Press Release 14-010
Palau's coral reefs surprisingly resistant to ocean acidification
Corals living in more acidic waters are healthy, but is the situation one-of-a-kind?
January 16, 2014
Marine scientists working on the coral reefs of Palau have made two unexpected discoveries that could provide insight into corals' resistance and resilience to ocean acidification.
The team collected water samples at nine points along a transect that stretched from the open ocean, across a barrier reef, into a lagoon, and into the bays and inlets around the Rock Islands of Palau in the western Pacific Ocean.
With each location they found that the seawater became increasingly more acidic as they moved toward land.
"When we first plotted those data, we were shocked," said chemical oceanographer Kathryn Shamberger of the Woods Hole Oceanographic Institution (WHOI). "We had no idea the level of acidification we would find. We're looking at reefs today that have levels that we expect for the open ocean in that region by the end of the century."
Shamberger conducted the fieldwork with other WHOI researchers, including biogeochemist Anne Cohen, as well as with scientists from the Palau International Coral Reef Center.
The National Science Foundation (NSF) funded the research through its Ocean Acidification Program, part of the agency's Science, Engineering and Education for Sustainability Investment.
"This important study documents a coral reef system that's apparently resistant to the effects of ocean acidification," said David Garrison, program director in NSF's Division of Ocean Sciences. "Understanding what factors account for this will be critical follow-on research."
While ocean chemistry varies naturally at different locations, it is changing around the world due to increased levels of carbon dioxide in the atmosphere.
The ocean absorbs atmospheric carbon dioxide, which reacts with seawater, lowering the water's overall pH and making it more acidic.
This process also removes carbonate ions needed by corals and other organisms to build their skeletons and shells.
Corals growing in low pH conditions, both in laboratory experiments that simulate future conditions and in other naturally low pH ocean environments show a range of negative effects.
These include juveniles of various species with difficulty constructing skeletons, fewer varieties of corals, less coral cover, more algae growth and more porous corals with greater signs of erosion from other organisms.
The new research results, published in a paper in Geophysical Research Letters, a journal of the American Geophysical Union, explain the biological and geomorphological causes of the more acidic waters near Palau's Rock Islands.
The paper also describes a surprising second finding--that the corals living in those more acidic waters were unexpectedly diverse and healthy.
The unusual finding, contrary to what has been observed in other naturally low pH coral reef ecosystems, has important implications for the conservation of corals in all parts of the world.
"When you move from a high pH reef to a low pH neighboring reef, there are big changes, and they are negative changes," said Cohen, a co-author of the paper and principal investigaor of the project.
"However, in Palau wherever the water is most acidic, we see the opposite. There's a coral community that is more diverse, hosts more species and has greater coral cover than in the non-acidic sites.
"Palau is the exception to other places scientists have studied."
Through analysis of the water chemistry in Palau, the scientists found that the acidification is primarily caused by the shell-building done by organisms living in the water, called calcification, which removes carbonate ions from seawater.
A second reason is the organisms' respiration, which adds carbon dioxide to the water when they breathe.
"These things are all happening at every reef," said Cohen. "What's critical is the residence time of the seawater."
"In Palau's Rock Islands, the water sits in the bays for a long time before being flushed out," said Shamberger. "This is a big area that's a maze with lots of channels and inlets for the water to wind around.
"Calcification and respiration are continually happening at these sites while the water sits there, allowing the water to become more and more acidic. It's a little bit like being stuck in a room with a limited amount of oxygen--the longer you're in there without opening a window, you're using up oxygen and increasing carbon dioxide."
Ordinarily, she added, without fresh air coming in, it would become harder and harder for living things to thrive, "yet in the case of the corals in Palau, we're finding the opposite. Coral cover and diversity actually increase from the outer reefs into the Rock Islands."
The next steps are to determine whether the corals are genetically adapted to low pH, or whether Palau provides a "perfect storm" of environmental conditions.
"If it's the latter, it means that if you took those corals out of that specific environment and put them in another low pH environment that doesn't have the same combination of conditions, they wouldn't be able to survive," said Cohen. "But if they're genetically adapted to low pH, you could put them anywhere."
"These reef communities have developed under these conditions for thousands of years," said Shamberger. "These are conditions that are going to be occurring in a lot of the ocean by the end of the century.
"We don't know if other coral reefs will be able to adapt to ocean acidification--the time scale might be too short."
The scientists are careful to stress that their findings in Palau are different from every other low pH environment that has been studied.
"When we discover a reef like Palau where the coral communities are thriving under low pH, that's an exception," said Cohen.
"It doesn't mean that coral reefs around the globe are going to be fine under ocean acidification conditions. It does mean that there are some coral communities out there--and we've found one--that appear to have figured it out. But that doesn't mean that all coral reef ecosystems are going to figure it out."
This research was also funded by the WHOI Ocean Life Institute and The Nature Conservancy.
Cheryl Dybas, NSF, (703) 292-7734, email@example.com
Stephanie Murphy, WHOI, (508) 289-3340, firstname.lastname@example.org
Peter Weiss, AGU, (202) 777-7507, email@example.com
Ocean acidification: Making new discoveries through National Science Foundation research grants: http://www.nsf.gov/news/news_summ.jsp?cntn_id=128913
Ocean Acidification: Finding New Answers Through National Science Foundation Research Grants: http://www.nsf.gov/news/news_summ.jsp?cntn_id=125523
NSF Awards Grants to Study Effects of Ocean Acidification: http://www.nsf.gov/news/news_summ.jsp?cntn_id=117823
Natural Underwater Springs Show How Coral Reefs Respond to Ocean Acidification: http://www.nsf.gov/news/news_summ.jsp?cntn_id=128243
Global Warming Refuge Discovered Near At-Risk Pacific Island Nation of Kiribati: http://www.nsf.gov/news/news_summ.jsp?org=NSF&cntn_id=123999&preview=false
NSF Award: Toward Predicting the Impact of Ocean Acidification on Net Calcification by a Broad Range of Coral Reef Ecosystems: Identifying Patterns and Underlying Causes: http://www.nsf.gov/awardsearch/showAward?AWD_ID=1220529&HistoricalAwards=false
The National Science Foundation (NSF) is an independent federal agency that supports fundamental research and education across all fields of science and engineering. In fiscal year (FY) 2016, its budget is $7.5 billion. NSF funds reach all 50 states through grants to nearly 2,000 colleges, universities and other institutions. Each year, NSF receives more than 48,000 competitive proposals for funding and makes about 12,000 new funding awards. NSF also awards about $626 million in professional and service contracts yearly.
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