Explainer: How restoration can help coral reefs damaged by climate change
- Efforts are being made to help these important marine ecosystems, which have been hit hard by rising ocean temperatures
Record-high sea temperatures are bleaching coral reefs worldwide and putting a new focus on attempts to restore these key marine ecosystems.
Here is an overview of how coral restoration is being done around the world:
What is restoration?
Restoration begins with obtaining coral, sometimes by breaking it off from a healthy reef. These pieces can be broken into smaller bits in a process called microfragmentation.
Each piece can become a new coral.
Another option involves collecting “fragments of opportunity” – coral pieces broken off by natural causes such as storms.
Conservationists can also propagate from egg bundles collected during reef spawning, though this is perhaps the most difficult approach.
Spawning is brief, generally happening just once a year, and is affected by many factors, including the lunar phase and water temperature.
Coral microfragments generally go into a “nursery” until they grow sturdy enough to be transplanted to an existing reef or an artificial structure.
Fragments of opportunity are treated similarly. If big enough, they can be transplanted directly to natural or artificial reefs.
Bundles of coral eggs and sperm collected during spawning will develop into larvae that can then be settled onto reefs or, more commonly, grown on artificial foundations before being transplanted to their final homes.
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Other methods in use
Other techniques are used to bolster coral restoration, including mineral accretion technology.
This involves sending a low-voltage electrical current through seawater to encourage minerals to dissolve and crystallise on artificial reef structures, speeding up coral growth.
The technique has had mixed results, with some studies reporting better growth and more resilient corals, but others finding no significant benefits.
Other interventions include substrate stabilisation, which shores up reef foundations, and algae removal.
Restoration projects heavily favour quick-growing branching corals.
The delicate branches of these corals are more susceptible to becoming fragments of opportunity, and are also easier to microfragment than massive or encrusting corals.
Their fast-growing nature gives restoration projects quicker results, though focusing on only one type of coral can reduce ecosystem diversity.
Restoration projects worldwide
Coral restoration projects report survival rates of around 60-70 per cent, according to a study published in 2020.
But around half the projects in the study failed to properly measure whether they achieved the goals stated at the outset, including reef function.
Monitoring was also often brief, at a median of just one year, far less than the time needed for a reef to form, according to the authors.
Still, the projects can produce real benefits.
A 2024 study of artificial reefs in Indonesia found that within four years the structures had a coral carbonate budget – a measure of reef well-being – that was nearly equal to nearby healthy natural reef.
Some experts worry that coral restoration is too often presented as panacea for reviving reefs, and point out that transplants will only survive if the surrounding conditions are right.
That means first addressing climate change, which causes the warm temperatures that lead to coral bleaching.
“Well-designed and managed restoration projects have an important role to play, but there is only so much they can do if radical action on the climate is not taken almost immediately,” warned Lisa Bostrom-Einarsson, the marine ecologist who led the 2020 study.
And other stressors, from blast fishing to sedimentation, must also be tackled for reefs to have a future.
Reef restoration also rarely offers a one-for-one replacement of destroyed ecosystems.
The Indonesia reefs examined in the 2024 study are still largely made up of transplanted corals, with little sign yet that “natural recruits” are taking root and building reef diversity.
Building reefs through microfragmentation also limits genetic diversity and can put reefs at risk if disease takes hold.
Still, well-done restoration offers considerable benefits, including coastal protection and boosting marine life.
That also helps local communities dependent on fishing or tourism.
“Restoration will not save corals at the current rate we’re losing them,” said Gavin Miller, a marine scientist with the Global Reef organisation in Thailand.
“It’s more about these localised impacts and the scale and the awareness that you can raise from there.”