Identifying coral bleaching remotely via coral reef watch — Improved integration and implications for changing climate

Abstract The oxidation of polyunsaturated fatty acids (PUFA) is a common stress response across biomes with potential to trigger impairment of cell growth and reproduction. The oxidative stress theory of coral bleaching induced by global warming has been widely accepted to explain coral reef decline, but its underlying physiological mechanism remains under debate. Here we used lipidomic and population density data to examine cell cultures of three coral reef symbionts after a heat shock (sudden rise of 12 °C for 4 hours). Heat tolerance in S. microadriaticum and C. goreaui was characterized by preservation of thylakoid-derived glycolipids. Conversely, heat sensitivity in B. minutum was linked to elevated concentrations of oxidized PUFA esterified to glycolipids, suggesting that culture growth had ceased due to severe oxidative damage. Our findings provide a basis to further understand the role played by oxidative stress in coral bleaching and reveal novel biomarkers for the monitoring of symbiont-coral health.

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Coral bleaching and disease should not be underestimated as causes of Caribbean coral reef decline

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2008.0606 ◽

2008 ◽

Vol 276 (1655) ◽

pp. 197-198 ◽

Cited By ~ 26

Author(s):

Caroline Rogers

Keyword(s):

Coral Reef ◽

Coral Bleaching ◽

Caribbean Coral ◽

Caribbean Coral Reef ◽

Reef Decline

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Rapid transition in the structure of a coral reef community: The effects of coral bleaching and physical disturbance

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.090104897 ◽

2000 ◽

Vol 97 (10) ◽

pp. 5297-5302 ◽

Cited By ~ 87

Author(s):

G. K. Ostrander ◽

K. M. Armstrong ◽

E. T. Knobbe ◽

D. Gerace ◽

E. P. Scully

Keyword(s):

Coral Reef ◽

Coral Bleaching ◽

Physical Disturbance ◽

Coral Reef Community ◽

Reef Community ◽

Rapid Transition

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A Sea Country Learning Partnership in Times of Anthropocenic Risk: Offshore Coral Reef Education and Our Story of Practice

Australian Journal of Environmental Education ◽

10.1017/aee.2017.28 ◽

2017 ◽

Vol 33 (3) ◽

pp. 160-170 ◽

Cited By ~ 3

Author(s):

Hilary Whitehouse ◽

Marie Taylor ◽

Neus (Snowy) Evans ◽

Tanya Doyle ◽

Juanita Sellwood ◽

...

Keyword(s):

Climate Change ◽

Coral Reef ◽

Environmental Change ◽

Great Barrier Reef ◽

Coral Bleaching ◽

Educational Experiences ◽

Barrier Reef ◽

Local Schools ◽

Rapid Environmental Change ◽

Civic Environmentalism

AbstractThis is a researched account of an offshore coral reef education partnership formed during a time of rapid environmental change (the coral bleaching events in the years 2015 to 2017). The aim of the partnership is to encourage a learning connection with Sea Country. Framed as civic environmentalism, this article explores the dimensions of practice between a reef tourism provider, local schools, a local university, and local Indigenous rangers that enables primary, secondary and university students, rangers, and educators to travel together on day trips to the outer Great Barrier Reef and islands and have immersive and sharing educational experiences. Offshore environmental education and higher quality marine education is increasingly important in the Anthropocene, when Australian reefs are subject to the pressures of climate change and other impacts other impacts that diminish their resilience.

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Seeking Resistance in Coral Reef Ecosystems: The Interplay of Biophysical Factors and Bleaching Resistance under a Changing Climate

BioEssays ◽

10.1002/bies.201800226 ◽

2019 ◽

Vol 41 (7) ◽

pp. 1800226 ◽

Cited By ~ 3

Author(s):

Charlotte E. Page ◽

William Leggat ◽

Scott F. Heron ◽

Severine M. Choukroun ◽

Jon Lloyd ◽

...

Keyword(s):

Coral Reef ◽

Changing Climate ◽

Biophysical Factors ◽

Coral Reef Ecosystems

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Climate Change Induced Thermal Stress Caused Recurrent Coral Bleaching over Gulf of Kachchh and Malvan Marine Sanctuary, West Coast of India

10.5772/intechopen.96806 ◽

2021 ◽

Author(s):

Mohit Arora ◽

Kalyan De ◽

Nandini Ray Chaudhury ◽

Mandar Nanajkar ◽

Prakash Chauhan ◽

...

Keyword(s):

Thermal Stress ◽

Coral Reef ◽

Coral Reefs ◽

Coral Bleaching ◽

Large Scale ◽

Heat Waves ◽

Southern Oscillation ◽

Coral Cover ◽

Imminent Threat ◽

Marginal Reefs

Coral reefs are one of the most sensitive, productive, and invaluable biological resources on the earth. However, coral reefs are facing unprecedented stress due to ongoing climate changes and intensified anthropogenic disturbances globally. Elevated Sea Surface Temperature (SST) has emerged as the most imminent threat to the thermos-sensitive reef-building corals. The 2010–2014-2016 El Niño Southern Oscillation (ENSO) caused prolonged marine heat waves (MHWs) that led to the most widespread coral bleaching and mortality in the tropical Indi-Pacific regions. Coral bleaching prediction is vital for the management of the reef biodiversity, ecosystem functioning, and services. Recent decades, satellite remote sensing has emerged as a convenient tool for large-scale coral reef monitoring programs. As thermal stress is a critical physical attribute for coral bleaching hence, the present study examines the effectiveness of the elevated SSTs as a proxy to predict coral bleaching in shallow water marginal reefs. Advanced Very High-Resolution Radiometer (AVHRR) satellite data from the NOAA Coral Reef Watch’s (CRW) platform has been used for this study. Coral bleaching indices like Bleaching Threshold (BT), Positive SST Anomaly (PA), and Degree Heating Weeks (DHW) are computed to analyze the thermal stress on the coral reefs. The computed thermal stress from satellite-derived SST data over regions concurrence with the mass coral bleaching (MCB) events. This study concludes that in the last decades (2010 to 2019) the coral cover around these regions has dramatically declined due to higher SST, which indicates that the thermal stress induced recurrent bleaching events attributed to the coral loss.

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Early trajectories of benthic coral reef communities following the 2015/16 coral bleaching event at remote Aldabra Atoll, Seychelles

Scientific Reports ◽

10.1038/s41598-020-74077-x ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Anna Koester ◽

Valentina Migani ◽

Nancy Bunbury ◽

Amanda Ford ◽

Cheryl Sanchez ◽

...

Keyword(s):

Coral Reef ◽

Water Temperature ◽

Coral Bleaching ◽

Coral Cover ◽

Bleaching Event ◽

Hard Coral ◽

Reef Communities ◽

Remote Sites ◽

Hard Coral Cover ◽

Coral Reef Communities

Abstract Documenting post-bleaching trajectories of coral reef communities is crucial to understand their resilience to climate change. We investigated reef community changes following the 2015/16 bleaching event at Aldabra Atoll, where direct human impact is minimal. We combined benthic data collected pre- (2014) and post-bleaching (2016–2019) at 12 sites across three locations (lagoon, 2 m depth; seaward west and east, 5 and 15 m depth) with water temperature measurements. While seaward reefs experienced relative hard coral reductions of 51–62%, lagoonal coral loss was lower (− 34%), probably due to three-fold higher daily water temperature variability there. Between 2016 and 2019, hard coral cover did not change on deep reefs which remained dominated by turf algae and Halimeda, but absolute cover on shallow reefs increased annually by 1.3% (east), 2.3% (west) and 3.0% (lagoon), reaching, respectively, 54%, 68% and 93% of the pre-bleaching cover in 2019. Full recovery at the shallow seaward locations may take at least five more years, but remains uncertain for the deeper reefs. The expected increase in frequency and severity of coral bleaching events is likely to make even rapid recovery as observed in Aldabra’s lagoon too slow to prevent long-term reef degradation, even at remote sites.

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