The Allen Coral Atlas Monitoring System, New Caledonia on April 26, 2021
The Allen Coral Atlas Monitoring System, New Caledonia on April 26, 2021
19 May 2021

In a world first, a satellite-based global coral reef bleaching monitoring system will scan the Earth’s oceans for coral-killing bleaching events in real-time.

The Allen Coral Atlas project, an international research collaboration featuring University of Queensland scientists, are using unprecedented detailed habitat maps of all global coral reefs – over 230,000 of them – to detect reef bleaching anywhere in the world.

The project has been led by Arizona State University, which developed a monitoring system that detects potentially bleached coral reef habitat, with UQ scientists working on the habitat mapping element of the project. 

Dr Chris Roelfsema, from UQ’s Remote Sensing Research Centre, said the digital atlas tool was desperately needed, given the state of the world’s coral reefs.

“The current prognosis for the world’s coral reefs is bleak,” Dr Roelfsema said.

“With ever-warming, more polluted and acidic oceans, models predict that 70 per cent to 90 per cent of coral reefs will be lost by 2050.

“Until now, there hasn’t been a global system in place to monitor coral reefs under the stresses that may lead to their deaths.

“The Atlas team have now created this incredible tool, which monitors the global health of coral reefs and bringing new hope to support conservation efforts.

“The Allen Coral Atlas will allow us to offer critically important information to scientists, decision and policymakers, something that’s urgently needed for rapid response and conservation.”

Previously, only disparate data sets and maps that were available to scientists and policymakers.

The Allen Coral Atlas allows anyone with internet access to monitor and download data on every major reef globally at never-before-seen detail, across time.

Paulina Gerstner, program director for the Allen Coral Atlas, said that satellites are used to detect variations in reef brightness by using high-resolution satellite imagery powered by an advanced algorithm indicating whether reefs are under stress or resilient to marine heatwaves.

“This monitoring capability will help us to see, where and to what extent coral bleaching is likely to be occurring as well as where it isn’t bleaching so we can identify resilient reefs,” Ms Gerstner said.

“The platform can observe where corals are bleaching throughout the world, ranging from no bleaching to severe.

“Once we know where this is happening, governments and NGOs on the ground can swoop in to take action sooner, rather than later.”

“This is just the first global version of our monitoring system, with the partnership intending to improve and expand it to include a broader range of impacts on reefs such as land-sea pollutants and sediments,” said Professor Greg Asner, Director of Arizona State University's Center for Global Discovery and Conservation Science

“This first, truly global reef monitoring system is simply a drop in the bucket for what is to come.”

The project began in 2018, when a new generation of cube satellites operated by Planet, allowed for four-metre-per-pixel mosaic image of the world’s coral reefs to be assembled.

Satellite data was then cleaned up via ASU, before UQ scientists used the data to create the first global map that represents coral and algae, seagrass, sand, rubble and rock.

The Allen Coral Atlas, named for the late Microsoft co-founder Paul G. Allen, is funded by Vulcan Inc. and directed by Arizona State University, and was developed through a unique partnership between UQ, Arizona State University, National Geographic Society, Planet, and Vulcan.

Image above left: Allen Coral Atlas, New Caledonia. Credit: Allen Coral Atlas. Image above right: bleached corals in Hawaii. Credit: Greg Asner.

A video interview with Dr Chris Roelfsema is available here, and a social media toolkit is available here.

Media: Dr Chris Roelfsema, c.roelfsema@uq.edu.au, +61 400 207 401; Professor Stuart Phinn, s.phinn@uq.edu.au, +61 401 012 996; Dominic Jarvis, dominic.jarvis@uq.edu.au, +61 413 334 924.