- Location
- NYC - 10026
From NY Times...
May 1, 2007
Coral Is Dying. Can It Be Reborn?
By CORNELIA DEAN
TAVERNIER, Fla. ? Clouds were moving across the sun and a 20-knot northeast wind was stirring a 3-foot chop as Meaghan Johnson headed her open boat into the Florida Straits.
Ms. Johnson, a program coordinator for the Nature Conservancy, headed the boat into the swells, to minimize swamping, as her passengers tried in vain to avoid soaking spray.
One of them, Ken Nedimyer, stood next to her at the console, gazing out at the seemingly featureless welter of waves, seeking signs ? a slight change in water depth here, a barely visible underwater patch of reef there ? that only he could recognize and triangulate with the rapidly disappearing onshore landmarks of Key Largo.
About two and a half miles out, he told Ms. Johnson to throttle back a bit. ?Over there,? he said, pointing off the starboard bow. ?About 400 yards.?
The boat pulled up to the site and Philip Kramer, who directs the conservancy?s Caribbean Marine Program, set its anchor. Soon he, Ms. Johnson and Mr. Nedimyer were over the side, peering into the water through their snorkeling masks. Below them was what they had come to see, an array of concrete disks set in the sand. Each one held a tiny piece of coral.
Mr. Nedimyer had led them to a nursery, one of a number he has established since 2000, when chance, coincidence, a government program and a lifelong passion for tropical fish set him on an adventure: a quest to nourish and restore the tattered remains of the Keys? once glorious reefs.
He is working with assistance from the conservancy, which in turn cooperates with the Florida Keys National Marine Sanctuary and the National Oceanographic and Atmospheric Administration, which has its own coral efforts in places like Puerto Rico. Meanwhile, the Environmental Protection Agency is looking at water quality standards for corals in Florida, Hawaii, the Virgin Islands and Puerto Rico, the only American territories where they occur. The Coral Reef Task Force, created in the Clinton administration, regularly assesses coral health. The World Bank, motivated in large part by corals? importance for ecosystems and ecotourism, has embarked on a global program to assess restoration efforts and to identify tactics to combat their decline.
And 90 miles south on Highway 1, the traffic-snarled spine of the Keys, biologists at the Mote Marine Laboratory struggle with their own coral nursery efforts. Like Mr. Nedimyer, they are trying to identify strains of coral that grow well in the Keys, and to re-establish them offshore.
Theirs is an uphill battle. Many would say corals globally are already so damaged, and so threatened by further environmental degradation, that there is little chance restoration efforts can turn things around.
Staghorn and elkhorn corals, Mr. Nedimyer?s principal interests, were once abundant in South Florida, the Bahamas and elsewhere in the Caribbean. But since the 1990s they have significantly declined, to the point that last year they were placed on the threatened list, under the Endangered Species Act.
They are suffering the kinds of environmental disruption that afflict corals around the world. ?We have lost 25 percent of the world?s corals in the last 25 years,? David E. Vaughan, director of the Center for Coral Reef Research at Mote, said in an interview, adding that 25 percent more are expected to die in the next decade or two. ?Sometimes we sound like doomsday sayers,? Dr. Vaughan said, ?but those are the facts.?
Environmental disruption takes many forms. Fishing boats, and even dive boats and divers, can damage reefs. Sea turtles bang into corals, breaking them. Polluted runoff can deprive corals of the clear, oxygen-rich water they need to survive.
And then there is global warming. So far, scientists say, it has had two main effects on coral, both potentially lethal. First, as oceans absorb more carbon dioxide, the chief greenhouse gas, they become more acidic. The acidity makes it more difficult for corals to grow and may even cause them to start to dissolve. And as oceans warm, algae that live in corals, and on which they depend, may be killed.
David Lackland, a biologist at Mote, tells children who visit that corals live with algae as people might live if they liked asparagus, say, but instead of raising it in gardens they grew it inside their bodies, absorbing it directly as energy and fertilizing it with their waste in a symbiotic relationship. Different kinds of corals have different kinds of algae symbionts, but if the algae are threatened, corals are threatened, too.
Another serious disruption is overfishing.
Corals need herbivorous fish to keep unwanted algae under control. When seaweed-eating fish are gone, ?you are going to end up with seaweed blooms,? said Nancy Knowlton, director of the Center for Marine Biodiversity and Conservation at the Scripps Institution of Oceanography and a leader in the World Bank effort. ?It?s been shown that seaweeds release a lot of sugars into the water,? she said. Because many bacteria need sugars, ?you have these bacteria blooms that kill corals.?
Corals also need predators like groupers, snappers, barracudas and even lobsters to prevent the proliferation of coral-eating snails, worms and other organisms.
Meanwhile, a host of diseases plague coral, many of them poorly understood. For example, staghorn and elkhorn coral are vulnerable to so-called white-band disease, in which coral tissue mysteriously decays. The disease, which struck the Caribbean in the mid-1990s, kills healthy tissue, leaving only white skeletons. It usually progresses quickly, and while it almost never wipes out complete colonies, colonies can be reinfected.
Scientists do not know for sure what causes the condition, and their suspects ? bacteria, fungi and other microbes ? are present at healthy corals as well as sickly formations, adding to the mystery.
Corals in South Florida have another big problem, a die-off of sea urchins, which began succumbing wholesale to a mysterious ailment about 20 years ago. Urchins graze on unwanted algae, and without them, corals in many areas have been smothered in overgrowth, making it difficult or impossible for them to grow or propagate.
Mr. Nedimyer focuses most of his efforts on coral, something he got into almost by accident several years ago, through his work as a wholesale dealer in aquarium supplies, a business he has operated for 35 years. One of his products is ?live rock,? reef rubble that bacteria colonize. In aquariums, the bacteria help break down waste from fish.
He had permission from the government to gather live rock at a particular site and one day about 10 years ago, he noticed that a few bits of rubble had something growing on them. ?I didn?t know what it was at first,? he said. ?I saw five of these little things. I kept watching them and pretty soon they started to grow out into staghorn coral.? He set the rocks aside, underwater, and managed to keep the coral growing in spite of storms and other problems. When he found broken pieces of coral he stuck them in other pieces of rock, and ?sometimes they would live.?
In 2000, at an aquarium in Orlando, he heard a presentation on Pacific coral and learned that ?you can cut these things into tiny fragments and glue them to things and they will grow.? Back in the Keys, he started experimenting. His daughter Kelly helped, turning the work into a 4-H project.
At first it was trial and error. They experimented with growing platforms and especially with how to glue coral fragments to them. ?We tried a lot of epoxy,? Mr. Nedimyer said. ?We found kinds that stick to wetsuits, to hair, to cameras.?
Eventually, they discovered a two-part epoxy glue used in taxidermy. They can mix it on a boat and it remains workable for about half an hour. And it is white, which looks nice against the sandy bottom.
For a brief heady moment, he recalled, he thought about the fact that he has government permission to sell coral and considered turning it into a lucrative sideline for his business. But then, he said, he started thinking about what had happened to the Keys? reefs since he first encountered them in the 1970s, ?when there would be thickets three, four, five feet high and just vast.?
Those kinds of underwater landscapes have just about vanished, he said. ?So I thought, well, these corals are in trouble. And we can make a difference rather than make money.? Today he has several nurseries, each with a variety of coral strains, at varying depth, water quality and distance from shore. The goal of the project is to identify which coral strains are most robust and in what conditions. Dr. Kramer, Ms. Johnson and Mr. Nedimyer were pleased by the corals they saw at the nursery. After climbing back into the boat, Mr. Nedimyer said: ?They were a few inches, now they are two or three times the size. That?s a lot of growth in six months.?
May 1, 2007
Coral Is Dying. Can It Be Reborn?
By CORNELIA DEAN
TAVERNIER, Fla. ? Clouds were moving across the sun and a 20-knot northeast wind was stirring a 3-foot chop as Meaghan Johnson headed her open boat into the Florida Straits.
Ms. Johnson, a program coordinator for the Nature Conservancy, headed the boat into the swells, to minimize swamping, as her passengers tried in vain to avoid soaking spray.
One of them, Ken Nedimyer, stood next to her at the console, gazing out at the seemingly featureless welter of waves, seeking signs ? a slight change in water depth here, a barely visible underwater patch of reef there ? that only he could recognize and triangulate with the rapidly disappearing onshore landmarks of Key Largo.
About two and a half miles out, he told Ms. Johnson to throttle back a bit. ?Over there,? he said, pointing off the starboard bow. ?About 400 yards.?
The boat pulled up to the site and Philip Kramer, who directs the conservancy?s Caribbean Marine Program, set its anchor. Soon he, Ms. Johnson and Mr. Nedimyer were over the side, peering into the water through their snorkeling masks. Below them was what they had come to see, an array of concrete disks set in the sand. Each one held a tiny piece of coral.
Mr. Nedimyer had led them to a nursery, one of a number he has established since 2000, when chance, coincidence, a government program and a lifelong passion for tropical fish set him on an adventure: a quest to nourish and restore the tattered remains of the Keys? once glorious reefs.
He is working with assistance from the conservancy, which in turn cooperates with the Florida Keys National Marine Sanctuary and the National Oceanographic and Atmospheric Administration, which has its own coral efforts in places like Puerto Rico. Meanwhile, the Environmental Protection Agency is looking at water quality standards for corals in Florida, Hawaii, the Virgin Islands and Puerto Rico, the only American territories where they occur. The Coral Reef Task Force, created in the Clinton administration, regularly assesses coral health. The World Bank, motivated in large part by corals? importance for ecosystems and ecotourism, has embarked on a global program to assess restoration efforts and to identify tactics to combat their decline.
And 90 miles south on Highway 1, the traffic-snarled spine of the Keys, biologists at the Mote Marine Laboratory struggle with their own coral nursery efforts. Like Mr. Nedimyer, they are trying to identify strains of coral that grow well in the Keys, and to re-establish them offshore.
Theirs is an uphill battle. Many would say corals globally are already so damaged, and so threatened by further environmental degradation, that there is little chance restoration efforts can turn things around.
Staghorn and elkhorn corals, Mr. Nedimyer?s principal interests, were once abundant in South Florida, the Bahamas and elsewhere in the Caribbean. But since the 1990s they have significantly declined, to the point that last year they were placed on the threatened list, under the Endangered Species Act.
They are suffering the kinds of environmental disruption that afflict corals around the world. ?We have lost 25 percent of the world?s corals in the last 25 years,? David E. Vaughan, director of the Center for Coral Reef Research at Mote, said in an interview, adding that 25 percent more are expected to die in the next decade or two. ?Sometimes we sound like doomsday sayers,? Dr. Vaughan said, ?but those are the facts.?
Environmental disruption takes many forms. Fishing boats, and even dive boats and divers, can damage reefs. Sea turtles bang into corals, breaking them. Polluted runoff can deprive corals of the clear, oxygen-rich water they need to survive.
And then there is global warming. So far, scientists say, it has had two main effects on coral, both potentially lethal. First, as oceans absorb more carbon dioxide, the chief greenhouse gas, they become more acidic. The acidity makes it more difficult for corals to grow and may even cause them to start to dissolve. And as oceans warm, algae that live in corals, and on which they depend, may be killed.
David Lackland, a biologist at Mote, tells children who visit that corals live with algae as people might live if they liked asparagus, say, but instead of raising it in gardens they grew it inside their bodies, absorbing it directly as energy and fertilizing it with their waste in a symbiotic relationship. Different kinds of corals have different kinds of algae symbionts, but if the algae are threatened, corals are threatened, too.
Another serious disruption is overfishing.
Corals need herbivorous fish to keep unwanted algae under control. When seaweed-eating fish are gone, ?you are going to end up with seaweed blooms,? said Nancy Knowlton, director of the Center for Marine Biodiversity and Conservation at the Scripps Institution of Oceanography and a leader in the World Bank effort. ?It?s been shown that seaweeds release a lot of sugars into the water,? she said. Because many bacteria need sugars, ?you have these bacteria blooms that kill corals.?
Corals also need predators like groupers, snappers, barracudas and even lobsters to prevent the proliferation of coral-eating snails, worms and other organisms.
Meanwhile, a host of diseases plague coral, many of them poorly understood. For example, staghorn and elkhorn coral are vulnerable to so-called white-band disease, in which coral tissue mysteriously decays. The disease, which struck the Caribbean in the mid-1990s, kills healthy tissue, leaving only white skeletons. It usually progresses quickly, and while it almost never wipes out complete colonies, colonies can be reinfected.
Scientists do not know for sure what causes the condition, and their suspects ? bacteria, fungi and other microbes ? are present at healthy corals as well as sickly formations, adding to the mystery.
Corals in South Florida have another big problem, a die-off of sea urchins, which began succumbing wholesale to a mysterious ailment about 20 years ago. Urchins graze on unwanted algae, and without them, corals in many areas have been smothered in overgrowth, making it difficult or impossible for them to grow or propagate.
Mr. Nedimyer focuses most of his efforts on coral, something he got into almost by accident several years ago, through his work as a wholesale dealer in aquarium supplies, a business he has operated for 35 years. One of his products is ?live rock,? reef rubble that bacteria colonize. In aquariums, the bacteria help break down waste from fish.
He had permission from the government to gather live rock at a particular site and one day about 10 years ago, he noticed that a few bits of rubble had something growing on them. ?I didn?t know what it was at first,? he said. ?I saw five of these little things. I kept watching them and pretty soon they started to grow out into staghorn coral.? He set the rocks aside, underwater, and managed to keep the coral growing in spite of storms and other problems. When he found broken pieces of coral he stuck them in other pieces of rock, and ?sometimes they would live.?
In 2000, at an aquarium in Orlando, he heard a presentation on Pacific coral and learned that ?you can cut these things into tiny fragments and glue them to things and they will grow.? Back in the Keys, he started experimenting. His daughter Kelly helped, turning the work into a 4-H project.
At first it was trial and error. They experimented with growing platforms and especially with how to glue coral fragments to them. ?We tried a lot of epoxy,? Mr. Nedimyer said. ?We found kinds that stick to wetsuits, to hair, to cameras.?
Eventually, they discovered a two-part epoxy glue used in taxidermy. They can mix it on a boat and it remains workable for about half an hour. And it is white, which looks nice against the sandy bottom.
For a brief heady moment, he recalled, he thought about the fact that he has government permission to sell coral and considered turning it into a lucrative sideline for his business. But then, he said, he started thinking about what had happened to the Keys? reefs since he first encountered them in the 1970s, ?when there would be thickets three, four, five feet high and just vast.?
Those kinds of underwater landscapes have just about vanished, he said. ?So I thought, well, these corals are in trouble. And we can make a difference rather than make money.? Today he has several nurseries, each with a variety of coral strains, at varying depth, water quality and distance from shore. The goal of the project is to identify which coral strains are most robust and in what conditions. Dr. Kramer, Ms. Johnson and Mr. Nedimyer were pleased by the corals they saw at the nursery. After climbing back into the boat, Mr. Nedimyer said: ?They were a few inches, now they are two or three times the size. That?s a lot of growth in six months.?
