Alabama fishermen and scuba divers will receive a welcome present from the state of Alabama in a few years: the coordinates to a series of man-made coral reefs teaming with fish and other reef creatures.

In order to promote coral growth, the state has placed 100 federally funded concrete pyramids at depths ranging from 150 to 250 feet (45 to 75 metres). Each pyramid is 9 feet (3 metres) tall and weighs about 7,500 lbs (3,400 kg).

The pyramids have now been resting off the coast of Alabama for three years and will continue to be studied by scientists and regulators for a few years more before their exact location is made public.

In order to find out differences when it comes to fish-attracting power, some pyramids have been placed alone while others stand in groups of up to six pyramids. Some reefs have also been fitted with so called FADs – Fish Attracting Devices. These FADs are essentially chains rising up from the reef to buoys suspended underwater. Scientists hope to determine if the use of FADs has any effect on the number of snapper and grouper; both highly priced food fishes that are becoming increasingly rare along the Atlantic coast of the Americas.

Early settlers and late followers

Some species of fish arrived to check out the pyramids in no time, such as grunt and spadefish. Other species, like sculpins and blennies, didn’t like the habitat until corals and barnacles began to spread over the concrete.

“The red snapper and the red porgies are the two initial species that you see,” says Bob Shipp, head of marine sciences at the University of South Alabama. After that, you see vermilion snapper and triggerfish as the next order of abundance. Groupers are the last fish to set in.”

Both the University of South Alabama and the Alabama state Marine Resources division are using tiny unmanned submarines fitted with underwater video cameras to keep an eye on the reefs and their videos show dense congregations of spadefish, porgies, snapper, soap fish, queen angelfish and grouper.

“My gut feeling is that fish populations on the reefs are a reflection of relative local abundance in the adjacent habitat,” says Shipp. “Red snapper and red porgy are the most abundant fish in that depth. They forage away from their home reefs and find new areas. That’s why they are first and the most abundant.”

What if anyone finds out?

So, how can you keep one hundred 7,500 pound concrete structures a secret for years and years in the extremely busy Mexican Gulf? Shipp says he believes at least one of the reefs has been discovered, since they got only a few fish when they sampled that reef using rod and reel. Compared to other nearby pyramid reefs, that yield was miniscule which may indicate that fishermen are on to the secret. As Shipp and his crew approached the reef, a commercial fishing boat could be seen motoring away from the spot.

Commercial, recreational and party/charter boat fishermen from Maine to North Carolina have all rallied together to deal with an out-of-balance population of predatory spiny dogfish sharks that threatens the recovery of New England groundfish and several others fish stocks living along the U.S. East Coast.

The newly formed Fishermen Organized for Rational Dogfish Management (FORDM) has requested the assistance of Dr. Jane Lubchenco, newly appointed National Oceanic and Atmospheric Administration head, in dealing with the predator.

Spiny dogfish

The disproportionate abundance of dogfish is not a new problem; as early as 1992 Dr. Steven Murawski, now chief scientist of the National Marine Fisheries Service’s, wrote “Given the current high abundance of skates and dogfish, it may not be possible to increase gadoid (cod and haddock) and flounder abundance without ‘extracting’ some of the current standing stock.”

That was over 15 years ago and the situation has not improved. On the contrary, the amount of dogfish now exceeds that of skates, and dogfish comprises over half of all fish taken in the annual trawl surveys carried out by the Northeast Fisheries Science Center.

The spiny dogfish can exceed 150 cm in length and preys on virtually all species of fish smaller than itself. Dogfishes can also create a problem for other species by competing with them for prey fish.

This remarkable abundance of dogfish is most likely the result of countless years of ever increasing over-fishing. Spiny dogfish is not an appreciated food fish and the depletion of other species seems to have favoured it greatly in these waters.

The Florida legislature has unanimously passed a bill to create the “Florida Coral Reef Protection Act”.

The new act will protect Florida’s coral reefs from boat groundings and injuries caused by anchoring by providing penalties for anchoring on a coral reef or making any other vessel damages the corals. Depending on the nature and extent of the damage, wrongdoers will pay damages ranging form $150 to $250,000.

The “Florida Coral Reef Protection Act” applies to all State waters that contain coral reefs off the coasts of Broward, Martin, Miami-Dade, Monroe, and Palm Beach counties.

The legislature determined that coral reefs are valuable natural resources that contribute ecologically, aesthetically, and economically to the state of Florida. It also declared that it is in the best interest of the state of Florida to clarify the Florida Department of Environmental Protection’s powers and authority to protect coral reefs through timely and efficient recovery of monetary damages resulting from vessel groundings and anchoring related injuries.

The passage of the act has been preceded by several months of negotiations among various state agencies, stakeholder and environmental groups, including the Marine Industry Association and Reef Relief whose involvement greatly contributed to the act becoming a reality. Another important participant was the Palm Beach County Reef Rescue which has worked with the regulatory community for several years to develop a more effective enforcement strategy against coral reef anchoring.

To see a link to the legislation click here

Filtered cigarette butts should have new requirements for disposal, says Public Health Professor Tom Novotny after a San Diego State University (SDSU) study revealed filter-tipped cigarette butts to be toxic to marine and fresh-water fish.

According to Novotny and other members of the Cigarette Butt Advisory Group, used cigarette filters ought to be classified as hazardous waste since toxins present in them harm wildlife.

“It is toxic at rather low concentrations,” Novotny explains. “Even one butt in a liter of water can kill the fish in a period of 96 hours.”

Novotny says one way of reducing the amount of cigarette filters in our environment is stronger enforcement of anti-litter laws and non-smoking areas. Fines, waste fees or special taxes are other options, if the money is used to pay for cigarette butt recycling. A third alternative is to force manufacturers to pick up the bill for clean-up costs incurred by their products.

A thrown away cigarette butt is a combination of the original plastic filter and the compounds caught by the filter while the cigarette was being smoked. The plastic makes the filter non-biodegradable and the trapped compounds are toxic until they eventually biodegrades into the environment.

According to Novotny, cigarette butts are the number one littered substance in the world and have been the number one single item picked up on beach cleanup days in San Diego for several years.

“When they unconsciously throw their butts onto the ground, it’s not just litter, it’s a toxic hazardous waste product,” Novotny says. “And that’s what we’re trying to say. So that may be regulated at the local or state level. And we hope people will be more conscious about what they do with these cigarette butts.”

The study was carried out by SDSU Public Health Professor Rick Gersberg.

Picture by: Chris Sanderson, in Peterborough, Ontario, Canada.

According to a new report from Ningaloo Reef, the number of whale sharks in its waters is on the increase. The study, published in the journal Endangered Species Research (ESR), was made possible thanks to ECOCEAN – a new type of online photo-identification technology.

The system works by encouraging members of the public to send in their photos of whale shark, photos which are then stored in the in a database. Once they are in the data base, scientist can identify each whale shark using the pattern-recognition software.

Baby whale shark in the Phillipines.
Picture by WWF PF. Support WWF

The new technology in combination with the aid of citizens makes it easier for scientists to learn more about the migratory habits of the whale shark, the world’s larger fish. Prior to the 1980’s there were no more than 350 confirmed sightings of whale shark around the globe.

Since the project first began in 1993, over 500 new individual whale sharks have been discovered at Ningaloo Reef.

“Why are more and more juveniles arriving on the reef? It’s unclear, but it’s positive news,” says Jason Holmberg, lead author of the study.

Brad Norman, founder of the ECOCEAN whale shark project and Murdoch University, says the research shows that whale sharks can increase where they are well-protected.

“We have also demonstrated the power of citizen-science, that ordinary people around the world can make a real contribution to serious research and conservation,” he says. “Thanks to increasing levels of data collection, we’re finally able to estimate how many whale sharks appear annually, how long they typically remain at Ningaloo Marine Park (NMP), their patterns of arrival and departure and shifts in their population structure.”

In some countries whale sharks are still harvested commercially, while others have shifted over to whale safaris which can generate a substantial income through ecotourism. The researchers from Curtin University have shown that whale shark ecotourism can be advantageous for local communities around whale shark ‘hotspots’ such as the Ningaloo Reef.

“Our results indicate that without whale sharks at Ningaloo Marine Park (NMP) up to $4.6 million* would be lost from the local economy,” says Norman.

The success of the online collaboration between scientist and citizens has prompted researchers to issue a worldwide call to vacationers and divers to join in a global effort to monitor and protect the whale shark. You can find more information at www.whaleshark.org.

* 4.6 million AUD equals roughly 3.4 million USD

After a request from the Mexico Fishery Management Council, NOAA’s* Fisheries Service announced an emergency rule to protect the threatened sea turtles living in the Gulf of Mexico.

The emergency rule, which was announced on April 30, will take effect on May 18. From May 18 and onwards, the commercial reef fish longline fleet active in these waters will only be allowed to fish seaward of a line approximating the 50-fathom contour in the Gulf of Mexico. (Current regulations allow the fleet to fish as close as the 20-fathoms line.)

The emergency rule will also outlaw all reef fish longline fishing east of 85 degrees 30 minutes west longitude in the Gulf of Mexico after the quotas for deep water grouper and tilefish are reached.

The Mexico Fishery Management Council requested the emergency rule after a NOAA observer study documented how the reef fish longline fleet was incidentally catching and killing a substantial amount of loggerhead sea turtles, a species listed as “threatened” under the Endangered Species Act.

The emergency rule will be in effect for 180 days, but can be extended for up to an additional 186 days if necessary. The new rule will primarily affect those who fish for shallow-water grouper species, such as the popular food fish red grouper, since this type of fishing typically takes place in shallow waters within the 50-fathom contour off the west Florida shelf. Fishermen and groupers are however not the only ones occupying this area – it is also a very important feeding ground for sea turtles and therefore the place where most of the incidental sea turtle by-catches take place.

“We are working closely with the council and constituents to find more permanent solutions to protect sea turtles affected by this fishing gear,” said Roy Crabtree, NOAA’s Fisheries Service southeast regional administrator. “I hope we can identify options that not only provide sea turtles the protection they need, but minimize the economic affects to the fishing industry.”

The Gulf of Mexico Fishery Management Council is also considering actions to address the problem on a long-term basis.

The emergency rule is implemented in accordance with both the Endangered Species Act and the Magnuson-Stevens Act. The Magnuson-Stevens Act requires that conservation and management measures minimize bycatch of non-target species and minimize mortality when bycatch cannot be avoided.

* National Oceanic and Atmospheric Administration (NOAA)

As part of a reef restoration study, researchers removed 20 specimens of the Caribbean giant barrel sponge from the Conch Reef off of Key Largo, Florida and then re-attached them using sponge holders consisting of polyvinyl chloride piping. The sponge holders were anchored in concrete blocks set on a plastic mesh base. Some sponges were reattached at a depth of 15 meters and some further down at 30 metres.

Venus Flower Basket sponge. A deep sea glass species.

The results of the study now show that sponges are capable of reattaching themselves to reefs if we help them by keeping them properly secured during the recuperation period. After being held stationary by sponge holders for as little as 6 months the sponges had reattached themselves to the Conch Reef. Of the 20 specimens reattached in 2004 and 2005, 62.5 percent survived at least 2.3-3 years and 90 percent of the sponges attached in deep water locations survived. During the study period, the area endured no less than four hurricanes.

This is very good news for anyone interested in reef restoration, since the new technique can be used to rescue sponges that have been dislodged from reefs by human activities or storms. Each year, a large number of sponges are extricated from reefs by human activities such as vessel groundings and the cutting movements of chains and ropes moving along with debris in strong currents. Severe storms can also rip sponges from the reef, which wouldn’t be a problem if it weren’t for the fact that so many sponges are also being removed by human activities. When combined, storms and human activities risk decimating sponge populations. Old sponges can be hundreds or even thousands of years old and their diameter can exceed 1 meter (over 3 feet). Sponges of such an impressive size and age can naturally not be rapidly replaced by new sponges if they die.

Sponges can survive for quite a while after being dislodged but is difficult for them to reattach themselves to reefs without any help since they tend to be swept away by currents and end up between reef spurs on sand or rubble, where they slowly erode and eventually die.

“The worldwide decline of coral reef ecosystems has prompted many local restoration efforts, which typically focus on reattachment of reef-building corals,” says Professor Joseph Pawlik of the University of North Carolina-Wilmington, co-author of the study. “Despite their dominance on coral reefs, large sponges are generally excluded from restoration efforts because of a lack of suitable methods for sponge reattachment.”

The results of the study, which were published in Restoration Ecology, show that we can help the sponges to survive by using the new technique. Earlier attempts were less successful since they relied on cement or epoxy; two types of adhesives that do not bind well to sponge tissue.

In a study announced today by the Wildlife Conservation Society* (WCS) at the International Coral Reef Initiative** (ICRI) meeting in Thailand, researchers show that some coral reefs located off East Africa are unusually resilient to climate change. The high resilience is believed to be caused by geophysical factors in combination with improved fisheries management in these waters.

After studying corals off the coast of Tanzania, researchers found that these coral reefs has made an incredibly speedy recovery from the 1998 bleaching event that wiped out up to 45 percent of the region’s corals. The authors of the study attribute the swift recovery to a combination of reef structure and reef management.

Compared to many other coral reefs around the world, Tanzania’s reefs are used to considerable variations in both current and water temperature which has turned these reefs into an unusually complex web of different coral species. This bio-diverse ecosystem includes several different species known to quickly re-colonize an area after a bleaching incident.

The authors of the study believe that reefs in other parts of the world subjected to similarly diverse environmental conditions might have the same high ability to recover from large-scale climatic and human disturbances. The study provides additional evidence that such “super reefs” can be found in the triangle from Northern Madagascar across to northern Mozambique to southern Kenya and the authors suggest that these reefs should be a high priority for conservation efforts since they may come to play an important global role in the future recovery of coral reefs worldwide.

“Northern Tanzania’s reefs have exhibited considerable resilience and in some cases improvements in reef conditions despite heavy pressure from climate change impacts and overfishing,” says Dr. Tim McClanahan***, the study’s lead author. “This gives cause for considerably more optimism that developing countries, such as Tanzania, can effectively manage their reefs in the face of climate change.”

The study also stresses the impact of direct management measures in Tanzania, including closures to commercial fishing. Algae is known to easily smother corals, but researchers found how areas with fishery closures contained a rich profusion of algae eating fish species that kept the corals clean. The few sites without any management measures remained degraded, and in one of them the population of sea urchins had exploded. Sea urchins feed on corals and can therefore worsen the problem for an already suffering reef.

The study has been published in the online journal Aquatic Conservation: Marine and Freshwater Ecosystems.

Authors of the study include Tim McClanahan and Nyawira Muthiga of the Wildlife Conservation Society, Joseph Maina of the Coral Reef Conservation Project, Albogast Kamukuru of the University of Dar es Salaam’s Department of Fisheries Science and Aquaculture, and Saleh A.S. Yahna of the University of Dar es Salaam’s Institute of Marine Sciences and Stockholm University’s Department of Zoology.

* The Wildlife Conservation Society is an institutional partner to ICRI and is actively conserving tropical coral reef species in priority seascapes in Belize, Indonesia, Papua New Guinea, Fiji, Kenya and Madagascar. Along with monitoring reefs, WCS also trains of park staff in protected areas.

** The International Coral Reef Initiative (ICRI) is a global partnership among governments and organizations working to stop and reverse the degradation of coral reefs and related ecosystems. This ICRI General Meeting was convened by the joint Mexico – United States Secretariat.

*** Dr. McClanahan’s research regarding ecology, fisheries, climate change effects, and management of coral reefs at key sites throughout the world is supported by the Western Indian Ocean Marine Science Association (WIOMSA) and The Tiffany & Co. Foundation.

After a 1,100-mile voyage and more than ten years of planning and acquiring funding resources, the ex-military ship Gen. Hoyt S. Vandenberg finally arrived in Key West this Wednesday.

The ship is scheduled to be sunk sometime between May 20 and June 1 and will eventually form the second largest artificial reef in the world. The ship will rest some six miles south of Key West in 140 feet of water in the Florida Keys National Marine Sanctuary.

“We’re all pretty excited here in Key West and particularly in view of the fact this is going to be the second largest artificial reef in the world,” said Key West City Commissioner Bill Verge, who is serving as a project liaison between the city and various state and federal agencies.

“One of the big products that we make here is happy vacations,” said Joe Weatherby who conceived the project some 13 years ago. “And we feel that this artificial reef is the world’s best product ever produced for scuba diving. People are going to come from all over the world to dive this, but this product also has been designed so we can offer it to glass bottom boat riders, snorkelers or new divers as well as advanced divers, it holds interest for all of them.”

The Vandenberg is now undergoing final preparations before the scuttling and is for instance fitted with several hundred big holes along its decks and sides to prevent it from falling over as it sinks. The ship has already been ridded from potentially dangerous materials by two Norfolk, Va., shipyards who removed 71 cubic yards of asbestos, 193 tons of materials that contained potentially carcinogenic substances, 46 tons of refuse, 300 pounds of mercury-containing materials and 185 55-gallon drums of paint chips. The cleaning required 75,000 man-hours and used up 70 percent of the projects $8.6 million US dollars.

The artificial reef is becoming a reality thanks to the cooperation of a lot of different people and entities. It is funded by Monroe County, the Florida Governor’s Office of Tourism, Trade and Economic Development; City of Key West, U.S. Maritime Administration, Florida Fish and Wildlife Conservation Commission, Florida Keys & Key West tourism council, the National Oceanic and Atmospheric Administration as well as by industry and private donations. Banks that provided loans include First State Bank of the Florida Keys, BB&T and Orion.

As of now, you can find the Vandenberg docked behind the USS Mohawk at the East Quay Wall in Truman Annex Harbor. The USS Mohawk is a historic Coast Guard ship open as a floating museum.

History of the Gen. Hoyt S. Vandenberg

This ship has not always been known under the name Gen. Hoyt S. Vandenberg; it used to be a U.S. Army troop transport named the General Harry Taylor. In 1963 it got its new name, the Gen. Hoyt S. Vandenberg, as it began tracking the U.S. space program’s launches off Cape Canaveral. Vandenberg has also been used for monitoring U.S. defense missile test launches in the Pacific as well as eaves dropping on Russian missile launches during the Cold War. Its last active duty homeport was Port Canaveral in Florida, from 1976 to the ships formal retirement in 1983.

In 1983, the Vandenberg was moved to the James River Naval Reserve Fleet. Even though it had been formally retired, it was still kept in a state of readiness in case it would be needed again. Every six months, technicians would power up all its electronics and make any necessary repairs. It was kept like this for 10 years until it was formally struck from the naval register in 1993 and transferred to the Maritime Administration.

After this, the ship began a new life and did for instance serve as a Russian science ship in the 1999 movie “Virus,” where it played its part alongside Hollywood stars like William Baldwin, Jamie Lee Curtis, and Donald Sutherland.

Madagascar, a large island situated in the Indian Ocean off the south-eastern coast of the African continent, is home to an astonishing array of flora and fauna. Madagascar, then part of the supercontinent Gondwana, split from Africa about 160 million years ago and became an island through the split from the Indian subcontinent 80-100 million years ago.

Madagascar is now the 4^th largest island in the world and its long isolation from neighbouring continents has resulted in an astonishingly high degree of endemic species; species that can be found nowhere else on the planet. Madagascar is home to about 5% of the world’s plant and animal species, of which more than 80% are endemic to island. You can for instance encounter Appert’s Tetraka bird (Xanthomixis apperti), the carnivorious Fossa (Cryptoprocta ferox) and over 30 different species of lemur on Madagascar. Of the 10,000 plants native to Madagascar, 90% are endemic.

The diverse flora and fauna of Madagascar is not limited to land and air; you can find an amazing array of creatures in the water as well – including a rich profusion of endemic fish species. Unfortunately, the environment on Madagascar is changing rapidly and the fish – just like most of the other creatures – risk becoming extinct in the near future.

The fishes of Madagascar currently have to deal with four major threats:

• Deforestation
• Habitat Loss
• Overfishing
• Invasive species

In a response to this, and to educe people around the world about the fish of Madagascar, aquarist Aleksei Saunders have created the website Madagascar’s Endangered Fishes on which he shares his knowledge of Madagascan fish species and the perils they’re facing, but also highlights all the things we can do to improve the situation.

The site focuses on freshwater fish conservation and captive breeding, since collection of wild fish to bring endangered species into captivity for managed reproductive efforts plays a large part of the conservation effort in Madagascar.

In addition to the website, Alex is also gives power-point presentations on husbandry and conservation breeding of Madagascar’s endemic fish fauna, since more and more aquarists around the world are taking a large interest in doing their part to help endangered fish species.

Alex has worked with fish since 1990 and it was through his work as an aquarist at Denver Zoo he became enthralled with the ichthyofauna of Madagascar. During the early 1990s Denver Zoo started a conservation program with the endemic freshwater fishes of Madagascar and in 1998 Alex got the chance to pay his first, but certainly not last, visit to the island. Today, his trips primarily focus on educating the Malagasy on their wonderful natural heritage and ways of conserving it, assessing the condition of native freshwater habitats and the fish population therein, and collecting wild fish for managed captive breeding. Alex now manages on of the most diverse collections of Madagascan endemic fishes in North America, including 5 species of rainbowfish, 4 species of cichlid, and 3 killifish species.

With this site I hope to educate, motivate, and stimulate people into action to help save Madagascar’s endangered fishes. Please look around the site. There are sections for fish hobbyists, adventure travellers, conservation biologists, and just those curious about the world in which we live.

Cheers,

Aleksei Saunders