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Opposite polarities of ENSO drive distinct patterns of coral bleaching potentials in the southeast Indian Ocean.

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posted on 2019-07-25, 13:01 authored by N Zhang, M Feng, HH Hendon, AJ Hobday, J Zinke
Episodic anomalously warm sea surface temperature (SST) extremes, or marine heatwaves (MHWs), amplify ocean warming effects and may lead to severe impacts on marine ecosystems. MHW-induced coral bleaching events have been observed frequently in recent decades in the southeast Indian Ocean (SEIO), a region traditionally regarded to have resilience to global warming. In this study, we assess the contribution of El Niño-Southern Oscillation (ENSO) to MHWs across the mostly understudied reefs in the SEIO. We find that in extended summer months, the MHWs at tropical and subtropical reefs (divided at ~20°S) are driven by opposite ENSO polarities: MHWs are more likely to occur at the tropical reefs during eastern Pacific El Niño, driven by enhanced solar radiation and weaker Australian Monsoon, some likely alleviated by positive Indian Ocean Dipole events, and at the subtropical reefs during central Pacific La Niña, mainly caused by increased horizontal heat transport, and in some cases reinforced by local air-sea interactions. Madden-Julian Oscillations (MJO) also modulate the MHW occurrences. Projected future increases in ENSO and MJO intensity with greenhouse warming will enhance thermal stress across the SEIO. Implementing forecasting systems of MHWs can be used to anticipate future coral bleaching patterns and prepare management responses.

Funding

This research is partly supported by the Western Australian Marine Science Institution, the Gorgon Barrow Island Net Conservation Benefits Fund, which is administered by the WA Department of Parks and Wildlife. Ningning Zhang is supported by the China Scholarship Council for her visit to CSIRO. J.Z. was supported by a Senior Research Fellowship at Curtin University and an Honorary Fellowship with Wits University.

History

Citation

Scientific Reports, 2017, 7, Article number: 2443

Author affiliation

/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/School of Geography, Geology and the Environment

Version

  • VoR (Version of Record)

Published in

Scientific Reports

Publisher

Nature Research (part of Springer Nature)

eissn

2045-2322

Acceptance date

2017-04-18

Copyright date

2017

Available date

2019-07-25

Publisher version

https://www.nature.com/articles/s41598-017-02688-y

Language

en

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