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Ecosystem restructuring along the Great Barrier Reef following mass coral bleaching

Author

Listed:
  • Rick D. Stuart-Smith

    (University of Tasmania)

  • Christopher J. Brown

    (Griffith University)

  • Daniela M. Ceccarelli

    (James Cook University)

  • Graham J. Edgar

    (University of Tasmania)

Abstract

Global warming is markedly changing diverse coral reef ecosystems through an increasing frequency and magnitude of mass bleaching events1–3. How local impacts scale up across affected regions depends on numerous factors, including patchiness in coral mortality, metabolic effects of extreme temperatures on populations of reef-dwelling species4 and interactions between taxa. Here we use data from before and after the 2016 mass bleaching event to evaluate ecological changes in corals, algae, fishes and mobile invertebrates at 186 sites along the full latitudinal span of the Great Barrier Reef and western Coral Sea. One year after the bleaching event, reductions in live coral cover of up to 51% were observed on surveyed reefs that experienced extreme temperatures; however, regional patterns of coral mortality were patchy. Consistent declines in coral-feeding fishes were evident at the most heavily affected reefs, whereas few other short-term responses of reef fishes and invertebrates could be attributed directly to changes in coral cover. Nevertheless, substantial region-wide ecological changes occurred that were mostly independent of coral loss, and instead appeared to be linked directly to sea temperatures. Community-wide trophic restructuring was evident, with weakening of strong pre-existing latitudinal gradients in the diversity of fishes, invertebrates and their functional groups. In particular, fishes that scrape algae from reef surfaces, which are considered to be important for recovery after bleaching2, declined on northern reefs, whereas other herbivorous groups increased on southern reefs. The full impact of the 2016 bleaching event may not be realized until dead corals erode during the next decade5,6. However, our short-term observations suggest that the recovery processes, and the ultimate scale of impact, are affected by functional changes in communities, which in turn depend on the thermal affinities of local reef-associated fauna. Such changes will vary geographically, and may be particularly acute at locations where many fishes and invertebrates are close to their thermal distribution limits7.

Suggested Citation

  • Rick D. Stuart-Smith & Christopher J. Brown & Daniela M. Ceccarelli & Graham J. Edgar, 2018. "Ecosystem restructuring along the Great Barrier Reef following mass coral bleaching," Nature, Nature, vol. 560(7716), pages 92-96, August.
    • Handle: RePEc:nat:nature:v:560:y:2018:i:7716:d:10.1038_s41586-018-0359-9
    DOI: 10.1038/s41586-018-0359-9
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    Cited by:

    1. Alexandre C. Siqueira & Wolfgang Kiessling & David R. Bellwood, 2022. "Fast-growing species shape the evolution of reef corals," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    2. Chaojiao Sun & Alistair J. Hobday & Scott A. Condie & Mark E. Baird & J. Paige Eveson & Jason R. Hartog & Anthony J. Richardson & Andrew D. L. Steven & Karen Wild-Allen & Russell C. Babcock & Dezhou Y, 2022. "Ecological Forecasting and Operational Information Systems Support Sustainable Ocean Management," Forecasting, MDPI, vol. 4(4), pages 1-29, December.
    3. Sean Pascoe & Toni Cannard & Natalie A. Dowling & Catherine M. Dichmont & Sian Breen & Tom Roberts & Rachel J. Pears & George M. Leigh, 2019. "Developing Harvest Strategies to Achieve Ecological, Economic and Social Sustainability in Multi-Sector Fisheries," Sustainability, MDPI, vol. 11(3), pages 1-21, January.
    4. Jacob G. D. Rogers & Éva E. Plagányi, 2022. "Culling corallivores improves short-term coral recovery under bleaching scenarios," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    5. Thomas W. Davies & Oren Levy & Svenja Tidau & Laura Fernandes Barros Marangoni & Joerg Wiedenmann & Cecilia D’Angelo & Tim Smyth, 2023. "Global disruption of coral broadcast spawning associated with artificial light at night," Nature Communications, Nature, vol. 14(1), pages 1-7, December.

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