Nearly 200 Great Barrier Reef coral species also live in the deep sea
Nearly 200 species of Great Barrier Reef corals have found a second home in the deep ocean. That’s six times as many species as previously thought to be living in the dark, cold waters off northeastern Australia, researchers report December 12 in Proceedings of the Royal Society B.
Perhaps more important than the number of species cataloged at those depths is the fact that every evolutionary family of reef-building coral is represented, offering a potential boon for conservation efforts.
“The deep reef is a lot more diverse and interesting than we thought,” says coauthor Paul Muir, a coral biologist at the Museum of Tropical Queensland in Townsville, Australia. “It’s a bit of a good news story, and there aren’t many of those around at the moment.”
As climate change makes some ocean waters warmer, corals are experiencing more frequent severe bleaching events than they did just a few decades ago (SN: 2/3/18, p. 16). Scientists are trying to learn which species might be able to survive, and where, as ocean conditions change.
From 2010 to 2016, Muir and his colleagues sampled 1,263 corals at depths between 30 meters to 125 meters. That range falls within a region called the mesophotic zone because it receives relatively little sunlight. From those samples, as well as museum specimens and other data, the team identified 195 coral species living in this zone, most of which were previously thought to inhabit only shallow waters.
The finding provides support for the “deep reef refugia” hypothesis, the hotly debated idea that deep ocean corals are somewhat protected from the effects of climate change and could one day help reestablish damaged shallow water reefs (SN Online: 7/19/18).
“We’ve shown that it’s potentially viable because there’s quite a wide range of species down there,” Muir says. But while researchers may know more about which corals can live in this deep ocean region, it’s unclear how common those corals are — or how they would fare if transplanted to shallower environments. “We’re keen on getting more data,” Muir says.
Editor’s Note: This story was updated on December 13, 2018, to correct the study’s publication date to December 12, not December 11, and to correct the fact that the coral species found in the deep reef were not from every evolutionary family but from every reef-building family.