Warmer ocean waters that bleach reef corals can
fundamentally change the makeup of the reef, maybe permanently.
That change will dictate what our reefs will be like in the
future, according to researchers writing in the journal Science.
(Image: Starfish surrounded by decomposing coral on the Great Barrier Reef. Credit: XL Catlin Seaview Survey)
Reef-building corals are complex communities, and the more
we study them, the deeper the complexity goes.
A reef coral head isn’t a single entity, but a colony of coral
animals called polyps. They lay down a calcium skeleton, which forms much of the
rocky part of the reef. Each polyp is host to marine plants called
zooxanthellae, which conduct photosynthesis and help feed the polyp. But there’s
more. It turns out corals also support a community of smaller life forms, a microbiome
of bacteria that, once again, both support and are supported by the coral
community.
Researchers Tracy Ainsworth of James Cook University in
Australia and Ruth Gates of the Hawai`i
Institute of Marine Biology at the University of Hawai`i, write in the June 24 issue of Science that climate change and coral bleaching events dramatically
change that microbiome. Their article is entitled, “Corals’ microbial
sentinels: The coral microbiome will be key to future reef health.”
“Corals that survive the multiple impacts of climate change
and local disturbance will form the basis of future reefs that will differ in
fundamental ways from those considered healthy today,” they write.
Corals are accustomed to a range of ocean temperatures. When
the water temperature rises beyond that range, the corals lose their algal
partners, which leaves them looking white and “bleached.”
That process also causes changes in the collection of
bacteria that form part of the reef’s life, and that can further weaken coral polyps.
“The drastic impact of bleaching on the coral animals and,
ultimately, its microbiome, can influence the immune system, alter the metabolic
capacity and impair the stress resistance of the surviving corals,” Ainsworth
and Gates write.
Since some of those bacteria are critical to the health of
the corals, their disappearance can increase things like tissue death and
disease. The community of corals, alga and bacteria may reach a new steady
stage, but it may be a very different community after significant bleaching
events occur, the authors write.
“The emergency of new ecosystem norms on coral reefs will be
underpinned by changes to the microbiome and the microbial contribution to
organism health and stress resistance, under new environmental norms,” they
write.
© Jan TenBruggencate 2016
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