CORAL Magazine Table of Contents Jul/Aug 2014

07 Jul, 2014

BANNED
VOLUME 11, NUMBER 4

6     Letter From Europe by Daniel Knop
9     Editor’s Page by James M. Lawrence
16     Reef News
28     Rarities CORAL staff report

FEATURE ARTICLES
36     Lion tales – An aquarist’s guide to the genus Pterois and its kin by Scott W. Michael
48     Banned! New rules for Florida as it fights back against the worst marine invasion in state history by Ret Talbot
56     Origins of a biological calamity by Ret Talbot
66     Tracking an unprecedented invasion by Amy Benson
70     Eat Your Enemy — “Save a reef. Eat a lionfish.” by Ret Talbot
74     Bad news moves upstream by Ret Talbot
80     Breeding the West Indian sea egg: Tripneustes Ventricosus by Martin A. Moe, Jr.

AQUARIUM PORTRAIT
97     A reef wall in the living room – “It sounded impossible so I had to try it.” by Dr. Annette Kotzur

DEPARTMENTS
105     Reefkeeping 101: Algae seek an ecological niche by Daniel Knop and the CORAL staff; The Boggess-Peppermint Shrimp by Daniel Knop
111     Species Spotlight: The Copperband Butterflyfish by Daniel Knop
116     CORAL Sources: Outstanding aquarium shops
118     Coralexicon: Technical terms that appear in this issue
120     Advanced Aquatics: An Asian sleeping giant is awakening, and it happens to love aquariums by Michael Tuccinardi
128     Advertiser Index
130     Reef Life: by Denise Nielsen Tackett and Larry P. Tackett

18 Nov, 2013

Although best-known as the home of the world’s largest living lizard, Komodo National Park in the Lesser Sunda Islands of Indonesia is also a noteworthy dive destination that attracts biodiversity researchers doing marine species surveys in the Coral Triangle.

One of those scientists, Dr. Mark Erdmann of Conservation International, has found and described a gloriously pigmented new species of Flasher Wrasse, Paracheilinus rennyae.

The fish, distinguished by its rounded dorsal, anal, and caudal fins, is named in honor of Renny Kurnia Hadiaty from the Indonesian Institute of Sciences (LIPI) and in recognition of her scientific contributions to Indonesian fish taxonomy.

Erdmann, Conservation International’s (CI) senior adviser to the Indonesian Marine Program, says that Renny’s Flasher Wrasse is endemic to East Nusa Tenggara, the province in southeastern Indonesia where Komodo Island National Park is located. Conservationists are hopeful that such discoveries will help protect such areas from development.

“East Nusa Tenggara has more endemic species of flasher wrasses, which will hopefully encourage more tourists to come to Indonesia, since they can only see the endemic species here, including the new flasher wrasse,” Erdmann said on Wednesday.

According to Erdmann, the first picture of a new, unknown wrasse was taken by a diver in Nusa Tenggara Timor (NTT) in 2010.

“When the diver showed us the picture, we assumed it was a new species of flasher wrasse. Scientists from Udayana University [in Bali] later confirmed the species was genetically distinct from other flasher wrasse species,” he said.

Following collaboration between scientists from Udayana University, Papua State University in Manokwari, Diponegoro University in Semarang, University of California, Los Angeles (UCLA) and Conservation International Indonesia, a description of the new species by Dr. Gerald Allen, Dr. Erdmann, and Ni Luh Astria Yusmalinda was published in the year-end edition of  aqua, International Journal of Ichthyology.

Popular among reef aquarium keepers and divers alike, flasher wrasses are known for their gaudy mating displays, in which the males flare their fins and “flash” electric-blue colors to attract females and initiate spawning events.

Paracheilinus rennyae is genetically distinct from other known flasher wrasses in the Coral Triangle, with its closest relative being Paracheilinus angulatus from East Kalimantan, Brunei, Sabah and the southern Philippines.

“The Maritime Affairs and Fisheries Ministry is increasingly aware of the need to generate more revenue from underwater tourism due to the country’s marine biodiversity, rather than solely depending on fishing,” Erdmann said. “But we haven’t yet calculated the value of these endemic flasher wrasse to NTT’s tourism,” he continued.

Sources

Jakarta Post

Image, Northern tip of Komodo Island: Jon Hanson/Wikipedia/Creative Commons

Abstract

Gerald R. Allen, Mark V. Erdmann and Ni Luh Astria Yusmalinda: Paracheilinus rennyae, a new species of flasherwrasse (Perciformes: Labridae) from southern Indonesia, aqua,Volume 19, Issue 4 – 25 October 2013, pp. 193-206.

The Indo-Pacific labrid fish Paracheilinus rennyae is described from four male specimens, 52.2-60.4 mm SL, collected in 15-21 m depth off southwestern Flores Island in the Lesser Sunda island chain of Indonesia. It is distinguished from most congeners by the lack of filamentous extensions of the dorsal fin rays in males and a rounded caudal fin margin, a combination of features shared only by P. octotaenia (Red Sea). It differs from the Red Sea species in having 13-14 rakers (vs. 16-18) on the first gill arch and several colour pattern differences. Genetic analysis (CO1) indicates it is closely related to P. angulatus from the Philippines and northern Borneo (Brunei, Sabah, and Kalimantan), but the two species exhibit marked differences in the shape of the median fins.

New Anthias Discovered in Coral Sea

03 Oct, 2013

Quality Marine Collector Brings Up New Deepwater Anthias

Images by Eli Fleishsauer / Quality Marine

A dazzling new species of anthias has been discovered by aquarium fish collectors working for Quality Marine in remote New Caledonia, and rare fish enthusiasts are eagerly awaiting its arrival in the aquarium trade in North America.

According to Eli Fleishauer of Los Angeles-based Quality Marine (QM), “When we first received these fish, we were unable to conclusively identify them as any of the known Anthias species, and we reached out to several renowned scientists for their opinion. Credit for first spotting the fish goes to legendary marine livestock collector Tony Hahacky. The first specimens were caught by Antoine Teitelbaum, who collects fish exclusively for  QM in New Caledonia, an archipelago of French islands in the Coral Sea, about 750 miles (1,200 km) east of Australia.

“Antoine and Tony reached out to a number of ichthyologists, and scientists at the Bishop Museum in Honolulu confirmed our suspicion that this is indeed a new species. It is in the process of being described and named for the scientific community.”

This is a deepwater species, found in large schools, the QM collectors have reported.

“Like other anthias, they are planktivores, primarily eating suspended zooplankton and other meaty foods in the currents,” says Eli. “Early population estimates show that schools are made up of half females and half males.

“Males are generally more brilliantly colored, and have a dorsal spine (3rd spine) that extends far beyond the dorsal fin.  As a new species, which is possibly endemic to that island chain, they have never been seen before in the marine aquarium trade.

“The fish has not yet been assigned a scientific name,” Eli continues. ” However, we have talked with Antoine about a common name, and he is using “New Caledonia Sunrise Anthias.”

“We think it is a fitting name for this gorgeous animal, and we are following suit.”

Captive Care

Eli says that the species may do very well in reef aquariums. “We are holding these fish in two large schools, in which we are seeing little to no aggressive behavior outside of the normal bossing that goes on between dominant males and females.  As a species, they seem to be less aggressive than many of the other Anthias this size.

“Because of our success in keeping larger groups, they will likely be held like this in the future, and should be held in at least small groups (pairs, harems, etc) in the store display and home aquariums.”

Quality Marine says that the new anthias  immediately took Nutramar OVA, which is composed of frozen prawn eggs at a diameter of about 1/16th of an inch (1.6 mm) . ”It took them settling in for a day or so before we got them to accept a wider variety of meaty foods,” says Eli.  ”We are feeding them Gamma Mysis, enriched brine, krill, chopped prawn and other finely diced meaty foods.”

Owing to the challenges, expense and risks of deep-water collecting, the New Caledonia Sunrise Anthias is not expected to be widely available and will likely command a premium price as the first imports reach the marketplace.

Short Supply Chain

Quality Marine has an ongoing initiative to promote Short Supply Chains (SSC) in the marine livestock trade. “These are something we are very proud of here at Quality Marine,” says Chris Buerner, QM president.  ”Basically it boils down to us supporting the most sustainably harvested and managed collection sites and sourcing animals from collector groups rather than middlemen wherever possible.”  The collector supplying these new Anthias works exclusively under contract for QM.

“This philosophy helps to reduce transit times to a matter of hours or days, rather than weeks,” Buerner explains.  ”Shorter supply chains and fewer middlemen eliminate inconsistent levels of care, reduce stress in animals, increase survivability and decrease pressure on marine habitats.

“In terms of our customers ordering from us, when they see our SSC terminology, they can be assured that the animals they are ordering come to us from our shortest supply chains, reaching the point of export from the point of collection within 24 hours.”

Read more about SSC here: http://www.qualitymarine.com/About/Short-Supply-Chain

Quality Marine
5420 W. 104th Street
Los Angeles, CA 90045

Google Maps | Yahoo! Maps | MapQuest

Telephone:
(310) 645-1107
(800) 565-1942

FB: www.facebook.com/QualityMarine

SOURCE

From materials released by Quality Marine, 10/3/2013. All images by Eli Fleishauer Copyright © 2013 Quality Marine.

See You at MACNA South Florida

27 Aug, 2013

CORAL is heading to Hollywood….

Make that Hollywood, Florida, the site of the Marine Aquarium Conference of North America 2013, between Miami and Ft. Lauderdale on the Atlantic shore.

We can be found at Booth 507 (with Boyd Enterprises and the Coral Restoration Society) and across the aisle at Booth 407 with Two Little Fishies, who will be selling the Banggai Cardinalfish book, making its first appearance at MACNA.

These booths are at the entrance to the raffle area (and next to the expected hubbub at the Reef Geek booth, where the stars of the Animal Planet hit seriesTanked! Wayde King and Brett Raymer will again be holding court).

Find the booths and ask for the free collectible 2013 buttons for CORAL, the BANGGAI Book, and AMAZONAS.

More Information

MACNA 2013
BANGGAI CARDINALFISH Book
Two Little Fishies

New Echinophyllia Stony Coral Species Found

31 Jul, 2013

Difficult to identify but often dazzlingly beautiful, Chalice corals are much-appreciate by many reef aquarists. Now a new species of this small genus of shallow-water Indo-Pacific stony corals has just been added to the roster of eight previously known Echinophyllia species. The new coral is described in a paper by Francesca Benzoni from the University of Milano-Bicocca, Italy, and published in the journal ZooKeys on July 24, 2013.

Known as Echinophyllia tarae, the coral is reported to resemble E. echinata, well-known in the aquarium trade, as well as E. nishihirai, in living specimens. Skeletal analysis, however, reveals that the new species has a distinctive central corallite, as seen in the image above (right of center).

The author, says that many specimens were observed in the remote Gambier Archipelago apparently recovering from “partial death” caused by temporary burial in sediments. The green colony above, she says in the paper, shows “a concave colony with a large central corallite showing a peripheral rim of skeleton encrusted by pink coralline algae and surrounded by zoanthids and corallimorpharians at Mangareva Island. Echinophyllia tarae sp. n. is most commonly found at sheltered sites characterized by calm water conditions and muddy sediment which could be stirred up and deposit on benthic organisms suffocating them (Erftemeijer etal. 2012).”

Says the author: “The species is characterized by a high intraspecific variation of several morphologicaltraits. It also shows typical features that distinguish it from the otherEchinophyllia species and from Echinomorpha nishihirai, such as the dimensions and the protrusion of the largest corallite (centrally located in flat colonies), the thickness of the septa, and the development of the crown of paliform lobes. Although the new species is common in the Gambier Islands, its occurrence elsewhere is unknown. The sampling of coral tissue from the type specimens of E. tarae sp. n. will allow molecular analyses in order to examine its phylogenetic relationships with its congeners and other species in the Lobophylliidae.”

The new species was discovered during the 2011 Tara Oceans Scientific Expedition with MV Tara, the first new study of cnidarians in the Gambier Islands since the mid-1970s.

Sources

Echinophyllia tarae sp. n. (Cnidaria, Anthozoa, Scleractinia), a new reef coral species from the Gambier Islands, French Polynesia
Francesca Benzoni
ZooKeys 318: 59–79 (2013)
doi: 10.3897/zookeys.318.5351
www.zookeys.org

The Classroom Ocean – Club Impacts Far and Wide

01 Jul, 2013

Online supplemental content for The Classroom Ocean, by Nate Wilson, published in theJuly/August 2013 Issue of CORAL Magazine.
Supplemental #1 | Supplemental #2

The Reef Conservation Society’s Tanks for Schools program was featured in the July/August 2013 issue of CORAL Magazine. This program was started at Williamsport High School under the leadership of Lawrence Flint, a Physics and Chemistry teacher at Williamsport as well as the Vice President of Education for the Reef Conservation Society. In a prior installment, we visited the Walnut Street Christian School in Avis, PA.

Another teacher who involved in the Tanks in Schools program is Dwayne Kalinay. Kalinay teaches 124 seventh graders at Lake Lehman Jr. Sr. High School outside of Lehman, PA. His classroom resembles a small zoo. Aside from maintaining three reef tanks the class also raises and breeds African Cichlids, as well as keeping Snapping Turtles, Red Slider turtles, Anoles, Bearded Dragons, and millipedes in a host of tanks throughout the room.

As a second year teacher working in another district, Kalinay started his own classroom tank. He quickly realized how expensive it was. “I must have spent my first year salary on things for the class room. But it really helps to have things like this,” He gestures around the classroom, “to keep the kids interested.” When Kalinay started working at Lake Lehman he found out about RCS and the Tanks in School program.

The reefs in his classroom took off from there because of the additional knowledge and support available from the club. Every year since then Kalinay has added a new tank. “We started with the 90 gallon and then plumbed that together with the 110. Last summer we added the 65-gallon.” Both Kalinay and Larry are proud of the 65 because it has zero impact on the wild reefs and was set up like the tank at Walnut St; mined rock seeded in the Williamsport systems, fragged coral and a pair of tank raised clown fish.

The tanks at Lehman are very popular with the students and are used not just by Kalinay’s biology classes but also by other science, art, and life skills classes. Because of the tanks and his class being extremely interactive Kalinay’s room is often used for student and parent orientations. It has also become a popular stop on most school visits.

Like the reef tanks in other schools supported by the club, Kalinay’s aquariums are an excellent teaching resource. A reef tank can be used to teach many science concepts such as interaction, relationships, biotic and abiotic factors, parasitism, symbiosis, and adaptation. Students discuss and learn about why reef creatures are often more brightly colored than freshwater fishes and invertebrates. “Not all these elements are part of what needs to be taught in seventh grade science. But,” Kalinay says, “they can be taught and help the students to better understand how the ecosystem in a reef tank functions.”

Being able to teach students a skill through a hands on experience is often more engaging then a worksheet or an exercise that appears to exist ‘just because’. Kalinay explains it this way. “ As a kid what would you rather do measure a line in the hallway or measure a glass box with star fish and clown fish swimming along the side? With a tank I can have the students measure it and then calculate volume. It’s a real world application and the more hands on stuff you can do the more it mixes things up for them and keeps them interested in learning.You have to remember that 7th graders are 12 years old.”

Like Larry Flint, Kalinay is also hands on. The LEDs over the 65-gallon tank were put together by students in his class. “It is just another example of real-world learning; they are 12 and 13 years old and they have built a lighting fixture. With the tanks we can talk about all kinds of stuff and they now have a place to draw experience from. It’s practical learning, not just picking from choices A-E. “

By taking care of the reef tanks the students also learn to appreciate wild reefs. They see how small things have big impacts. Kalinay says that he is surprised how invested kids become in the tank.

“When something goes wrong they react to it. One year I had a fish die and there were kids who cried about it. They had watched it and fed it all year and it upset them. Sometimes you have pieces of coral that start to lighten up and bleach. They get upset. It shows that they care about whats happening in the tank and that they know what bleaching is. That is something they can read about in a newspaper article and now they understand from experience. It’s tremendous that they know about it is because they learned it here with the tanks. We try to figure out what happened and they see how a small change in something like alkalinity or pH affects the whole system.”

Kalinay’s honors students learn how to frag coral using bone cutters to cut pieces from a larger colony. They then super glue each frag onto rubble rock or ceramic plugs. Students will grow the frags out in a 40 gallon tank located in the supply closet. They measure growth to practice their metrics skills and use iPads to take photos and document the changes from week to week. Careers in science are also touched upon by studying the classroom reefs. Kalinay has the kids read an article about coral farming and restoration in Florida, and then ties it in with what they are doing in the frag tank.

“They learn about conservation and sustainability by fragging the coral that we have here. We know from reading about the coral farming and restoration that we can rebuild a reef. By exposing students to a captive reef, something that they really don’t get to see here in Pennsylvania, they learn to value wild ones. If they value it they are more likely realize that we should try and preserve them.”

By fragging coral and selling it to local hobbyists and pet shops, Kalinay is also able to show his students that keeping a reef can be sustainable. Money from sales of coral goes back into the class room systems. Raising the frags becomes more than just a teaching tool showing how an organism propagates asexually, or how to measure its growth. Students gain the realization that what they are doing helps maintain their own classroom reef . Kalinay states, “The kids see that what we do is important to our own reef. We take the frags we make here and we sell them. The money goes back into our tanks to keep them supplied. I have used the money for things like more coral cutters in the past and now I am saving to upgrade the 90 and the 110 with LED lighting. On the other side of it the people who buy the coral get a piece that didn’t come out of the oceans. “

When asked how much the kids help with the tanks outside of class, Kalinay says that there are four or five past students that take time out of their lunch or study halls to come down and help out. “Aside from the initial set-ups or moving around rock I don’t really touch the tanks anymore. The students do everything; testing, dosing, feeding and cleaning the glass. After three years we have it down to an exact science. I don’t have to come in and check after the weekend to make sure everything is still alive. It’s a good feeling”

Next year Kalinay plans on expanding his setup even further. “I am looking to add a 75-gallon tank. My plan is to have it viewable from all sides. Then I want to rearrange the tanks I have now. The 110 is going to be a predator tank so that the kids can see a different aspect of life on the reef.”

Having the club provide support is invaluable to Kalinay and other teachers involved in the program. In an era, where public education budgets have been decimated across Pennsylvania and the country, Kalinay is happy to point this out. “I know that I will be able to get the rock and the initial livestock for the next tank from Larry. The club really makes this sustainable. It’s not doable on this scale otherwise. The way that Larry has it set up is great. They have provided me with the past three years’ worth of supplies, coral, clownfish, rock, and frags. They donated the tanks. Each year I get money for supplies like food, dosing chemicals, etc. They give us salt from Reef Crystals and they have no restrictions about who I buy my supplies from. They are very trusting. I send them pictures every few months as a show of good faith that I am taking care of things. Larry comes down like once a year to see how things are. If I want help setting up a tank or have questions I know that he (Larry) is there.”

“If I want help setting up a tank or have questions I know that he is there. “ That statement sums up what Larry Flint and the club are doing. Landlocked in Pennsylvania, Flint and the Reef Conservation Society are working to save the wild reefs by being there, doing what they can; building awareness and appreciation one school tank at a time.

The Reef Conservation Society continually seeks to build relationships with new school sites and interested partners. You can view more about the club’s Tanks in Schools program atwww.ReefConservationSociety.org .

Set to launch at the Marine Aquarium Conference of North America (MACNA 2013) in South Florida, The Banggai Cardinalfish book represents almost two years’ of work and the involvement of hundreds of saltwater aquarists, marine biologists, aquarium industry leaders, and many conservation-minded supporters.

For a preview of the book, see this video by Matt Pedersen that runs through the entire 304 pages in about a minute and shows the scope of the international Banggai Rescue Project.

The book will be distributed by Julian Sprung and Two Little Fishies in partnership with Reef to Rainforest Media, publishers of CORAL and AMAZONAS Magazines.

“This book should make us all proud to be marine aquarists,” says Editor & Publisher James Lawrence. “The marine aquarium community has rallied to respond to a situation in which a uniquely beautiful and fascinating fish has been threatened by unregulated collection in a remote archipelago in Indonesia. We have unwittingly been part of the problem, but now we can feel that we are part of the solution.”

“Perhaps the most important outcome of the Project so far has been the collaboration between our science team and their counterparts in Indonesia who are working to reform the Banggai Cardinal fishery while supporting the livelihoods of indigenous fishers in their own waters.”

Book Credits::

Ret Talbot • Matt Pedersen • Matthew L. Wittenrich, Ph.D.

Foreword by Dr. Gerald R. Allen

with Martin A. Moe, Jr., Roy Yanong, V.M.D., and Thomas Waltzek, D.V.M., Ph.D.

Publishing Team:

Edited by James M. Lawrence

Designed by Linda Provost

Production: Anne Linton Elston

Copyediting: Louise Watson, Alex Bunten

Business Manager: Judith R. Billard

Project Corporate Sponsors

Books will be available at MACNA, August 30 to September 1 at the Two Little Fishies booth.

Announcements coming soon about how to order the book.

Source: Banggai-Rescue.com

The First Lightning Maroon Captive-Breds: What Am I Bid?

21 Jun, 2013

Three years after a strikingly pigmented aberrant morph of Premnas biculeatus was collected off Fisherman’s Island in Papua New Guinea (PNG) and quickly made headlines throughout the aquarium world, the first captive-bred Lightning-type offspring are about to reach the open market via an online auction.

Dubbed the PNG Lightning Maroon Clownfish, the prize catch was imported by Dave Palmer’s Pacific Aqua Farms in Los Angeles and placed with amateur breeder Matt Pedersen through its retail affiliate Blue Zoo Aquatics.  Pedersen was the MASNA Aquarist of the Year in 2009, in recognition of his breakthrough success in acclimating and breeding the Harlequin Filefish,Oxymonacanthus longirostris, an obligate corallivore. (Full disclosure, Pedersen is a CORAL Magazine senior editor.)

An online auction is set to begin sometime on the weekend beginning June 22nd of a limited number of young Lightning Maroons, as well as several full siblings that display white bars but none of the distinctive dappling of the original wild broodstock. Pedersen says that the first round of bidding will include “five F1 offspring: two with the “Lightning” pattern (and presumably Lightning genetics) and three non-Lightnings with more classic “White Stripe” patterning, the normal 3-stripe form, although one fish in particular has some additional spotting.  (Images of all fish are being posted on the Lightning Maroon blogsite.)

According to Blue Zoo Aquatics director Mark Martin, “These F1 PNG beauties are the only available PNG bloodline Maroon Clownfish left on the market AND they are the first Lightning patterned clownfish to hit the market since Mama Lightning was imported and sold to Matt almost three years ago. The auctions will be open to anybody with an eBay account in the US and the first shipments to the lucky winners will hit around the first week of July.”

Details of the auction can be found on the Blue Zoo site. Martin invites interested aquarists to sign up for newsletter updates. More details on the breeding of the fish can be found on Matt Pedersen’s blog, The Lightning Project.

Breeding Considerations

“Since we don’t know how Lightning genetics work,” says Pedersen, “I cannot say whether the regularly patterned siblings carry an important Lightning genetic component (like a hidden recessive gene) or not.  It is my hunch, however, that the Lightning trait is either a dominant or partially dominant trait, although with the 50/50 split (Lightnings to “Classic Maroons”) in the first generation offspring, the possibility of a recessive trait is there.

Future Stock Available?

Will more be coming? “If things go well with the initial five being auctioned by Blue Zoo, there are approximately 25 additional siblings that we’ll sell in this manner,” says Pedersen.

His Lightning broodstock are on hiatus right now, following the recent birth of Matt and Renee Pedersen’s second child, a daughter named Audrey.

Micro Reef Builders in Their Final Century?

05 Jun, 2013

Most are smaller than a pinhead and are largely unseen by humans who don’t have a magnifying lens in hand, but foraminiferans or “forams” are found in countless numbers on the world’s reefs, often forming part of the matrix of sandy substrate that can fuse into hard areas of calcium carbonate.

Amoeba-like organisms that typically secrete a calcium test or shell to protect their soft bodies, forams are estimated to generate some 43 million tons of reef carbonates each year. Their appearance varies tremendously over an estimated 275,000 species, most all marine bottomdwellers that measure less than 1 mm in diameter. Some species grow larger, including the Red Tree Foram, Holotrema rubrum, which can hitchhike into reef aquaria on live rock (Shimek, 2004).

“Forams–or foraminifera –are much like an amoeba with a shell,” explains Dr. Sven Uthicke, lead author of a study which was published in May in the journal Scientific Reports, an online journal of Nature. “As CO2 levels increase, our oceans will become more acidic, making it more difficult for these small marine creatures to form the shells they need to survive.

“These simple organisms are vulnerable to increasing ocean acidification as they lack the complexity and energy reserves of other skeleton-based marine creatures, like corals and sea urchins,” says Uthicke.

Volcanic Vents in New Guinea Provide Clues

“We conducted a study in Papua New Guinea, where subsurface volcanic activity has caused naturally-occurring CO2 to continuously bubble up from the seabed. These “CO2 seeps” have created localised changes to seawater acidity similar to those expected throughout the world’s oceans by the end of this century if CO2 emissions continue unabated.

“These seeps provide important clues to what the marine world might look like in the future,” he says.

“Our analysis of samples collected more than half a kilometre from these seeps revealed healthy and diverse communities of forams, similar to those you would find on the Great Barrier Reef. However, the samples we took closer to the seeps, where CO2 concentrations were higher, showed a very different picture.

“In the high CO2 conditions closer to the seeps, the water was more acidic, and disturbingly the number and diversity of forams was significant lower. We also observed intermediate effects of acidification on forams such as corroded or ‘pitted’ shells.

“Of most concern, not one single species of foram was found in samples drawn from locations where conditions had already reached acidification levels predicted for our oceans by 2100 in all but the most optimistic emissions scenario.”

Mass Extinction Echos

The results echo mass extinctions of marine organisms that occurred millions of years ago, when the Earth experienced significant increases in CO2, temperature or both. Although some forams were able to survive during these past events, the current rate of CO2 increase is much faster than anything seen before.

“In previous studies at these seeps we looked at the response of other organisms, such as corals – we found similar if less dramatic results – many coral species were unable to grow in these increasingly acidic conditions,” says Dr. Katharina Fabricius, a co-author of the present study.

“In the grand scheme of things, the small and simple nature of forams might make them seem fairly unimportant compared to say, corals,” Dr. Fabricius continued.

“However, foram shells account for up to 40% of the composition of some cays and sandy sea beds of coral reefs – and these habitats are home to a significant number of coral reef species such as seabirds and turtles.

“Of course the long-term implications of any disappearance of forams from the reef are not certain and will require further investigation, but these findings do add to concerns regarding the health resilience of coral reefs if ocean acidification progresses as predicted under current CO2 emission scenarios.

SOURCES

From materials released by the Australian Institute of Marine Science, AIMS.

The paper “High risk of extinction of benthic foraminifera in this century due to ocean acidification” by S. Uthicke, P. Momigliano and K. E. Fabricius appears in the Nature Publishing journal Scientific Reports. (http://www.nature.com/srep/2013/130503/srep01769/full/srep01769.html)

Can unusual suspects reform the aquarium livestock trade?

09 May, 2013

Opinion
By Ret Talbot

Excerpt from CORAL, May/June 2013

I was having a conversation last night with a person who knows his way around the marine aquarium livestock trade and hobby. We were discussing the future of both trade and hobby in light of the increasing number of potential restrictions to keeping fishes and other marine animals. Any of these—the current NOAA proposal to list 66 species of coral under the Endangered Species Act or the Invasive Fish and Wildlife Prevention Act, recently reintroduced in the U.S. Congress, for example—could end the aquarium trade as we know it.

So could recent, well-funded efforts by, amongst others, the Environmental Defense Fund and the Defenders of Wildlife. I suppose the stunned outrage and anger with which some aquarists have responded to these threats—real and perceived—on social media and in online forums is understandable, but should we really be stunned or outraged?

While there are plenty of solid arguments against many of the anti-trade initiatives that seem to keep popping up like Xenia in a reef tank, the fact of the matter is that aquarists may well be better served by focusing our efforts inward on the aquarium livestock trade itself.

After all, the trade has made itself a viable target for anti-trade activists. Let us not forget recent import data shows the aquarium trade still depends primarily on countries where destructive and illegal fishing techniques are the norm rather than the exception (think cyanide use in Indonesia and the Philippines). Let us not forget that smuggling of species remains commonplace (think illegal wild Banggai Cardinalfish exported from Indonesia or Clipperton Angelfish coming into California). Let us not forget that carelessness and ignorance have led to invasive species introductions that have had significant ecosystem impacts (think Volitans Lionfish in the Caribbean and Caulerpa introductions in Europe and the U.S.).

Many important voices have advocated for trade reform over the past two decades, and many positive steps have been taken in the right direction. Nonetheless, none of these efforts have resulted in the type of systemic change required to remove—or at least reduce in size—the bullseye from the back of the aquarium trade. Why is this? Does the trade lack the will? The resources? The imagination? The incentive? Whatever the reason, as my colleague with whom I was having this conversation pointed out, “The same approaches from the same people haven’t worked in 20 years.”

Maybe it’s time to look to some unusual suspects as the drivers of change.

Game Changers?

An important paper was published about a year ago in the journal Zoo Biology that suggests a new group of players may be the ones to effect real change in the aquarium trade. Titled “Opportunities for Public Aquariums to Increase the Sustainability of the Aquatic Animal Trade” (Tlusty et al., 2012), the paper contains an intrinsic premise: the aquatic animal trade is currently deficient when it comes to sustainability.

More important, however, the paper points out that it doesn’t have to be, and public aquariums have an opportunity to play an important leadership role in transforming the trade from a threat to a positive force for aquatic conservation. While there are other entities that also have the opportunity to play a significant role in reforming trade, I’d like to take a moment here to explore the potential role of public aquariums.

Public aquariums have always had an uneasy relationship with the aquarium hobby. While many curators at public aquariums are home aquarists themselves—and although many of the researchers on staff will credit their passion for all things aquatic to keeping a fish tank as a kid—the overall institutional sentiment has too often been “it’s probably best if you leave it to the professionals.” After all, the aquarium hobby and the trade that supplies it with animals have been responsible for all manner of all-too-public mishaps and missteps that make the institutions—the professionals—want to distance themselves from the “hobbyists.” Gone, some say, are the glory days of late-nineteenth-century amateur scientists seriously engaged with professional scientists in the parlors and conservatories of Victorian homes.

As the Zoo Biology paper shows, public aquariums, however, cannot quite so easily distance themselves from home aquarists and the aquarium trade that supplies both with live animals. Public aquariums have a complex relationship with home aquarists and the livestock trade whether they want to acknowledge it or not. The reality is that aquarists visit public aquariums in significant numbers, and visitors to public aquariums are more likely to begin keeping fishes and other aquatic organisms at home than the general public. Put another way, the authors of the paper present data showing public aquariums make new home aquarists. In addition, public aquariums often rely on the same trade networks of collectors and importers as do home aquarists. While some public aquariums mount their own collecting expeditions, almost all rely to a greater or lesser extent on the same importers who supply the animals in our home aquariums.

The necessary conclusion of this analysis is that, if the aquarium trade is deficient when it comes to sustainability, then public aquariums are complicit in that deficiency. To be fair, this complicity is offset at the best public aquariums through messaging about conservation and educational initiatives, but the fundamental truth remains that as long as the aquarium trade exists, public aquariums, either directly or indirectly, will play a significant role in supporting that trade by creating new home aquarists, encouraging existing aquarists, and directly acquiring animals through established trade networks. It follows that public aquariums, given this overlap with the aquarium trade, should increasingly be incentivized to take an active role in effecting trade reform, and this should be very good news for the home aquarist.

Not Reinventing the Wheel

Public aquariums, unlike many of the people and organizations that have attempted trade reform over the past two decades, have resources and expertise giving them a very good chance of actually effecting positive systemic change. Unlike the “same approaches from the same people,” public aquariums are in a unique position to improve the sustainability ethos in the trade.

Take, for example, the role public aquariums have adopted when it comes to sustainable seafood (and let’s recall that the seafood trade didn’t make a move until that trade was threatened). In a little over a decade, some public aquariums (such as Monterey Bay Aquarium and New England Aquarium) have, in essence, become non-governmental environmental organizations that have played a leading role in promoting sustainable fisheries and environmental stewardship. They have provided invaluable technical knowledge to the seafood industry through their own research initiatives. They have launched educational initiatives within their institutions that have put the topic of sustainable seafood on the front page and above the fold, and they have taken that message to the general public through a bevy of outreach programs.

What if public aquariums did the same for the aquarium trade? As the Zoo Biology paper points out, “…given that public aquariums exist to exhibit aquatic organisms for educational purposes, it is ironic that fish species destined for the plate currently have more sustainability efforts directed at them than do live fishes kept by private aquarists and public aquariums.” Is it too much to argue that the seafood industry’s past could be the aquarium trade’s future?

There are many other strengths beyond public aquariums’ engagement in sustainable seafood that could easily be applied to promoting a sustainable marine aquarium trade. Public aquariums, for example, are already educational leaders and have become trusted sources for important conservation messaging on a whole host of environmental concerns from global climate change to conservation of habitat. Think of the ways public aquariums could leverage this educational strength toward developing and teaching best practices for the aquarium trade and informing the public about the risks and benefits associated with aquarium keeping. Through already established social pathways, public aquariums are in a unique position to help educate aquarists about sustainable options for purchasing fishes and other aquatic organisms, and they can be instrumental in creating market-based initiatives linking sustainable aquarium fisheries to retail outlets.

As respected leaders in sustainability and conservation, public aquariums can accomplish a lot simply by actively supporting sustainable (or, in some cases, withdrawing support from unsustainable) initiatives in the trade. Whether these are specific fisheries, trade routes, wholesalers, or retailers, the support of public aquariums can give credence and bring attention to those elements of the trade that are “doing it right.” Conversely, as trusted thought leaders, public aquariums can marginalize those elements of the trade that are not achieving or at least moving toward sustainability. Likewise, staff researchers at public aquariums are in a unique position to provide much-needed impartial oversight and data analysis of the trade, which may lead to important public-private partnerships including, but not limited to, serving in an advisory capacity to the trade and participating in multi-stakeholder processes toward developing best practices.

Of course there are many other areas in which public aquariums can engage the trade in an effort to promote sustainability. Perhaps the most public of these has been the role public aquariums have played in valuable research that can have a direct impact on the trade. For example, through the well-known Rising Tide Initiative and similar programs rearing fishes from eggs collected at public aquariums, public aquariums are playing an active role in closing the life cycle on the captive culture of more species of marine fishes. Increasing the number of captive-bred fishes available to home aquarists—especially beginning aquarists—is a critical effort when it comes to sustainability.  This is, however, a double-edged sword, as too often captive-bred animals are held up as the gold standard of a sustainable aquarium trade. The much more complex story—and one public aquariums are well positioned to tell—is that continuing to support sustainable wild fisheries in addition to increasing captive breeding can provide invaluable economic incentive to conserve aquatic ecosystems.

Is it a mandate for public aquariums to reform an aquarium trade that is viewed by many as a threat to aquatic conservation? Of course not, but as the Zoo Biology paper makes clear, public aquariums do have an opportunity here, and engaging in that opportunity does make good sense from an economic and environmental standpoint. While it may not be public aquariums’ responsibility to reform the trade, it should be acknowledged that their failure to act would perpetuate the status quo and potentially even allow the situation to become worse. Conversely, an approach similar to that which aquariums took with seafood a decade ago has the power to effect real change and empower a consumer-driven conservation initiative that will benefit species, habitat, and people.

Sea Change

As my colleague remarked last night, “The same approaches from the same people haven’t worked in 20 years.” What has worked, however, are anti-trade activists’ campaigns to end the marine aquarium trade (consider the mounting efforts to ban livestock collection in Hawaii). Isn’t it time aquarists stopped adopting the victim mentality in the face of these threats to the aquarium hobby? Isn’t it time aquarists supported real and substantive reform?

Before criticizing those who are criticizing the trade, aquarists would be wise to do some introspection and decide on which side of history they want the trade to fall. Will the aquarium trade and hobby be viewed as a force for good? Will aquarists be seen as standing in the trenches on the front line of ocean conservation? Or will the aquarium trade be seen as little more than wildlife trafficking with a “get it while you can” mentality?

As someone who has covered sustainability issues in the aquarium trade for several years now, I believe the necessary trade reform is going to be driven by some new players—entities that have the incentive, resources, and imagination to achieve what others have been unable or unwilling to achieve. As discussed above, public aquariums and, by extension, the American Association of Zoos and Aquariums (AZA) and the World Association of Zoos and Aquariums (WAZA) will play a leading role in positive reform, but so will others.

Home aquarists and many in the trade have not traditionally embraced many of these “new” players. In fact, some would be hard pressed to even identify them as players, but their efforts and engagement in the issues that will make or break the aquarium trade have already proven they are the ones with the incentive, the resources, and the will to make a change. Expect, along with public aquariums, to see the Petcos and Disneys and Sea Worlds of the world define the agenda in the coming months. Expect the Pet Industry Joint Advisory Council (PIJAC) to engage on behalf of, and in conjunction with, these entities. Aquarists and individuals involved with the trade have a choice here—will the likes of public aquariums, Petco, Disney, and Sea World be embraced or shunned? Will aquarists become fractured and segmented over petty arguments about who really knows best and what the best path forward ought to be, or will aquarists support these emerging thought leaders and enter into a constructive dialogue with them? Will those in the trade expand their relationships with these players and actively collaborate to increase the sustainability of the trade, or will they insist on a business-as-usual approach that will only push the trade closer to the abyss?

The marine aquarium hobby and livestock trade is at a crossroads. It finds itself at the intersection of outdated models and new approaches, resistance to change and openness to new possibilities. Society is becoming “greener,” and while some of that is no doubt little more than greenwashing, there are real steps being taken toward a more sustainable future.

A growing number of consumers are not only familiar with sustainability—they are now demanding it. Corporate responsibility initiatives, often born of enlightened self-interest, are on the rise. The aquarium trade can and should be part of this. What if, for example, we could hold the aquarium livestock trade accountable by walking into the local fish store and knowing which fishes were collected with cyanide in the same way DNA testing can insure accountability for the seafood industry?

The aquarium industry is going to change; the only question that remains is who will be responsible for that change. Will it be a change from within, driven by those of us who understand the trade, or will it come from anti-trade activists and Draconian measures levied by those who know little about the real impacts and educational rewards of keeping an aquarium? It’s not difficult to imagine that we are on the brink of an important sea change, and I, for one, embrace this new direction.

References

Tlusty, M.F., A.L. Rhyne, L. Kaufman, M. Hutchins, G.M. Reid, C, Andrews, P. Boyle, J. Hemdal, F. McGilvray, and S. Dowd. 2013. Opportunities for public aquariums to increase the sustainability of the aquatic animal trade. Zoo Biol 32 (1): 1–12. doi: 10.1002/zoo.21019. Epub 2012 May 1.