We knew Ningaloo’s coral bleaching was severe. But what w...

Home

Edition

Africa Australia Brasil Canada Canada (français) España Europe France Global Indonesia New Zealand United Kingdom United States

Edition: Global

Africa
Australia
Brasil
Canada
Canada (français)
España
Europe
France
Indonesia
New Zealand
United Kingdom
United States

s Newsletters

Academic rigour, journalistic flair Bleached coral in the foreground and brown coral in the background.

Australian Institute of Marine Science/AAP We knew Ningaloo’s coral bleaching was severe. But what we found 6 months later was still a shock Published: November 23, 2025 7.03pm GMT Zoe Richards, Curtin University

Author

Zoe Richards
Associate Professor, Curtin University

Disclosure statement

Zoe Richards receives funding from the Minderoo Foundation.

Partners

Curtin University provides funding as a member of The Conversation AU.

View all partners

DOI

https://doi.org/10.64628/AA.dwuj74pvx

https://theconversation.com/we-knew-ningaloos-coral-bleaching-was-severe-but-what-we-found-6-months-later-was-still-a-shock-270266 https://theconversation.com/we-knew-ningaloos-coral-bleaching-was-severe-but-what-we-found-6-months-later-was-still-a-shock-270266 Link copied Share article

Copy link Email Bluesky Facebook WhatsApp Messenger LinkedIn X (Twitter)

Print article

The heatwave in Western Australia last summer broke records. As marine scientists, we were deeply concerned about whether Ningaloo’s corals would survive. We were prepared for the worst, but what my colleague and I found when we returned to assess the damage months later was still a shock.

It was the longest-lasting, largest and most intense underwater heatwave ever recorded in WA. And it hammered the coral at Ningaloo Reef, part of the World Heritage-listed Nyinggulu or Ningaloo Coast, in the northwest of the state. (The word Ningaloo comes from the Aboriginal name Nyinggulu, which means a promontory or headland).

For coral, sustained heat stress is measured using degree heating weeks (DHW). At 4 DHW, coral bleaching is likely. At 8 DHW, many corals are at risk of bleaching and dying. At 20 DHW 80% mortality is predicted. At Ningaloo Reef last summer, more than 20 DHW were recorded.

In October, we returned and found that two in every three corals in the shallow lagoonal areas of the northern Nyinggulu Reef, including popular tourist sites such as Turquoise Bay, had died.

Dead brown coral covered in algae at Ningaloo Reef.

Dead coral covered in algae at Ningaloo Reef. Zoe Richards, CC BY-ND

How it happened

In March, in the middle of the bleaching period, our surveys of corals in the northern Ningaloo Reef lagoon showed up to 90% of the coral had bleached. Bleaching doesn’t automatically mean death, but in a heatwave this severe we feared a large dieback of coral.

In partnership with the Minderoo Exmouth Research Laboratory, my PhD student David Juszkiewicz and I returned to Ningaloo to resurvey the reef in October, 6 months after we last surveyed it mid-bleaching. We revisited eight sites spanning a 40 kilometre section of the northern lagoon, from the Osprey Sanctuary Zone to Tantabiddi Sanctuary Zone.

Within this area, we found between 52% and 71% of corals had died. Of the more than 1,600 individual corals counted and identified in March, only about 600 remained alive by the end of October. Most of the corals that were bleached in March did not survive.

Small pink underwater snails devouring remnant coral branches.

Coral-eating drupella snails devour remnant live coral. Zoe Richards, CC BY-ND

Superheated ocean

Globally, the ocean is the hottest it has ever been, and has been increasing in temperature year on year for the past decade. The 2024–25 heatwave was not normal, nor part of a natural cycle.

Such a prolonged heating event – where the entire water column down to 300 metres deep was superheated – has never been recorded in Australia. For corals, which have a relatively narrow range of thermal tolerance limits, the consequences have been dire.

Our finding of an average of 61% coral mortality in the lagoon habitats of Ningaloo Reef is confronting, but fortunately slightly lower than the predicted 80% mortality rate.

Which coral survived?

Some resilient species, such as Veron’s tube coral (Echinopora ashmorensis) and lesser knob coral (Cyphastrea microphthalma), have persisted, occasionally in high abundance. But populations of other previously dominant species such as the staghorn corals (Acropora tenuis, Acropora millepora, Acropora spicifera) and thin birdsnest coral (Seriatopora hystrix) have been decimated.

These types of branching corals punch above their weight in providing a habitat for marine animals. Their intricate network of branches offer space and shelter for a range of fish, crustaceans, molluscs, worms, tiny echinoderms such as starfish and more.

When these corals die, their branches quickly become infested with organisms like sponges, and the surfaces become overgrown with algae. Together, these new inhabitants erode and eventually flatten the coral skeleton, severely diminishing its value as habitat.

Not only has this heatwave had a direct impact on the coral at Ningaloo Reef, but it also likely had an indirect effect on the fauna that lives within the coral. So far, no data is available to quantify or substantiate this.

Spiky dead coral lies on the sea bed at Ningaloo Reef.

Dead coral at Ningaloo Reef. Zoe Richards, CC BY-ND

Coral collapse

Because of this coral death, the Ningaloo Reef ecosystem has undergone profound ecological simplification. In other words, the ecosystem becomes less complex, less diverse, and less stable, which can reduce its ability to support the species that rely on it. Ultimately, a simplified community is more vulnerable to total collapse.

Think of a Jenga tower: you can remove multiple blocks without the tower falling over, but if you pull one too many, the entire structure abruptly collapses. This is the situation we are facing at Ningaloo Reef. It’s vulnerable to collapse if there are more heatwaves, cyclones or predator outbreaks while it’s still recovering.

The recovery of these reefs will depend on future climatic conditions and the availability of baby corals to support regeneration. Sustained monitoring of coral composition, coral spawning, the persistence of algae shifts and faunal diversity will help us understand whether these coral reef systems can regrow following the 2024–25 heatwave.

Recovery

The Ningaloo bleaching event is not an isolated case. It is part of a broader pattern of coral reef decimation also happening on the Great Barrier Reef and around the world.

Mounting evidence shows the state of coral reefs is worsening despite concerted local conservation and regional management efforts.

The only way to protect these reefs is to change the economic systems that drive the burning of fossil fuels, and other activities which create climate change. That means shifting how we produce and use energy, transforming how industries operate and changing consumer demand.

As a global community, we need to pressure governments and businesses to take meaningful climate action.

As long as global economic forces continue to encourage the use of fossil fuels, coral reefs – and the people who rely on them for their socio-economic well being – will suffer.