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WATER WORLD
Can corals keep up with ocean acidification
by Staff Writers
Newark DE (SPX) Apr 08, 2016


New sensor by a team led by University of Delaware researchers Wei-Jun Cai and Mark Warner (above) enables first carbonate ion concentration measurements inside coral. Image courtesy University of Delaware. For a larger version of this image please go here.

An interdisciplinary team of researchers led by University of Delaware professors Wei-Jun Cai and Mark Warner has successfully measured both pH and carbonate ion concentration directly inside the calcifying fluid found in coral, an important development in the study of how ocean acidification will affect marine calcifying organisms such as corals and shellfish.

According to Cai, Mary A.S. Lighthipe Chair of Earth, Ocean, and Environment, the research team, which includes colleagues from University of Georgia and Ohio State University, is the first to measure carbonate ion concentration inside coral using a specialized carbonate sensor developed in Cai's laboratory.

The researchers reported their findings in a paper published in Nature Communications.

Unraveling a mystery
Ocean acidification (OA) is the ongoing decrease in pH in the global ocean due to the absorption of excess carbon dioxide from the atmosphere. Scientists know that OA impacts shell formation and development in marine calcifying organisms, but they don't know exactly why.

"With Prof. Cai's microelectrode we now have the ability to probe through the coral's stomach tissue and into the calcifying fluid next to the rock of the skeleton, and capture data about what the chemistry is like where calcification occurs," explained Warner, a marine science professor at UD.

This is very important, Warner continued, because while scientists know how OA is changing the seawater chemistry, they don't yet understand how the chemistry of the fluid deep inside the coral - where coral make their calcium carbonate skeletons - is changing.

"You need two parameters to completely understand a carbonate system. If you only measure pH, as has been done historically, we can only guess what the other dissolved inorganic carbon parameters may be," said Cai.

Measurements were worth the wait
To measure pH, Cai and his colleagues inserted a miniscule electrode equipped with microsensors into the coral's thin calcifying fluid layer, which is smaller than a human hair at only a few micrometers thick. They also inserted a second electrode equipped with a carbonate sensor developed in Cai's lab to directly measure the concentration of carbonate ions.

A special chemical inside the carbonate sensor was designed to move carbonate ions across a membrane, creating a voltage difference that can be measured and used to quantify the carbonate concentration.

The work was challenging, and required many tries and great patience before they were successful. "If you push too hard, the electrode misses the fluid and breaks at the hard skeleton," Cai said.

The researchers' results confirmed what other scientists have measured before - the pH inside the coral's calcifying layer is high. This finding supports the idea that coral are equipped with a proton pump that force protons away from this site in order to regulate pH and allow calcification to occur.

The team also measured high carbonate ion concentrations. The scientists then used the two measurements to calculate the amount of total dissolved inorganic carbon present.

Current hypotheses suggest that dissolved inorganic carbon is highly concentrated inside the coral's calcification layer, however, the researcher's findings indicate it might not be as highly concentrated as previously believed.

"Our findings show it is similar to seawater or even slightly lower than seawater," Cai said.

The researchers hypothesize the reason is that the coral is rapidly using the carbon to make their skeletons. One hypothesis with OA is that a coral has to work harder to keep making the same amount of skeleton when there is a change in pH.

"At least for the corals we've tested it on, when we back calculate the chemistry in this area, our findings indicate they may not have to work quite as hard as we thought. The work definitely opens up the scope of study to ask more questions related to ocean acidification and energy demand and how corals can potentially resist these kinds of stressors," said Warner.

"It also could explain why the calcification rates of many species of corals are not affected by ocean acidification," said co-author Andrea Grottoli at Ohio State University.

Next steps
Now that the scientists have overcome the technical difficulties associated with taking these complicated measurements inside coral, the next step is to collect measurements under different conditions and from other species of corals.

For example, Cai envisions taking measurements under various ocean acidification conditions, light conditions or temperatures, and while exposing the coral to different nutrients or environmental stressors.

"We have a long way to go," he said, "but I am confident that this work will help the scientific community to look at coral calcification mechanisms somewhat differently from the approaches we've seen in the past," Cai said.

It may also help scientists better understand carbon delivery - how carbon is moving inside the coral - and how external changes in pH may affect the coral's biochemistry.

"These tools and the results we obtained with them provided exciting new insight into calcification mechanisms and we are currently working to incorporate these findings into models of coral carbon processing," said Brian Hopkinson, a collaborator at the University of Georgia.

"Some of the premises that scientists have been working under regarding OA are predicated on what's happening to the chemistry of the seawater, but the coral is changing these concentrations biologically as well. This is the kind of tool that will help us figure out what coral are doing differently," added Warner.

Other co-authors on the study include colleagues at University of Georgia, Ohio State University, Zhejiang University, Texas A and M University Corpus Christi, South China Sea Institute of Oceanology, Chinese Academy of Sciences, University of Western Australia Ocean's Institute, Zhejiang Sci-Tech University, State Oceanic Administration Second Institute of Oceanography in China, and Reef Systems Coral Farm (Ohio).


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