Microalgal blooms in the skeletons of bleached corals during the 2020 bleaching event on Heron Island, Australia

Fordyce, Alexander; Ainsworth, Tracy D.; Page, Charlotte E; Bergman, Jessica L.; Lantz, Coulson A.; Leggat, William

doi:10.1071/mf21050

Cited by 3 publications

(2 citation statements)

References 30 publications

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“…Such an increase in variability has never been formerly reported before, yet this can be explained by varying responses by different coral species, as with the rise in disease-free corals observed. In addition, coral reefs are complex habitats, and there is substantial variation in bleaching and heat stress responses that occur within and between reefs during bleaching events (Ainsworth et al, 2021;Fordyce et al, 2021;Page et al, 2019). A rise in disease prevalence variation with increasing average summer SST indicates that it will be more difficult to predict disease prevalence as average F I G U R E 4 Three oceans' predicted non-zero values (mu) of disease prevalence (community-level) per fixed variable.…”

Section: Seemingly Contradictory Effects Of Average Summer Sstmentioning

confidence: 99%

The impact of rising temperatures on the prevalence of coral diseases and its predictability: A global meta‐analysis

et al. 2023

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Coral reefs are under threat from disease as climate change alters environmental conditions. Rising temperatures exacerbate coral disease, but this relationship is likely complex as other factors also influence coral disease prevalence. To better understand this relationship, we meta‐analytically examined 108 studies for changes in global coral disease over time alongside temperature, expressed using average summer sea surface temperature (SST) and cumulative heat stress as weekly sea surface temperature anomalies (WSSTAs). We found that both rising average summer SST and WSSTA were associated with global increases in the mean and variability in coral disease prevalence. Global coral disease prevalence tripled, reaching 9.92% in the 25 years examined, and the effect of ‘year’ became more stable (i.e. prevalence has lower variance over time), contrasting the effects of the two temperature stressors. Regional patterns diverged over time and differed in response to average summer SST. Our model predicted that, under the same trajectory, 76.8% of corals would be diseased globally by 2100, even assuming moderate average summer SST and WSSTA. These results highlight the need for urgent action to mitigate coral disease. Mitigating the impact of rising ocean temperatures on coral disease is a complex challenge requiring global discussion and further study.

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Section: Seemingly Contradictory Effects Of Average Summer Sstmentioning

confidence: 99%

The impact of rising temperatures on the prevalence of coral diseases and its predictability: A global meta‐analysis

et al. 2023

Self Cite

View full text Add to dashboard Cite

show abstract

Section: Seemingly Contradictory Effects Of Average Summer Sstmentioning

confidence: 99%

The impact of rising temperatures on the prevalence of coral diseases and its predictability: a global meta-analysis

Burke¹,

Pottier²,

Lagisz³

et al. 2023

Preprint

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Coral reefs are under threat from disease as climate change alters environmental conditions. Rising temperatures exacerbate coral disease, but this relationship is likely complex as other factors also influence coral disease prevalence. To better understand this relationship, we meta-analytically examined 108 studies for changes in global coral disease over time alongside temperature, expressed using average summer sea surface temperature (SST) and cumulative heat stress as weekly sea surface temperature anomalies (WSSTAs). We found both rising average summer SST and WSSTA were associated with global increases in the mean and variability in coral disease prevalence. We showed global coral disease prevalence reached 9.92% compared to 3.16% in 1992, and the effect of ‘year’ became more stable (i.e., has lower variance), contrasting to the effects of the two temperature stressors. Regional patterns diverged over time and differed in response to average summer SST. Our model predicted that, under the same trajectory, 76.8% of corals would be diseased globally by 2100, even assuming moderate average summer SST and WSSTA. These results highlight the need for urgent action to mitigate coral disease. Mitigating the impact of rising ocean temperatures on coral disease alone is a complex challenge requiring global discussion and further study.

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Turbid reefs experience lower coral bleaching effects in NE Borneo (Sabah, Malaysia)

Rosedy,

Ives,

Waheed

et al. 2023

Regional Studies in Marine Science

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Microalgal blooms in the skeletons of bleached corals during the 2020 bleaching event on Heron Island, Australia

Cited by 3 publications

References 30 publications

The impact of rising temperatures on the prevalence of coral diseases and its predictability: A global meta‐analysis

The impact of rising temperatures on the prevalence of coral diseases and its predictability: A global meta‐analysis

The impact of rising temperatures on the prevalence of coral diseases and its predictability: a global meta-analysis

Turbid reefs experience lower coral bleaching effects in NE Borneo (Sabah, Malaysia)

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