Standard Standard

Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean. / Head, Catherine E.I.; Bayley, Daniel T.I.; Rowlands, Gwilym et al.
In: Coral Reefs, Vol. 38, No. 4, 01.08.2019, p. 605-618.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Head, CEI, Bayley, DTI, Rowlands, G, Roche, RC, Tickler, DM, Rogers, AD, Koldewey, H, Turner, JR & Andradi-Brown, DA 2019, 'Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean', Coral Reefs, vol. 38, no. 4, pp. 605-618. https://doi.org/10.1007/s00338-019-01821-9

APA

Head, C. E. I., Bayley, D. T. I., Rowlands, G., Roche, R. C., Tickler, D. M., Rogers, A. D., Koldewey, H., Turner, J. R., & Andradi-Brown, D. A. (2019). Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean. Coral Reefs, 38(4), 605-618. https://doi.org/10.1007/s00338-019-01821-9

CBE

Head CEI, Bayley DTI, Rowlands G, Roche RC, Tickler DM, Rogers AD, Koldewey H, Turner JR, Andradi-Brown DA. 2019. Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean. Coral Reefs. 38(4):605-618. https://doi.org/10.1007/s00338-019-01821-9

MLA

VancouverVancouver

Head CEI, Bayley DTI, Rowlands G, Roche RC, Tickler DM, Rogers AD et al. Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean. Coral Reefs. 2019 Aug 1;38(4):605-618. Epub 2019 Jul 12. doi: 10.1007/s00338-019-01821-9

Author

Head, Catherine E.I. ; Bayley, Daniel T.I. ; Rowlands, Gwilym et al. / Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean. In: Coral Reefs. 2019 ; Vol. 38, No. 4. pp. 605-618.

RIS

TY - JOUR

T1 - Coral bleaching impacts from back-to-back 2015–2016 thermal anomalies in the remote central Indian Ocean

AU - Head, Catherine E.I.

AU - Bayley, Daniel T.I.

AU - Rowlands, Gwilym

AU - Roche, Ronan C.

AU - Tickler, David M.

AU - Rogers, Alex D.

AU - Koldewey, Heather

AU - Turner, John R.

AU - Andradi-Brown, Dominic A.

PY - 2019/8/1

Y1 - 2019/8/1

N2 - Studying scleractinian coral bleaching and recovery dynamics in remote, isolated reef systems offers an opportunity to examine impacts of global reef stressors in the absence of local human threats. Reefs in the Chagos Archipelago, central Indian Ocean, suffered severe bleaching and mortality in 2015 following a 7.5 maximum degree heating weeks (DHWs) thermal anomaly, causing a 60% coral cover decrease from 30% cover in 2012 to 12% in April 2016. Mortality was taxon specific, with Porites becoming the dominant coral genus post-bleaching because of an 86% decline in Acropora from 14% to 2% cover. Spatial heterogeneity in Acropora mortality across the Archipelago was significantly negatively correlated with variation in DHWs and with chlorophyll-a concentrations. In 2016, a 17.6 maximum DHWs thermal anomalycaused further damage, with 68% of remaining corals bleaching in May 2016, and coral cover further declining by 29% at Peros Banhos Atoll (northern Chagos Archipelago) from 14% in March 2016 to 10% in April 2017. We therefore document back-to-back coral bleaching and mortality events for two successive years in the remote central Indian Ocean. Our results indicate lower coral mortality in 2016 than 2015 despite a more severe thermal anomaly event in 2016. This could be caused by increased thermal resistance and resilience within corals surviving the 2015 thermal anomaly, however, high bleaching prevalence in 2016 suggests there remained a high sensitivity to bleaching. Similar coral mortality and community change were seen in the Chagos Archipelago following the 1998 global bleaching event, from which recovery took ten years. This relatively rapid recovery suggests high reef resiliency and indicates that the Archipelago’s lack of local disturbances will increase the probability that the reefs will again recover over time. However, as the return time between thermal anomaly events becomes shorter, this ability to recover will become increasingly compromised.

AB - Studying scleractinian coral bleaching and recovery dynamics in remote, isolated reef systems offers an opportunity to examine impacts of global reef stressors in the absence of local human threats. Reefs in the Chagos Archipelago, central Indian Ocean, suffered severe bleaching and mortality in 2015 following a 7.5 maximum degree heating weeks (DHWs) thermal anomaly, causing a 60% coral cover decrease from 30% cover in 2012 to 12% in April 2016. Mortality was taxon specific, with Porites becoming the dominant coral genus post-bleaching because of an 86% decline in Acropora from 14% to 2% cover. Spatial heterogeneity in Acropora mortality across the Archipelago was significantly negatively correlated with variation in DHWs and with chlorophyll-a concentrations. In 2016, a 17.6 maximum DHWs thermal anomalycaused further damage, with 68% of remaining corals bleaching in May 2016, and coral cover further declining by 29% at Peros Banhos Atoll (northern Chagos Archipelago) from 14% in March 2016 to 10% in April 2017. We therefore document back-to-back coral bleaching and mortality events for two successive years in the remote central Indian Ocean. Our results indicate lower coral mortality in 2016 than 2015 despite a more severe thermal anomaly event in 2016. This could be caused by increased thermal resistance and resilience within corals surviving the 2015 thermal anomaly, however, high bleaching prevalence in 2016 suggests there remained a high sensitivity to bleaching. Similar coral mortality and community change were seen in the Chagos Archipelago following the 1998 global bleaching event, from which recovery took ten years. This relatively rapid recovery suggests high reef resiliency and indicates that the Archipelago’s lack of local disturbances will increase the probability that the reefs will again recover over time. However, as the return time between thermal anomaly events becomes shorter, this ability to recover will become increasingly compromised.

KW - Coral Bleaching; Chagos Archipelago; Coral Mortality; British Indian Ocean Territory; BIOT; Coral community composition.

U2 - 10.1007/s00338-019-01821-9

DO - 10.1007/s00338-019-01821-9

M3 - Article

VL - 38

SP - 605

EP - 618

JO - Coral Reefs

JF - Coral Reefs

SN - 0722-4028

IS - 4

ER -