Archives for posts with tag: Florida
Newer Entries »

Grouper Diving for Science

September 4, 2013 //
3

The Goliath groupers are on their honeymoon. As a diver, you can use your dive time to do science and actively contribute to the conservation of these gentle giants. All you need to do is count fish. Here’s how.

GOLIATH GROUPER BASICS

Goliath groupers are critically endangered throughout their tropical and subtropical Atlantic ocean distribution. In the United States, a federal and state moratorium on harvest implemented in 1990 has allowed a slow path towards recovery from near extinction. Diving in Florida will allow you to see Goliath groupers during the most spectacular time of the year: spawning season.

Every year, from mid August to early October, Goliath groupers travel from around the state of Florida to congregate at a few sites along the Florida coastline (from north of Miami to the Jupiter area) for the purpose of breeding. These congregations are spawning aggregations. The peak spawning season is September. Goliaths remain for several weeks at the spawning aggregation sites checking each other out, and seeking potential mates with an elaborate courtship. Spawning occurs either at the full moon or the new moon (scientist are still looking into this).

BECOMING A SCIENCE DIVER

You can dive for science if you know how to count fish and you can tell apart a light color fish from a dark color fish.

How to count fish like a scientist.

As you start your dive, count Goliath groupers every 10 minutes. You will count all the Goliaths around you, in a 360 degree field of view. To do so, you turn slowly around on yourself, like a little planet Earth rotating on its axis, counting as you turn, until you reach your starting point. You already learned to count numbers in kindergarden, so I will not elaborate any further. Why is this important? Because knowing how many fish you see at each dive site helps scientists like me to evaluate the health of the population

How to count colorful fish like a scientist.

As males and females seek each other out and engage in courtship they change their “color”, or in this species, their color “tone” from light to dark. There are 4 color phases (check out the photo below)

Normal (N) – typical brown blotches you see year round

Light (L) – The fish body is all white or very light

Dark (D) – the fish body is all black or very dark

Bicolor (B) – The fish has a white head and a dark body

Goliath groupers and their color phases. Photo Credit: Mike Phelan, Alang Chung

Goliath groupers and their color phases. Photo Credit: Mike Phelan, Alang Chung

Each color phase has an “assigned sex”, this means, scientists suspect what sex belongs to each color phase, but the groupers are not willing to provide a sample of their eggs or sperm as they pass by the unsuspecting scientific diver. For now, we think the Normals are males or females not engaged in courtship. Once the Goliaths engage in courtship, the Lights are females, the Darks are males, and the Bicolors are dominant males.

To count the number of Goliath grouper in each color phase, after your first count, you will do another 360 rotation around yourself, this time you are counting how many groupers in each color phase you see. It’s easier to look for the Lights, Darks and Bicolors as they stand out. Everything else will be Normals.  Why is this important? Because knowing how many Goliath groupers are in each color phase helps scientists like me to quantify how active is the spawning aggregation.

How to enter data like a scientist

1 – Bring a dive slate with you, with a pencil. The slate can be any size comfortable to you

2- On the top of the dive slate write DATE, TIME IN , DIVE SITE. You fill in that information after you complete the dive

3- As a reminder to yourself, under the date, time in and dive site lines, write down the color phases and their abbreviations,

N = Normal, L = Light, D = Dark, B = Bicolor

4 – Dive, dive, dive. Every 10 minutes count the number of Goliaths (your first 360 rotation) then count the number in each color phase (your second 360 rotation). Depending on whether you are diving air or nitrox, you will do 2 counts or 3 counts per dive.

Example:

Let’s say in your first rotation you count 10 Goliath groupers. You write down the number 10. On your second rotation you count 2 Lights, and 2 Darks (easier to see among the Normals). So right next to the 10 (your first count) you write 2 L, 2D, 6N.

WHAT TO DO WITH THE DATA YOU COLLECT

Please email me the data sfriastorres@gmail.com

If you have photos or video of Goliath groupers, and you know WHEN and WHERE you took them consider sharing them with me for the purpose of science.

You are welcome to post comments here or email me your questions/comments

Safe diving ! Please, read the diving etiquette below.

Goliath grouper etiquette.003.003

Tags , , , , ,
Categories Marine Conservation, Uncategorized

5 Goliath Grouper Myths

June 14, 2013 //
2

This year, 2013, the critically endangered Goliath grouper is once again under review by the Florida Fish and Wildlife Conservation Commission (FWC), the Gulf of Mexico Fishery Management Council, the South Atlantic Fisheries Management Council and the National Marine Fisheries Service (NMFS) . On the table, the possibility of lifting the 1990 federal and state moratorium on harvest for this fragile species.

I have provided up-to-date information in my previous posts: Guilt-free Goliath groupers and Goliath groupers under review.  Below are 5 common myths on Goliath grouper used to justify requests for lifting the current moratorium. The myths are contrasted with data obtained from scientific research done my myself and others.

Goliath groupers were fished to near extinction in the United States. Trophy fishing in the 1950s; Key West, Florida. Credit: anonymous

PAST: Goliath groupers were fished to near extinction in the United States. Trophy fishing in the 1950s; Key West, Florida. Credit: anonymous

TODAY: Goliath grouper spawning aggregation re-forming in east Florida after being fished to extinction. Credit: Walt Stearns

TODAY: Goliath grouper spawning aggregation re-forming in east Florida after being fished to extinction. Credit: Walt Stearns

Myth #1

Goliath groupers eat all the groupers, snappers and lobsters on the reef, contributing to fisheries declines.

The Science Answers: False.

In Goliath grouper, poor development of canine teeth reflects a generalized diet [1]. Analysis of stomach contents [2,3,4] reveal that diet is restricted to invertebrates, mostly shrimp and crabs, lobsters, gastropods, and poisonous or venom-spined slow-moving fish ( stingrays – Dasyatidae; cowfish – Ostraciidae; burrfish and pufferfish – Diodontidae; catfish – Ariidae). Food web dynamics based on carbon and nitrogen stable isotope analyses in goliath grouper confirm the diet preferences (invertebrates and poisonous slow moving fish) obtained through previous dentition and stomach content studies. The isotope analyses indicated a broad prey base with a relatively high trophic status [5], but not to the level of a top predatory fish as the myth explains. The most comprehensive study to date [6] demonstrates that: 1) Goliath groupers are not the cause for declining fish and lobster stocks.  Overfishing is the main cause; 2) Goliath groupers function as a top-down control on juvenile lobster predators, ensuring more lobsters reach adult size and become available to the lobster fishery; and 3) goliath groupers could provide additional ecological and socioeconomic benefits:  in ecotourism, and as potential bio-control of the invasive Indo-Pacific red lionfish Pterois volitans on Atlantic reefs.

Myth #2

Goliath grouper grow at a formidable speed to reach such a big size, so they must eat huge amounts of grouper, snappers and lobsters to grow that fast.

The Science Answers: False.

The goliath grouper diet is explained in myth #1. As for a formidable speed of growth, we must focus on the juvenile phase. Fish have indeterminate growth, which means, they keep increasing in length and weight throughout their life, unlike us and other mammals, who reach our maximum length (height in our case) at a determined adult age. During the juvenile phase (from birth until reaching sexual maturity), fish experience their fastest growth rate, which then decreases progressively throughout the rest of their life.

Goliath grouper juveniles migrate from their mangrove juvenile habitat to their adult reef habitat at about 8 years old, measuring 110 cm-120 cm in length [3]. This gives a maximum juvenile growth rate of 15 cm/year or 6 inches/year, as the maximum growth speed during the lifetime of an individual goliath grouper. This is the same speed at which our hair grows (!). Obviously not a mythical speed of growth.

Myth #3

Goliath grouper are a pest. They are everywhere.

The Science Answers: False.

This myth is a common problem of the “shifting baselines syndrome” [7], whereby fishers accept abundance and size information from more and more recent periods as baselines. Once commercial extinction occurred in the late 1980s, goliath grouper were absent in Florida reefs. Such absence became a new baseline, to the new anglers and spearfishers moving to Florida. Since the 1990 fishing moratorium, goliath grouper are in a path of recovery, slowly returning to their original distribution area. Therefore, every new grouper encountered represents a 100 % increase for someone with a zero-grouper baseline.

Site attachment, available habitat and spawning aggregation behavior [3,8, 9] also contribute to perceiving goliath grouper as a pest. Goliaths usually remain in the same site after they recruit to the reef. Hence the abundance of one single goliath grouper is multiplied by as many fishers or divers that have encountered it. Available hard bottom structure, specially in regions which lack natural reef habitat or where this habitat has been degraded, also concentrates goliath groupers, giving an artificial perception of over-abundance to the observer. Finally, spawning aggregations concentrate all the adult goliath grouper throughout the reef in one single location, compounding a false sense of overabundance to the casual observer. Only the few “old-timers” left in Florida, those that were fishing in the 1950s and 1960s, have experienced the extinction and path towards recovery of goliath grouper. Interestingly, these fishers are the most supportive of continued goliath grouper conservation.

Myth #4

Re-opening the fishery will provide a healthy food source for consumers. 

The Science Answers: False.

We must remember that goliath grouper reached commercial extinction in the late 1980s. The species is extremely vulnerable to overfishing due to its slow growth, long life (possibly exceeding four decades), late sexual maturity (up to 8 years), strong site fidelity, the formation of spawning aggregations, and being unafraid of divers (even those with spearguns) [3,8]. Even recreational fishing could be extremely damaging as it has been demonstrated for other fish species: recreational landings in the US seriously impact many of the most-valued overfished species [10].

When the fishery existed, goliath groupers were mostly targeted for trophy fishing, that is, catching the biggest fish for show and tell. When the fish meat was used, 90 % of it was ground for fertilizer use or ended up in canned food for pets (dogs and cats). There were several reports of drugs being smuggled inside the carcasses of dead goliaths, in their way to northern states. The closure of the fishery did not result in direct starvation to any US citizen.

While it is true goliath grouper are the largest grouper fish in the Atlantic ocean, and the second largest grouper fish in the world, just behind the giant grouper of the Indo-Pacific (Epinephelus lanceolatus), big size does not necessarily translate to food source. Here, we must be concerned about health risks. Since goliath grouper are a coastal species, with a prolonged juvenile phase living in mangrove habitats, they accumulate in their tissues the pollution we generate in our modern way of living, by the effect of bioaccumulation (toxins ingested with their prey). Indeed, muscle tissue in goliath grouper commonly contain methyl mercury -a toxic form of mercury which causes dangerous cardiovascular and neurological effects in humans-, often exceeding the United States governmental advisory criteria for human health [5]. Goliath grouper also die when red tides, or Harmful Algal Blooms (HABs) from the dinoflagellate algae Karenia brevis, occur. Brevetoxin (a toxin produced by the dinoflagellate) is a potent neurotoxin that causes serious illness in humans who ingest marine life containing the toxin, or if they inhale the toxin aerosols [11]. HAB-originated fish kills in which huge numbers of goliath grouper die occur during multi-species mortality events, when manatees, dolphins and seaturtles also die. It has been demonstrated that the cause of death for the marine mammals is due to the ingestion of prey which contained the brevetoxin, and by the process of bioaccumulation, enough brevetoxin accumulated in the animal’s tissues to become the cause of death [12]. Preliminary data suggest brevetoxin accumulation is also the cause of death in goliath grouper (Frias-Torres, unpublished data). Hence, consumption of goliath grouper fillets could pose an additional brevetoxin health risk for humans. Finally, studies on pesticide levels contained in goliath grouper tissue have not been completed, but it is possible they follow a similar bioaccumulation pattern than that of methylmercury and brevetoxin.

Myth #5

There are too many goliath grouper out there. We must use this resource for the benefit of the fishermen, so we have to do something about this, such as a limited recreational take, with a tag or permit system.

The Science Answers: False.

The perception of goliath grouper invading every crevice of the reef has been discussed in myth #3, and is due to the “shifting baselines syndrome” explained there.

Spearfishers and hook-and-liners wiped out the goliath grouper population in U.S. waters in the late 1980s reaching commercial extinction [3, 13]. Goliath grouper are extremely easy to catch: they are unafraid of divers, they present site attachment (remain in the same site once they recruit to the mangroves as juveniles and to the reef as adults), and all the goliaths of the State congregate once a year at a reduced number of sites to form spawning aggregations, and reproduce. It will be extremely difficult to justify the socioeconomic, management and ethical reasons for opening a limited recreational take, mainly due to the potential health risks for human consumption (explained above), the lack of “sport” in killing such a catchable species, and the potential of localized extinction events when tags or permits were used in a short time window or limited geographic range.

A live goliath grouper is more valuable than a dead one. And here relies the true benefit for fishers and other Florida taxpayers. Tourists come from all over the country, and all over the world just to scuba dive with goliath grouper. This is a tremendous source of tourist dollars for the state of Florida, not only for the diving business – each diver pays $100-$140  for a two-tank dive, depending on gear rented-, but also for the associated businesses, as the tourist-divers need to eat, sleep, and drive. Ironically, the same qualities that make goliath grouper extremely vulnerable to overfishing and extinction, also make them a great ecotourist attraction: they are huge, long-lived, unafraid of divers, remain in the same reef site, and form spawning aggregations.

Direct benefit to fishers and the state of Florida also relies on other potential ecosystem services goliath grouper provide, specially in these times of economic and environmental crisis. The invasive Indo-Pacific lionfish (Pterois volitans) is a voracious predator of juvenile reef fish and it is causing major disruptions in Atlantic reefs, in conjunction with habitat destruction and global climate change [14]. The lack of big predators able to feed and survive the poisonous spines of lionfish favors the expansion of this invader. However, the goliath grouper’s adaptation to feed on slow-moving venom-spined or skin-poisonous fish (catfish, stingrays, cowfish, burrfish, pufferfish), could potentially become our best ally to fight against such destructive invader, and perhaps successfully preserve and rebuild Florida’s reef fish communities.

Literature Cited

[1] Smith CL. 1971. A revision of the American groupers: Epinephelus and allied genera. Bulletin of the American Museum of Natural History 146, 69-241.

[2] Bullock LH, Smith GB. 1991. Seabasses (Pisces: Serranidae). Memoirs of the Hourglass Cruises 8 (2), 1-243.

[3] Sadovy Y, Eklund AM. 1999. Synopsis of biological information on the Nassau Grouper, Epinephelus striatus (Bloch 1792), and the jewfish, E. itajara (Lichtenstein 1822). NOAA Technical Report NMFS 146, Seattle, Washington. 65 pp.

[4] Koenig CC, Coleman FC. 2009. Population density, demographics, and predation effects of adult goliath grouper (Epinephelus itajara). Final Report to NOAA MARFIN for Project NA05NMF4540045.

[5] Evers DC, Graham RT, Perkins CP, Michener R. 2009. Mercury concentration in the goliath grouper (Epinephelus itajara) of Belize: and anthropological stressor. Endang. Species Res. 7:249-256. Open Access http://www.int-res.com/articles/esr2009/7/n007p249.pdf

[6] Frias Torres, S.  2013.  Should critically endangered goliath groupers, Epinephelus itajara, be culled in Florida?  Oryx 47 (1):  88-95. http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=8807528

[7] Pauly D. 1995. Anecdotes and the shifting baselines syndrome in fisheries. Trends in Ecology and Evolution 10: 430.

[8] Frias-Torres S. 2006. Habitat use by juvenile goliath grouper, Epinephelus itajara, in the Florida Keys, USA. Endangered Species Research 2: 1-6. Open Access http://www.int-res.com/articles/esr2006/2/n002p001.pdf

[9] Frias-Torres S, Barroso P, Eklund A-M, Schull J, Serafy J. 2007. Activity patterns of juvenile goliath grouper, Epinephelus itajara, in a mangrove nursery. Bulletin of Marine Science 80: 587-594.

[10] Coleman FC, Figueira WF, Ueland JS, Crowder LB. 2004. The impact of United States recreational fisheries on marine fish populations. Science 305: 1958 – 1960.

[11] Steidinger KA. 1993. Algal Toxins in Seafood and Drinking Water (ed. Falconer, I.) 1-28 , Academic Press, London.

[12] Flewelling LJ and 20 authors. 2005. Red tides and marine mammal mortalities. Nature. Vol 435: 755-756

[13] McClenachan L. 2009. Historical declines of goliath grouper (Epinephelus itajara) populations of South Florida, USA. Endang. Species Res. 7:175-181. Open Access http://www.int-res.com/articles/esr2009/7/n007p175.pdf

[14] Albins MA, Hixon MA. 2008. Invasive Indo-Pacific lionfish (Pterois volitans) reduce recruitment of Atlantic coral-reef fishes. Mar Ecol. Prog. Ser., 367:233-238.

Related articles
Tags , , , , , ,
Categories Fisheries Science, Marine Conservation

Goliath Groupers Under Review

May 6, 2013 //
2

This year, the critically endangered Goliath grouper is once again under review by the Florida Fish and Wildlife Conservation Commission (FWC). On the table, the possibility of opening killing season for this fragile species.

Learn the facts from my recent peer reviewed scientific manuscript published in Oryx, the International Journal of Conservation.

Click here for a FREE pdf download

Goliath Grouper meets Dr. Sarah Frias-Torres. Photo Credit: Steve Karm

Goliath Grouper meets Dr. Sarah Frias-Torres. Photo Credit: Steve Karm

Briefly, Goliath groupers are not to blame for declining lobster and snapper stocks in Florida, one of the main reasons behind requests to reopen the fishery.

In my paper titled “Should the Critically Endangered Goliath grouper Epinephelus itajara be culled in Florida”, I analyzed fisheries landing data since the 1950s, diver based surveys and published dietary studies. I concluded that :

1) Goliath groupers eat invertebrates (worms, molluscs and crustaceans) and poisonous fish, not snappers and other groupers. Surprisingly, many of the prey consumed by goliath groupers are in turn predators of juvenile spiny lobster. Hence, goliath groupers are a fishers’ best friend, because through top-down predator control, goliaths could allow more juvenile lobsters to grow and become available to fishers.

2) The slow recovery of the Goliath grouper population in Florida is not the cause for declining lobster and snapper stocks in Florida. Instead, overfishing is the main cause.

3) A thriving Goliath grouper population could provide additional socio-economic benefits in ecotourism, and as a potential biocontrol agent for the invasive lionfish.

Goliath groupers are a national treasure. Florida is the only place in the world where we can encounter these gentle giants, from juveniles to adults. Florida also contains 99 % of the spawning aggregation sites known worldwide. With this study in hand, we now have a strong argument to continue protection of the Goliath grouper and dismiss any claims that the Goliaths are destroying valuable stocks of lobster, snapper and other groupers.

Related articles:

One-quarter of Grouper species are being fished to extinction

Five common myths about Goliath grouper (An outreach guide prepared by Dr. Sarah Frias-Torres)

Tags , , , , , , , , , , , ,
Categories Fisheries Science, Marine Conservation, Oceanography

Guilt Free Goliath Groupers

October 12, 2012 //
12

PRESS RELEASE

Overfishing, not goliath groupers, causes declines in Florida lobster and snapper stocks.

Study finds critically endangered goliath groupers are not to blame for declining lobster and snapper stocks in Florida.

Fort Pierce, Florida, October 12, 2012

Media Contact: Dr. Sarah Frias-Torres

E-mail: sfriastorres@gmail.com

Independent scientist, Dr. Sarah Frias-Torres announced today the first comprehensive study on whether culling the protected goliath grouper population in Florida to increase lobster and fish stocks is supported by scientific evidence.

Goliath Grouper meets Dr. Sarah Frias-Torres. Photo Credit: Dr. Mark Eakin

Goliath grouper, Epinephelus itajara, is listed as critically endangered by the IUCN (International Union for the Conservation of Nature). The largest grouper fish in the Atlantic ocean, goliaths can reach 8 feet (2.5 meters) in length, weigh 1,000 pounds and live more than 40 years. After being fished to near extinction, goliaths have been protected by a moratorium on harvest in U.S. federal and state waters since 1990 and in the U.S. Caribbean since 1993. Elsewhere in the Atlantic ocean, the species is either extinct, or critically endangered.

Over the last decade, Florida recreational and commercial fishermen have demanded a “thinning out” of the population, as fishers consider goliath groupers a major predator of spiny lobster, snapper and other grouper species, and the main reason for declines in such target species.

The study titled “Should the Critically Endangered Goliath grouper Epinephelus itajara be culled in Florida”, analyzed fisheries landing data since the 1950s, diver based surveys and published dietary studies. It concludes that :

1) Goliath groupers eat invertebrates (worms, molluscs and crustaceans) and poisonous fish, not snappers and other groupers. Surprisingly, many of the prey consumed by goliath groupers are in turn predators of juvenile spiny lobster. Hence, goliath groupers are a fishers’ best friend, because through top-down predator control, goliaths could allow more juvenile lobsters to grow and become available to fishers.

2) The slow recovery of the goliath grouper population in Florida is not the cause for declining lobster and snapper stocks in Florida. Instead, overfishing is the main cause.

3) A thriving goliath grouper population could provide additional socio-economic benefits in ecotourism, and as a potential biocontrol agent for the invasive lionfish.

“Goliath groupers are a national treasure. Florida is the only place in the world where we can encounter these gentle giants, from juveniles to adults. Florida also contains 99 % of the spawning aggregation sites known worldwide. With this study in hand, we now have a strong argument to continue protection of the goliath grouper and dismiss any claims that the goliaths are destroying valuable stocks of lobster, snapper and other groupers.” Said Dr. Sarah Frias-Torres, the author of this study.

The research, published today at the journal Oryx, was funded by the Schmidt Ocean Institute, and conducted when the author was a postdoctoral fellow at the Fort Pierce-based Ocean Research & Conservation Association (ORCA). Currently Dr. Frias-Torres is a research collaborator with the Smithsonian National Museum of Natural History in Washington DC and the Smithsonian Marine Station in Fort Pierce, Florida.

Oryx, the International Journal of Conservation, publishes research on biodiversity conservation, conservation policy and sustainable use, and the interactions of these matters with social, economic and political issues.

The full scientific article can be downloaded for free at the Oryx journal web site

Frias-Torres, S. (2013). Should the critically endangered Goliath grouper, Epinephelus itajara, be culled in Florida? Oryx Volume 47, Issue 1, pp 88-95.

Related articles
Tags , , ,
Categories Marine Conservation

Tiny Messengers

September 17, 2012 //
0

If you walk on a Florida beach or go boating near a mangrove shoreline  keep an eye for one of these:

As part of an independent oceanographic experiment (not affiliated with any institution), I released 500 thumb-sized vials from an undisclosed Florida location. Each of them carries a message: call home.

If you find them, call the phone number or email on the label. You will be asked where, when and in what condition you found the tiny messenger. Also, you will be asked to provide the code. Each one of them carries a unique code.

On December 15, 2012 all recovered codes will be entered in a raffle, for a chance to win a small reward.

Your participation will allow scientists like me to better understand oceanographic patterns in Florida’s coastal ecosystems.

Environmental impact

The vials are recycled plastic. Inside there’s a clear liquid which is double filtered freshwater, completely harmless.

Before conducting the oceanographic experiment, I made sure I minimized the environmental footprint of the experiment. Other oceanographers in the past have used glass in similar experiments. I decided glass will be too much of a hazard because it might break, and for that reason I chose plastic.

The plastic is clinical grade and recycled, so it does not release any chemicals and it’s inert (the kind of plastic used in high-precision medical tests). To account for plastic vials that won’t be recovered, I have already committed to additional coastal cleaning activities, on top of my regular beach cleaning I do on my weekends. I regularly collect plastic and other trash as I walk on the beach. I also collect trash when I go SCUBA diving: plastic, cans, fishing line, hooks, etc.

As a rule, I modify oceanographic experiments so they are either pollution-free or I can remediate whatever minimal environmental footprint they might generate.

Related articles
Tags , , , , , , , ,
Categories Oceanography

Death by Nuclear Reactor

May 9, 2012 //
1

…From the Grouper Chronicles…

“Last summer I almost died in my quest for love. I wanted to visit my usual singles bar. Two summers ago, I saw a pretty girl there but she gave me the cold fin. So I was going along with my buddies, following the reef, when we stopped in a cave to rest for a while. There was a powerful current taking us deeper into the cave. We couldn’t fight it. After smashing our bodies along the strange cave, we ended up in a canal. We tried really hard to get back to the ocean but we were trapped. Many jellyfish came along the same cave and ended up in the canal. A few days later, the water started to smell bad, it was impossible to breath, and the jellyfish stung our eyes, and scarred our faces There were so many of us tapped in that hell.

Death came slowly and painfully. Those around me were booming their last goodbyes. Strange human creatures took me out of there. At first, I thought they wanted to kill me but, to my surprise, I was set free into the reef I came from. I kept swimming as fast as I could, all alone, trying to forget the friends that didn’t make it. When I arrived to the singles bar, my body full of cuts and scars  was quite a magnet for the ladies. My near death adventure was the talk of the town. On a moonlit night, I joined the love dance. Something my trapped and dead buddies will never do. Next year, I won’t go near that reef from hell. It’s too much danger for a lifetime”

“This is the singles bar I wanted to visit. I’m the gorgeous male on the foreground”

“These are my buddies who suffered a slow and painful death”

The events explained here are based on a true story. On August 22-25, 2011, a massive influx of jellyfish shut down the St. Lucie nuclear power plant in Fort Pierce, Florida. As a collateral damage, the event resulted in a massive kill of protected goliath groupers already trapped in the plant’s water intake canal.

Early estimates are around 50-75 adult goliath groupers but they could be higher. Considering the species is critically endangered throughout the Atlantic ocean, and in the United States it’s in a slow path towards recovery from near extinction, losing such a significant number of the breeding population is a major setback towards recovery. An article at the Palm Beach Post reported the entire incident.

The nuclear power plant intake pipes, located 21 feet deep, 1,200 feet offshore Fort Pierce (two pipes 12 feet in diameter each, 1 pipe 16 feet in diameter) are in line with a series of worm reefs heavily used by marine wildlife from seaturtles to manatees, reef fishes and goliath groupers. Lacking proper screens, the pipes regularly suction passing marine wildlife. Once trapped, they cannot escape and return to the ocean. Seaturtles are periodically collected and released free. But the same is not always done with the trapped goliath groupers. All seaturtle species and goliath groupers are protected under federal and state regulations. Why release one group and not the other? Once the groupers are trapped in the canals, they are lost to the population, because they’ll never be able to reach a spawning aggregation and reproduce.

Scientists (including myself) were outraged at the massive fish kill because it could have been prevented, and we contacted the Florida Fish & Wildlife Conservation Commission (FWC) and the National Oceanic and Atmospheric Administration (NOAA) proposing an improved contingency plan to avoid further fish mortalities. This action resulted in a new FWC protocol during fish kills.

But as we approach the 1 year anniversary of the nuclear fish kill, I don’t see the changes I expected.

Without any major changes in the intake pipes, seasonal swarms of jellyfish might force again to shut down the nuclear reactor. And without periodic releases of trapped marine wildlife back into the ocean, death by nuclear reactor is still a reality for the protected goliath groupers of Florida.

Tags , , , , , , , , ,
Categories Fisheries Science, Marine Conservation

Minnow Fishing

May 1, 2012 //
1

Every time I participate in a fisheries meeting in Florida, fishers agree on the need of using “good science” to drive fisheries regulations. As a scientist, I should be thrilled of such comments. However, with a few notable exceptions, it seems to me fishers identify “good science” as the one that supports what they want to do: catching fish. Any science that calls for reduced catch limits and fishing closures is, according to them, “bad science”.

The conflict was painfully illustrated once again at a recent meeting of the South Atlantic Fisheries Management Council (SAFMC) in Cocoa Beach, Florida. As we worked through the meeting agenda, which included impending closures to fishing in deep water reefs to protect deep water corals as essential fish habitat, an impromptu forum opened up, where commercial and recreational fishers voiced their concerns.

In a textbook example of fishing down the food web, a veteran commercial fisherman complained of regulations set during the last decade, as the populations of the most valued fish species have been going downhill, he had less and less fish to catch, ever switching to smaller species. “ I’ll end up fishing for pinfish !!!” he said.

New fishers who have moved into the business during the last decade, including younger generations texting on their iPhones during the meeting, complained that there’s plenty of grouper and snapper in Florida and regulations should be eased on to allow for more fishing. Such shifting baselines syndrome was not lost in one of the old timers, who shared his memories when he began fishing in Florida, 40 years ago: “Many times mine was the only fishing boat around, and I didn’t have much trouble to find fish” he said.

The combination of fishing down the food web, and the shifting baselines syndrome reminded me of tragic and hilarious PSA from Shifting Baselines.org.

Fisherfolk rarely recognize their own impact on the species they exploit. There are mortgages and expensive boats to pay. In many cases, they view cutting back on fishing effort as a luxury they cannot afford.

Ultimately, in a consumer-driven economy, we are all consumers of the products fishermen provide to us. We must educate ourselves on making sustainable seafood choices, such as those provided in Seafood Watch. Our choices will eventually drive sustainable fisheries.

Otherwise, we’ll end up fishing for minnows.

<p><span style=”display:none”>sciseekclaimtoken-4fa19315163ae</span></p>

Tags , , , , , , , , , , ,
Categories Fisheries Science, Marine Conservation
Newer Entries »
%d bloggers like this: