Among the threatened corals of Australia’s Great Barrier Reef, one of the natural wonders of the world that has been ravaged by global warming, researchers have found a reason for optimism — or at least a reason not to despair completely.
Coral reefs, which by some estimates support a quarter of all ocean life, are harmed by warming oceans. The effects can be seen in the loss of their vibrant colors, a phenomenon known as bleaching. But after ocean temperatures surged in 2016 around the Great Barrier Reef, causing severe damage, researchers found that the corals that survived were more resistant to another period of extreme warmth the following year.
“It’s one enormous natural selection event,” said Terry Hughes, an expert on coral reefs at James Cook University in Australia and the lead author of a study published Monday in the journal Nature Climate Change. In effect, the 2016 heat wave killed off many of the most heat-sensitive corals and selected for the corals that could handle higher ocean temperatures.
“So when the heat returned in 2017, the susceptible corals had been substantially depleted,” Dr. Hughes said. “The new coral assemblage, if you like, at the beginning of the second heat waves, was made up predominantly of the more heat-tolerant species, the more robust ones.”
The study found that in 2016, when parts of the reef were exposed to ocean temperatures seven to 14 degrees Fahrenheit higher than normal, roughly half the coral exhibited bleaching within four to five weeks. But in 2017, the coral had to be exposed to those temperatures for eight to nine weeks before it suffered the same level of bleaching.
“Despite the fact that Year 2 was hotter, we saw less bleaching over all across the whole reef,” Dr. Hughes said. The reason, he said, was a novel concept scientists call ecological memory: the idea that the past experience of a biological community can influence its ecological response today or in the future.
Coral reefs are vast colonies of hard coral, a type of coral that extracts calcium carbonate from seawater to construct a limestone structure for protection. The tiny animals, which resemble sea anemones, are clear. They get their bright reds and vivid purples from colorful algae called zooxanthellae that live in their cells, providing the oxygen that the corals need to grow — albeit slowly. Some species of coral grow as little as a tenth of an inch a year.
The corals are highly sensitive to water temperature. Too cold and the corals suffer; too warm and the algae and corals separate, leaving the corals stripped of their color. The resulting ghostly pallor is the reason scientists call this kind of event bleaching.
Bleached corals are more susceptible to infection and death. But not all corals are equally at risk, as the study found.
The Great Barrier Reef has experienced this sort of mass bleaching before, first in 1998 and again in 2002. But 2017 was the first time the reef bleached two years in a row.
The shortening of time between bleaching events is important, Dr. Hughes said, “because it means we no longer have the luxury of studying these bleaching events as if they were rare with a lot of time between them for a full recovery.” A reef takes about 10 years to fully recover after a bleaching event.
“We have to study them as not just stand-alone events, but sequences of events that are interacting with each other,” Dr. Hughes said.
The Great Barrier Reef is the largest coral reef system in the world, but the implications extend far beyond Australia. Coral reefs appear in tropical oceans around the world, supporting about a quarter of the world’s marine species and providing 17 percent of the animal protein that humans eat for survival, according to the United Nations. In some countries, such as Ghana, Sierra Leone, Bangladesh and the Maldives, reefs are the source of more than half of animal protein consumed by humans.
The study provides a measure of hope that coral reefs may be able to survive as oceans warm over the coming decades. But “baselines are shifting and changes occurring so rapidly that it may be difficult to predict if this pattern will continue,” cautioned Kuulei S. Rodgers, an assistant researcher at the University of Hawaii at Manoa who was not a part of the study.
“You don’t want to extrapolate too far,” said Melissa Roth, an assistant research biologist at the University of California, Berkeley. “If there was a third year of bleaching, that may not work, or if you have a break and then two years of bleaching.”
Even if the conclusions do hold, scientists say the reefs will never look the same.
“That’s some cause for a cautious optimism that these mixtures of species will continue to shift,” Dr. Hughes said. If the world can meet its goals under the Paris climate agreement to avoid the worst effects of global warming, he said, there is hope that reefs will still exist in the future.
“But they’ll be quite different from the reefs of today,” he said.
Story Source: New York Times