DNA reveals the past and future of coral reefs
New DNA techniques are being used to understand how coral reacted to the end of the last ice age in order to better predict how they will cope with current changes to the climate. James Cook Univer
From 2005 to 2022, the main node of the ARC Centre of Excellence for Coral Reef Studies was headquartered at James Cook University in Townsville, Queensland (Australia)
Globally, our climate is undergoing fundamental shifts, both in changing average weather conditions and the frequency of extreme weather events. Most notably, the Earth’s climate system is unequivocally warming, and it is extremely likely (at least 95% probability) that these changes are in large part a result of human activities.
Corals inhabiting tropical coral reefs are thermally sensitive, meaning that they can only tolerate small temperature ranges. However, climate change is causing abnormally high sea-surface temperatures, which is causing corals to bleach during summer months (see below for detail). The intensity of coral bleaching increases as temperatures become hotter.
The Great Barrier Reef has experienced two major bleaching events in recent decades, in the summers of 1998 and 2002 when, respectively, 42% and 54% of reefs were affected by bleaching.
Bleached staghorn with damselfish. Photo by Jodie Rummer.
Zooxanthellae are tiny, colourful marine algae, which live inside corals, providing them with much of their colour and, most importantly, their primary supply of energy. However, if the surrounding sea temperature becomes too warm, the algae die.
The loss of these zooxanthellae is what we refer to as ‘coral bleaching’. Without zooxanthellae coral tissue becomes transparent, revealing the white coral skeleton beneath it. Once this happens, the corals can die if unfavourable conditions persist. If, however, temperatures return to normal levels, corals can regain their zooxanthellae, although the stress is likely to cause a decrease in growth and reproduction.
Future bleaching events are inevitable, but there are a number of important steps that we can take, locally, nationally and internationally to give the Great Barrier Reef a fighting chance.
A concerted effort to reduce global carbon emissions will lessen the rise of ocean temperatures and ocean acidification. At the state level, we need to substantially improve the quality of water flowing on to the Reef. Poor water quality is particularly harmful for coral growth, reproduction and the survival of young corals, severely limiting reef recovery potential. Furthermore, research shows that excessive nutrients arriving on the Great Barrier Reef trigger harmful crown-of-thorns outbreaks, which can devastate vast areas of the reef.
How effectively we manage fishing, coastal development, pollution, trawling and shipping will play an important part in determining the future resilience of the Great Barrier Reef.
Scientists from the ARC Centre of Excellence for Coral Reef Studies surveyed 83 reefs in March at the height of the 2016 bleaching event. Take a look at our interactive map of the Great Barrier Reef. You can click on photos and videos captured during the aerial surveys and see for yourself the extent of the bleaching.
Map of corals surveyed in the 2020 bleaching event.
Not all data is shown, only reefs at either end of the
bleaching spectrum: Red circles indicate reefs undergoing
most severe bleaching (60% or more of visible corals
bleaching) Green circles indicate reefs with no or only
minimal bleaching (10% or less of corals bleaching).
Composite map of surveyed corals across the 2016 and 2017 back-to-back bleaching events. Not all data is shown, only reefs at either end of the bleaching spectrum: Red circles indicate reefs undergoing most severe bleaching (60% or more of visible corals bleaching) Green circles indicate reefs with no or only minimal bleaching (10% or less of corals bleaching).
Hot news on the 2016, 2017, and 2020 coral bleaching events:
7 April 2020: Climate change triggers Great Barrier Reef bleaching
4 April 2019: Global warming disrupts recovery of coral reefs
11 Dec 2018: A glimmer of hope for the world’s coral reefs
26 Oct 2018: Fish give up the fight after coral bleaching
05 Sept 2018: Coral bleaching on the Great Barrier Reef not limited to shallow depths
19 Apr 2018: Global warming is transforming the Great Barrier Reef
06 Apr 2018: Coral bleaching threatens the diversity of reef fish
29 Jan 2018: Coral reefs are in trouble – how can people adapt?
05 Jan 2018: The window for saving the world’s coral reefs is rapidly closing
03 Nov 2017: Research examines impact of coral bleaching on Western Australia’s coastline
01 June 2017: A brave new world for coral reefs
10 April 2017: Two-thirds of Great Barrier Reef hit by back-to-back mass coral bleaching
16 March 2017: Scientists mobilise as coral bleaching resumes on the Great Barrier Reef
29 November 2016: Life and death after Great Barrier Reef bleaching
26 October 2016: Scientists assess bleaching damage on Great Barrier Reef
21 June 2016 Heat sickens corals in global bleaching event
06 June 2016: Coral bleaching reaches Coral Sea
30 May 2016: Coral death toll climbs on Great Barrier Reef
20 April 2016: Only 7% of the Great Barrier Reef has avoided coral bleaching
15 April 2016: Great Barrier Reef risks losing tolerance to bleaching events
05 April 2016: National Coral Taskforce unleashes an armada of experts
29 March 2016: Coral Bleaching Taskforce documents most severe bleaching on record
21 March 2016: Scientist witnesses severe coral bleaching
14 March 2016: National Coral Taskforce puts plan into effect as bleaching intensifies
01 March 2016: National Coral Bleaching Taskforce keeping a close watch on the Reef
Coral Bleaching on the Great Barrier Reef in 2020
Coral bleaching on the northern Great Barrier Reef as seen from the air during aerial surveys in March 2016
Coral bleaching on the northern Great Barrier Reef as seen from under water during underwater surveys in March 2016
New DNA techniques are being used to understand how coral reacted to the end of the last ice age in order to better predict how they will cope with current changes to the climate. James Cook Univer
A new study on the effects of climate change in five tropical countries has found fisheries are in more trouble than agriculture, and poor people are in the most danger. Distinguished Profess
James Cook University researchers have found brightly coloured fish are becoming increasingly rare as coral declines, with the phenomenon likely to get worse in the future. Christopher Hemingson, a
Researchers working with stakeholders in the Great Barrier Reef region have come up with ideas on how groups responsible for looking after the reef can operate more effectively when the next bleaching
Abstract: As marine species adapt to climate change, their heat tolerance will likely be under strong selection. Individual variation in heat tolerance and its heritability underpin the potential fo
Abstract: The Reef Ecology Lab in KAUST’s Red Sea Research Center explores many aspects of movement ecology of marine organisms, ranging from adult migrations to intergenerational larval dispersal
Abstract: Macroalgal meadows are a prominent, yet often maligned component of the tropical seascape. Our work at Ningaloo reef in WA demonstrate that canopy forming macroalgae provide habitat for ad
Abstract: Sharks are generally perceived as strong and fearsome animals. With fossils dating back at least 420 million years, sharks are not only majestic top predators but they also outlived dinosa
Abstract: Connectivity plays a vital role in many ecosystems through its effects on fundamental ecological and evolutionary processes. Its consequences for populations and metapopulations have been
Abstract: Evolution of many eukaryotic organisms is affected by interactions with microbes. Microbial symbioses can ultimately reflect host’s diet, habitat range, and even body shape. However, how
Abstract: The past few years have seen unprecedented coral bleaching and mortality on the Great Barrier Reef (GBR) but the consequences of this on biodiversity are not yet known. This talk will expl
Partner Research Institutions
