent advantage of photosymbiosis in coral evolution. Proceedings of the National Academy of Sciences of the United States of America, 123(26). https://doi.org/10.1073/pnas.2532242123
MLA:
Wei, Zhensheng, et al. "The contingent advantage of photosymbiosis in coral evolution." Proceedings of the National Academy of Sciences of the United States of America 123.26 (2026).
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