Athens, Ga. – Increased seawater temperatures are known to be a leading cause of the decline of coral reefs all over the world. Now, researchers at the University of Georgia have found that extreme low temperatures affect certain corals in much the same way that high temperatures do, with potentially catastrophic consequences for coral ecosystems. Their findings appear in the early online edition of the journal Global Change Biology.
Lead author Dustin Kemp, a postdoctoral associate in the UGA Odum School of Ecology, said the study was prompted by an abnormal episode of extended cold weather in January and February 2010. Temperatures on inshore reefs in the upper Florida Keys dropped below 12 C (54 F), and remained below 18 C (64 F) for two weeks. Kemp and his colleagues had planned to sample corals at Admiral Reef, an inshore reef off Key Largo, just three weeks after the cold snap. When they arrived, they discovered that the reef, once abundant in hard and soft corals, was essentially dead. “It was the saddest thing I’ve ever seen,” Kemp said. “The large, reef-building corals were gone. Some were estimated to be 200 to 300 years old and had survived other catastrophic events, such as the 1998 El Niño bleaching event. The severe cold water appeared to kill the corals quite rapidly.”
Odum School Professor William Fitt, Kemp’s doctoral advisor and one of the paper’s co-authors, realized that the team had a unique opportunity. “Nearly 100 years ago, Alfred Mayer described the temperature tolerance of different corals in the Dry Tortugas and found very similar results,” Kemp said. “We decided to take the next step and learn how and why the cold temperatures caused the corals to die.”
The researchers took samples of Siderastrea siderea—one of the few reef-building corals to survive—from Admiral Reef. They also took samples of three common Florida Keys corals, Montastraea faveolata, Siderastrea sidereaand Porites astreoides from Little Grecian Reef, a nearby offshore reef that had not experienced the temperature anomaly to the extent of Admiral Reef. Kemp explained that Little Grecian Reef is far enough offshore that the cold-water temperatures were likely buffered by the warm waters of the Gulf Stream, which resulted in offshore coral reefs being less severely affected by the cold air mass that was pushed by an unusual weather pattern over much of the U.S. during that two-week period.
Back in the lab, they simulated the temperatures that had been recorded at Admiral Reef during the cold weather event, testing the different corals’ physiological responses at 12 C and 16 C (61 F), and then, after the corals’ exposure to the cold, returned the temperature to 20 C (68 F). They found that although responses varied depending on the coral species, in general the stress of extended cold temperatures had an effect similar to that of high temperatures.
Kemp explained that corals depend on Symbiodinium, a type of symbiotic algae that lives inside them, for nutrition. Through photosynthesis, the algae produce sugars, which are passed on to the corals. “The cold temperatures inhibited photosynthesis in the algae, leading to a potential net loss of carbon transferred from the algae to the coral,” said Kemp. He said that each coral species had its own unique type of Symbiodinium, some of which were better able to tolerate and recover from cold temperatures than others.
All of the corals experienced a significant decrease in photosynthesis at 12 C. Siderastrea siderea and M. faveolata were able to handle the 16 C temperatures, but P. astreoides was not, and did not show signs of recovery once the temperature was returned to 20 C. Siderastrea siderea was the only coral able to recover.
“Corals and their symbiotic algae have a range of stress tolerance,” said Kemp. “Some can handle moderate stress, some are highly sensitive, and some are in between. But extreme cold is just one stressor among many.” Other threats to coral health include increased seawater temperatures, diseases, ocean acidification, and pollution. “Adding stress from wintertime cold episodes could not only quickly kill corals but also may have long-term effects,” he said. “For corals found in the Florida Keys, winter is typically a ‘non-stressful’ time and corals bulk up on tissue reserves that are important for surviving potentially ‘stressful’ summertime conditions (i.e. coral bleaching).”
Kemp said that researchers at NOAA attribute the record-breaking cold anomaly to a negative trend in the North Atlantic oscillation, an atmospheric pressure pattern that influences the weather in the northern hemisphere. “They speculate that if the trend continues, these kinds of extreme cold events may become more frequent,” he said.
Kemp also pointed out that it was not only the corals that were devastated by the cold snap. “The corals provide the framework for the entire reef ecosystem,” he said. “The lobster, shrimp, clams, fish—all the creatures that depend on the reef—were affected too. The potential consequences for coral ecosystems are extremely alarming.”
Besides Kemp and Fitt, the paper’s coauthors were Clinton Oakley and Gregory Schmidt of the UGA Department of Plant Biology, Daniel Thornhill of the nonprofit Defenders of Wildlife and Bowdoin College, and Laura Newcomb of Bowdoin College. The research was supported by the National Science Foundation and Bowdoin College.
Several people have mentioned that the corals dying off have been 200 to 300 years old.
Does this mean that they are the survival/regrowth after the Little Ice Age. No evidence, just asking.
Please can I have some funding to travel somewhere nice, do some diving and write up an opinion?
So warm/cold kills coral. Who’da thunk it?
Dooooomed!
Timetochooseagain: The winter seasonal NAO mean does indeed have a strong long term oscillation. I have to state this again. All such cryospheric, atmospheric and temperature measurements should be done, including land and SST metrics, on a three month year round running mean and three month seasonal means so that oscillations, correlations and teleconnections can be more easily detected.
http://www.cpc.ncep.noaa.gov/products/precip/CWlink/pna/JFM_season_nao_index.shtml
If corals have such a hard time surviving in suboptimal temperatures, why have they persisted for so long in the geologic record? Those kiddies need to go outside of their air conditioned offices and look at the real world. No, wait. They have a model for doing exactly that.
“It was the saddest thing I’ve ever seen,” Kemp said.
If that is the saddest thing Kemp has ever seen, he is living a charmed life…. Maybe he should go do some aid work in Africa for a few months.
This was not all Keys reefs….
Just one, inshore shallow reef.
The next closest reef, Grecian (so close you can underhand a rock and hit it), was fine.
Inshore shallow reefs, growing this far north, are always vulnerable to weather.
This had more to do with wind, and the way the cold front came in, settled, and the wind died. Wind drives the currents in shallow water, the cold water just sat there.
Jeff in Calgary says:
August 9, 2011 at 7:26 am
“It was the saddest thing I’ve ever seen,” Kemp said.
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That has more to do with money…..
They are permitted to collect only on certain reefs, this was their major cash cow. They have build courses around their ability to collect, and they’ve been milking that one reef for years.
The fact that it’s not considered an important reef was figured in to their ability to get permits to collect.
If it was such a wonderful reef, how is it that a school is allowed to take corals off of it and kill them?
This paper is obviously written by someone with limited knowledge of coral reefs. Here is a news flash. Corals die all the time in response to local heating and cooling, and are re-colonized by polyps better adapted to the new temperatures. Come back in 5 years and look at these same reefs and they very likely be healthy again. After the panic over bleaching in the Great Barrier Reef it was discovered it is simply a part of the life cycle of coral.
This years dead coral is an idea colonization site for next years coral polyps. All that is required is for fish (parrot fish usually) to graze the algae that overgrows the dead coral, leaving a bare patch for the still floating juvenile polyps to colonize. One large danger to corals is over fishing of the reefs, which interferes with this process. Humans are killing reefs, but not through CO2.
Pamela Gray-Thanks for finding a more easily understood chart. As readers can no doubt tell, there is variability, but no long term negative trend. The article this post is about seems to be referring to a short term trend toward negative values. It is rather silly, I think, to speculate about that continuing, given the history of the NAO that suggests, in fact, that one should not expect it to continue to decline indefinitely.
True we have only seen one potentially complete cycle from neutral to negative then back up to positive and now back to neutral (though a bit noisy it looks almost like a sine wave). Will it continue its downward trend and start another complete oscillation, if indeed it oscillates? Maybe. Not enough data to pin this one down. Your skeptical view is the more appropriate one. I will tone mine down a bit from yes it oscillates to maybe it does.
Looking at the 6 – 14 day prog’s for the leading edge of North America, the Pacific High may start to wind down as early as next week opening the storm door 2 months early. Maybe these are the warning waves of a Bond Event. I would even wonder about “the Great Heat Wave” of the Southern Plains and Northern Sierra Madre Occidental – sometimes there is a last blast of heat before the serious cold.
timetochooseagain & Pamela Gray
The NAO is assumed to have variations in the decadal band between 15 and 20 years.
http://www.vukcevic.talktalk.net/NAOn.htm
I have also some NAO longer term graphs from 1970-2005 (subject I am interested in at the moment) you can see here:
summer- http://www.vukcevic.talktalk.net/PD-ICprs_dif_s.gif
winter – http://www.vukcevic.talktalk.net/PD-ICprs_dif_w.gif
annual – http://www.vukcevic.talktalk.net/PD-ICprs_dif_a.gif
correlation with CET summer/winter
http://www.vukcevic.talktalk.net/CET-summer.gif
http://www.vukcevic.talktalk.net/CET-winter.htm
correction (1870 -2005)
ferd berple says:
August 9, 2011 at 8:19 am
This paper is obviously written by someone with limited knowledge of coral reefs. Here is a news flash. Corals die all the time in response to local heating and cooling, and are re-colonized by polyps better adapted to the new temperatures
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Not necessarily better adapted ferd……
…just whatever is down stream, tends to be the same old same old
The ones better adapted just crowd them out over time, which limits the settlement of the new lesser adapted because of less clean surfaces for them to settle on
Most of what people consider corals, are actually the weeds, acropora, etc. They are fast growing and over-grow the true reef building corals, killing them.
So as the Little Ice Age ended, these corals moved into the newly warmer areas and started growing. Let me guess, the 300 year old corals were the ones that more cold tolerant than the 200 year olds. When cold returns, these corals die off.
Hey, these are coralometers!
“The ones better adapted just crowd them out over time, which limits the settlement of the new lesser adapted because of less clean surfaces for them to settle on”
Makes sense to me. Without the parrot fish to clean the reef the new corals are out competed by sponges and similar.
What doesn’t make sense to me it the concern for coral reefs in the face of warming. Coral is only abundant in the tropics. Thus, the only effect to be expected from warming is to expand the range of habitat of corals into what are currently temperate zones. Yes, there are cold water corals, but nothing like what we find in the tropics.
The idea that warm water is dead for corals simply makes no sense as from my personal experience they thrive in the hottest ocean waters on earth. Whenever I see someone say that warmth is bad for corals I can’t help but thinking the person hasn’t spent much time on the tropical oceans of this planet.
Serious question: A researcher has found a coral reef that died due to cold temperature. Has any researcher found a coral reef that died due to warm water? Not speculation, but rather a specific reef that is no longer alive because temperatures got too warm.
Increased temperatures do not lead to coral death. They lead to algal symbiot change during which whitening can occur. The process can take several weeks.
The real foe in the coral reef is the Crown of Thorns starfish.