It is a statistical fact that no one in the world – not even the meanest despot or cruellest tyrant – fails to love seahorses. It would be fair to add that in certain parts of the world, some people love them too much. In more than 65 countries. To the tune of an estimated 150 million a year that are used in the ‘traditional medicine’ trade. An attrition rate that is unsustainable in the long or even the medium term – with the bleak consequence that it won’t be long before people must look elsewhere for their source for Genital Tonic Pills.
Medicinal use – of empirically vague benefit to its enthusiasts – is joined by the aquarium trade in accounting for the removal of very large numbers of seahorses from their accustomed surroundings. At least these creatures live on (rather than being dried out alive), though research suggests that the survival rate of seahorses in captivity is low.
Do you sometimes hanker for a plastic brooch or paperweight with a tiny seahorse embalmed inside it? It would be good to resist the temptation to buy such things in seaside shops or online. Your little specimen will be one of a million or so souvenir seahorses sold each year, alongside seashells, starfish, sponges and (protected) corals.
As you contemplate your purchase, you may be reassured to find that the product is labelled ‘environmentally friendly’, ‘responsibly sourced’ or ‘from a sustainable source’. You can make up your own: ‘lovingly harvested from the bluest oceans’, maybe. In the words of the SEAHORSE TRUST:
“Nothing could be further from the truth; there is nothing sustainable about this exploitation of the seas. You can make change by not buying them. If there was no market there would be no trade.”
USES FOR SEAHORSES: MEDICINE OR (WITH SCORPIONS) STREET FOOD
A recent summer course on Abaco was held in partnership between Elizabeth Whitman (Florida International University) and Friends of the Environment/Frank Kenyon Centre. Participants learned about sea turtle biology and ecology, and discussed potential threats to the vulnerable population. After a classroom session, the team headed out to Snake Cay Creek to carry out a field survey. The turtles caught were measured, weighed, tagged (if not already), and given a general health assessment. Each turtle was then released.
The data captured by such courses is invaluable in the continuing assessment of the health of the local turtle population. In addition, such projects provide a valuable opportunity for people to become involved in a fascinating and rewarding local conservation project – with a literally hands-on experience.
Credits: Beth Whitman, Friends of the Environment, Jacque Cannon, Maureen Collins, Melinda Riger
HAWKSBILL TURTLES: A RARE FIND & SWIMMING WITH ANGELS
There is something unusual about this juvenile hawksbill turtle peacefully noodling round some impressive elkhorn coral with the grunts and sergeant majors. He’s a rarity. He was found at West End, Grand Bahama (just 67 miles swim from West Palm Beach Fl.), a place where hawksbills are very scarce. Loggerheads, they have. And there are plenty of hawksbills elsewhere in Grand Bahama waters. But not at the western tip. So finding this little guy and getting some good photos was a particular pleasure for Linda Cooper. And maybe the presence of a juvenile is a sign that hawksbills may begin to populate the reefs of West End, as perhaps they did historically.
Linda and her husband Keith run West End Ecology Tours.They have a comprehensive website HEREand a Facebook pageHERE. Check it out to see how much there is to explore at West End. The birds, the corals and reef life, the starfish – and a speciality, swimming with rays. To which can now be added the chance of seeing a hawksbill turtle…
A DOZEN HAWKSBILL FACTS TO CHEW OVER
All sea turtles are classed as reptiles (something that always surprises me, somehow)
The top shell (carapace) consists of scales that overlap like roof shingles
The yellowish bottom shell is called the plastron
Adult hawksbills weigh around 100 pounds
Sea turtles sleep at night, and can stay underwater for a hours without breathing
Hawksbills are omnivorous, eating algae and seagrass but also sponges, urchins and small fish
Females lay about 100 eggs like ping-pong balls, and then at once return to the sea for good
The sex of baby turtles is determined by relative nest warmth – females from the top eggs
Baby turtles hatch almost simultaneously: all must work to dig their way out.
They tend to hatch at night and head straight for the sea’s phosphorescence…
…except that artificial lights confuse them & lead them away from the sea to likely death
As I was writing this, another fact about hawksbills popped into my head. I checked through my archive – mainly Melinda Riger’s wonderful shots from elsewhere on GB – and yes, it is true. There seems to be some sort of symbiotic relationship between the turtles and angelfish. They are often found feeding together. A bit of research confirms this general observation, without giving a clear cause for it. Maybe it is simply that they eat some of the same food; and that there is plenty of it on healthy reefs so there is no cause for aggression on either side. It’s fine for a hawksbill to share with an angel.
NOTE The Hawksbill is listed as Critically Endangered by the IUCN red list of Threatened species as its populations have declined dramatically throughout the world and especially in the Caribbean region. It is listed in Appendix I of the Convention on the InternatIonal Trade of Endangered SpecIes (CITES) meaning that Hawksbills are near extinction or very endangered. All marine turtles are now protected under Bahamian law, as is the taking of eggs.
Credits: West End Ecology Tours / Linda & Keith Cooper (photos 1, 2, 3); Melinda Riger / Grand Bahama Scuba, all other images;BAHAMAS NATIONAL TRUST for their very useful fact-sheet (one of many) which I have adopted and adapted; Aquoflite for the vid.
I have commented before on the excellent wildlife stamps produced by the Bahamas Philatelic Bureau, and there is a fairly comprehensive page featuring many of the special issues HERE. Recently, dolphins were treated to their own set of stamps, in conjunction with the BMMRO (Bahamas Marine Mammal Research Organisation). Four dolphin species are showcased, with a fifth species (Risso’s Dolphin) shown on the commemorative Official First Day Cover (replete with the BMMRO logo). The release date was 31 March 2016.
The stamps are available as sets of 4 or of course individually. In a newsletter earlier this year, the BMMRO included some fascinating information about their valuable work – in particular with whales – and about the individual dolphin species featured in this very special philatelic issue. This was also published by the stamp producers, Pobjoy Mint Stamp Division.
BMMRO is a Bahamian non-profit organisation whose mission is to promote the conservation of marine mammals in The Bahamas through scientific research and educational outreach. Since 1991, BMMRO has been conducting small vessel surveys primarily around Abaco Island to document the occurrence, distribution and abundance of marine mammals in The Bahamas.
BOTTLENOSE DOLPHINS Tursiops truncatus
These are the most common marine mammals seen on the Bahama banks. It should be noted, however, that there are at least two distinct “breeding populations” or “ecotypes” of this species: coastal bottlenose dolphins that inhabit the shallow waters of the banks; and oceanic bottlenose dolphins found in pelagic waters. These populations diverged genetically several hundred thousand years ago and have since developed different physiological adaptations to their respective marine environments. The coastal ecotype is smaller in length reaching just over 8 feet and has a relatively larger dorsal fin and pectoral fins which helps them to maneuver more readily around rocks and reefs to catch fish, and to regulate their internal body temperature (the temperature of the shallow Bank waters fluctuates much more than the deeper Atlantic Ocean). The coastal dolphins do not travel much beyond the bank edge and live in small resident communities. The deeper diving oceanic ecotype can reach 10 feet or more in length, are usually seen in larger groups and appear to have a more extensive range with movements documented between Abaco, Bimini and Exuma Sound.
ATLANTIC SPOTTED DOLPHINS Stenella frontalis
These dolphins are not born with spots, but actually accumulate them as they mature, becoming quite mottled-looking as adults. Hence, young spotted dolphins are often confused with bottlenose dolphins, and sometimes the two species will interact, which adds to the confusion. Although they can reach almost the same length as bottlenose dolphins, they have a smaller girth and thus body weight. Atlantic spotted dolphins are a year-round resident species in The Bahamas. Individuals photo-identified 20 years ago in Abaco can still be seen in the same areas today. They are commonly seen in groups of 20-50 dolphins in the oceanic waters where they feed on flying fish and squid, and rarely venture on to the bank. However, along the western edges of Little and Great Bahama Banks this species can regularly be found on the bank during the daytime where they come to rest and socialise.
PANTROPICAL SPOTTED DOLPHINS Stenella attenuata
This species is more slender in body shape than Atlantic spotted dolphins, and also have a distinctive dark dorsal cape, which sweeps from their rostrum to behind their dorsal fin. Like Atlantic spotted dolphins, they accumulate their spots with age, which allows researchers to readily document age-classes within groups. This species is strictly oceanic in its distribution. Pantropical spotted dolphins are not as frequently sighted as Atlantic spotted dolphins in The Bahamas. They occur in groups of 50-100 dolphins and are often seen engaging in acrobatics, such as making high leaps out of the water, and bow-riding.
ROUGH-TOOTHED DOLPHINS Steno bredanensis
These dolphins are dark grey in colour with a long beak and prominent white lips. Their lower jaw and belly can sometimes be a pinkish colour. They reach just over 8 feet in length. They are an oceanic species and although appear to be rare in some parts of The Bahamas, can be regularly seen in the Tongue of the Ocean where they occur year round. Some individuals have been re-sighted in this area over the past ten years. They are typically found in groups of about 20 animals, but are sometimes in larger mixed-species aggregations of several hundred dolphins.
Not on a stamp but shown on the First Day Cover
RISSO’S DOLPHIN Grampus griseus
These are large light grey dolphins that can reach over 13 feet in length, and have a relatively tall, dark dorsal fin. Adults are typically covered with overlapping white scars caused by the teeth of their con-specifics making them look quite battered. They have a rounded head, lacking a beak, but have a deep vertical crease down the center of the forehead. As they mature, their forehead becomes prominently white, and as such they are one of the easiest species to recognize at sea. Risso’s dolphins are commonly seen in oceanic waters in the northern Bahamas each winter and spring, primarily on the Atlantic side of the islands. It is unknown where these groups range the rest of the year, but some individuals have been seen off Abaco repeatedly over the years.
The conch. Such a fascinating gastropod, and with so many uses both culinary and decorative. In certain cultures, religiously significant. A rudimentary musical instrument for a shell. And did I mention delicious?
Live conchs enjoy motoring around uninhibitedly on the sea floor, keeping an eye out…
Conchs also enjoy racing each other…
“Eat my dust…”
Conch Pearl – one of the rarest natural pearls in the world
A conch spiral close-up
Conch shells just lie around the place at Sandy Point
Conchs are widely used for serving cocktails or as ashtrays in the best beach bars*
*This is a lie. Sorry about that. I meant to say “make prefect table decorations”
The Bahamas Marine Mammal Research Organisation has just celebrated its 25th year of existence. It was formed in 1991. The omnivorous leviathan Amazonus giganticus emerged in 1994 and the invasive species Megacorpus googleii not until 1998. A full 10 years later the first garbled recordings of Sarahpalinus illogicus were made. And all the while, a watchful eye was being kept on the cetaceans of the Bahamas – researching, counting, measuring, identifying, recording, poop-scooping, analysing samples, tagging, comparing, protecting and conserving.
As the years passed, so the science and technology evolved and became more sophisticated. Researching became at the same time easier, yet more complex as the organisation’s remit expanded to accommodate the vast increase in data collection now made possible by refined techniques. Here are two very recent examples – 25th anniversary projects, in fact – with thanks to Charlotte, Diane, their team and their colleagues in linked organisations.
TAGGING BLAINVILLE’S BEAKED WHALES
Last month, a tagging project started, involving suction cups being attached to the backs ofBLAINVILLE’S BEAKED WHALES. The purpose of the research is to compare the foraging efficiency of the whales in Abaco waters with those of Andros, the second part of the project. I imagine this will provide valuable insights into the whale movements and behaviours in each location as well as such issues as the comparative availability of the food supply, and other factors that may affect expected foraging patterns.
The tag is moved towards an adult male. Note the aerial (antenna?) at the back of it
Planting the tag on the whale’s back
Successful suction!
The tag in place
The tag is tracked for 18 hours, after which it is retrieved and the recordings can then be analysed back at BMMRO HQ in Sandy Point. So far, an adult male, a young male and two adult females have been tagged. Each female had a calf, but these were not tagged.
Female beaked whale with her calf
AERIAL PHOTOGRAMMETRY USING A HEXACOPTER
Drone technology is rapidly expanding as new uses for them are devised. BMMRO in conjunction with NOAA have used a sophisticatedHEXACOPTERto take the first PHOTOGRAMMETRY images of Blainville’s beaked whales. These aerial photographs were taken from approximately 100ft altitude. But note: not just anyone with a $50 drone can do this: the project required flight clearance from the Bahamas Department of Civil Aviation and a permit for research on marine mammals granted by the Bahamas Department of Marine Resources.
Blainville’s beaked whale photogrammetry image – female and calf
STOP PRESS Two additional images from the latest batch
Photogrammetry: the science of making measurements from photographs. Applications include satellite tracking of the relative positioning and alterations in all Earth environments (e.g. tectonic motions etc), research on the swimming of fish, of bird or insect flight, and other relative motion processes. The results are used to guide and match the results of computational models of the natural systems. They help to invalidate or confirm new theories, to design novel vehicles or new methods for predicting or/and controlling the consequences of earthquakes, tsunamis etc, or to understand the flow of fluids next to solid structures, and many other processes. (Wiki-précis)
Hexacopter (6 rotors)
Tag Team: BMMRO, University of St Andrews (Scotland), Woods Hole Oceanographic Institution
Hexacopter: BMMRO, NOAA
Photo Credits: top two, moi (from BMMRO research vessel); remainder except for last, BMMRO; last, Wiki
Today the NOAA and other worldwide ocean guardian organisations are celebrating World Oceans Day. Looking at the websites and FB pages, one message is clear: People Are Rubbish. To put it another way, the global pollution of the oceans is caused solely by humans. The pristine seas and beaches of the world were unsullied until, say, the last 200 years. In 4 or 5 generations, all that has changed irreversibly.
My rather (= very) negative intro is counterbalanced by some more positive news: there are plenty of good guys out there working hard to make a difference to the rising tide of filth polluting the oceans. Clearing seas and beaches of plastic and other debris. Collecting tons and tons of abandoned fishing gear. Rescuing creatures trapped, entangled, injured and engulfed by marine debris and pollutants. Educating adults and – far more importantly – children and young people by actively involving them in their campaigns. Conducting research programmes. Lobbying and protesting. And a lot more besides.
A marine garbage patch: the sea creatures’ view (NOAA)
Abandoned fishing gear: a monk seal that was lucky; and a turtle that wasn’t (NOAA)
Four shearwaters killed by a cone trap. A fifth was rescued (NOAA)
The NOAA and sister organisations carry out massive programmes of clearance of marine debris, with working parties of volunteers who do what they can to deal with an intractable problem.
Elsewhere, some tackle the problems caused by particular types of trash, balloons being an excellent example. I have posted before about BALLOONS BLOW, the brainchild of two sisters who learnt of the serious consequences to wildlife caused by mass balloon releases. Their work has been so effective that increasing numbers of mass releases are being cancelled in favour of other forms of celebration. A minus for balloon-makers of course, but a big plus for wildlife. The BB sisters also keep their own beach clear of the junk brought in on every tide.
And on an individual basis, any old fool can make a tiny difference to a local beach. Here is one such doing just that…
A tangle of balloon strings on Delphi beach
Guinea Schooner Bay: little visited, rarely cleaned. Plastic crap from a 10 foot radius
MAKE FRIENDS WITH ANEMONE (2): SPECTACULAR REEF LIFE
Going snorkelling? Planning a scuba day on the reef? You’ll see wonderful fish and amazing coral for sure. But sometimes the beauty of other life on the reef can be overlooked. Check out the anemone in the header image, with the camouflaged cleaner shrimps playing around it. You wouldn’t want to miss a sight like that. The many and varied forms and colours of anemone on the reefs of the Bahamas make up a vital component of a spectacular underwater world.
ADDED NOV 2016 Capt. Rick Guest adds this interesting material (& thanks for correcting my erroneous reference to anemones as ‘plants’. My bad. They are of course animals!):
“Anemones are living animals of the invertebrate type. Basically living corals without skeletons. All have stinging cells of several varieties to sting or entangle their prey such as small fish, or various invertebrates. A few can even, painfully, penetrate human dermal layers. Most host varieties of cleaner shrimps,and snapping shrimps that can stun their own prey. Some Dromidia crabs even pull some species of anemone off the reef, and attach them to their carapace (their back) apparently for camouflage, and perhaps protection”.
All photos: Melinda Riger of Grand Bahama Scuba, with thanks
Today is the 46th Earth Day, a global event to encourage ecology and conservation, and to discourage the spoiling of the planet by mankind. What becomes lost now may never be retrieved. Plant a tree. Grow some bee- or butterfly-friendly flowers. Clear a patch of beach of plastic trash. Recycle stuff. That sort of thing.
Atala Hairstreak Eumaeus atala – Delphi
Gulf Fritillary Agraulis vanillae – Neem Farm
I’d lined up some horror-images of plastic-filled birds, entangled turtles, damaged reefs and so forth, of which I have a depressingly large archive. Then, in a spirit of *vogue word alert* positivity I scrapped that miserable idea and decided instead to celebrate some of the natural wonders that can be found on Abaco.
Some signal species serve as a continuing tribute to those who work to conserve them. The gorgeous ABACO PARROTS, now saved from the brink of extinction – and currently establishing a new colony on New Providence. The rare PIPING PLOVERS that find a safe home to spend their winters on Abaco’s beaches. The 5 ENDEMIC BIRD species. The WHALES & DOLPHINS that populate the waters. The west-indian MANATEES, until very recently almost unknown for Abaco yet now providing a curious addition to the scene as they visit their favourite haunts.
Habitat protection has been provided over substantial areas on both land and sea by the creation of natural parks and preserves. These have very recently been extended by the establishment of 4 large PROTECTED AREAS for East Abaco Creeks, Cross Harbour, the Marls and the South Abaco Blue Holes, a wonderful reward for a great deal of hard lobbying by conservation organisations and by many concerned individuals.
Scientific research and conservation work is continuously carried out in Abaco waters. TheCORAL REEFSthat form the 3rd largest barrier reef in the world; theBLUE HOLESthat lead to wonderful caves and cathedral caverns of crystal; the vast area of theMARLSand the species that rely on the mangrove swamps; theMANGROVESthemselves: all these are watched over and monitored for ways to protect them best for future generations.
I’ve mentioned trees and plants. There are a variety of well-known sources for both on Abaco – on the mainland, anyway, and maybe some cays. Any will advise on bee and butterfly attractants. Thinking of which, bird seed feeders and hummer sugar water feeders are cheap and guarantee the interest of garden and coppice birds, and during the winter months some brightly coloured migrants such as buntings and grosbeaks.
The reefs of the northern Bahamas, as elsewhere in the world, are affected by two significant factors: climate change and pollution. Stepping carefully over the sharp pointy rocks of controversy, I’ve avoided the term ‘global warming’ and any associated implication that humans (oh, and methane from cows) are largely to blame for the first factor; but on any view, ocean pollution is the responsibility of mankind (and not even the cows).
That said, an exploration of the reefs of Abaco or Grand Bahama will reveal not just the astounding variety of mobile marine life but also the plentiful and colourful static marine life – for example the beautiful and Christmassy orange cup coral in the header image. Here are some more corals from the reefs, with a mix of sponges added in.
This rather intriguing photo shows a hermit crab’s conch home that presumably the occupant grew out of and left behind in the delicate coral branches as it went search of a more spacious shell dwelling.
Credits: All these wonderful photos are by Melinda Riger of Grand Bahama Scuba; tendentious reef health observations are mine own…
“OPHELIA READY FOR HAMLET”: BAHAMAS REEF FISH (27)
It’s a couple of years since I originally posted about the various species of HAMLET that inhabit the reefs of the Bahamas. I feel you are (geddit?) ready to see some more of these colourful little fish. Last time out, I worked over the Shakespearean possibilities quite thoroughly so I’ll spare you a repeat (apart from the inevitable title pun). If you really want to revisit the famous Hamlet Cigar ad or hear the theme music (Bach’s Air on a G String, shamelessly ‘borrowed’ by Procol Harum for ‘A Whiter Shade of Pale), you’ll find them HERE. Or just move straight on to 5 related but very different looking Hamlets cruising the Bahamas coral reefs.
INDIGO HAMLET
BARRED HAMLET
BLACK HAMLET
SHY HAMLET
BUTTER HAMLET
Credits: all photos Melinda Riger of Grand Bahama Scuba
Adult male Blainville’s Beaked Whale with barnacle-encrusted teeth protruding from its lower jaw
WHALE TALES FROM ABACO (2): MALE BLAINVILLE’S BEAKED WHALE
This second post about the Blainville’s Beaked Whales of Abaco, Bahamas, relates to a prolonged encounter with a group of mothers, calves and a male. This was our second BBW sighting on the same day in March: the first is described HERE. Click the link to find out more details about these wonderful creatures, with plenty of close-up photos.
We had been invited by Charlotte and Diane of the Bahamas Marine Mammal Research Organisation BMMRO to spend a day with them on the research boat. This was our first chance to get close to whales, a chance made far more likely by (a) being with experts and (b) their specialist equipment…
Our first sighting was a short distance south of Rocky Point, as we moved into the deeper, darker ocean waters of the Bahama canyon, with the shoreline still clearly visible. We then visited HOLE-IN-THE-WALL in the RHIB and took a close look from the sea at the damage and destruction of the famous Hole caused by HURRICANE SANDY.
On the way back we paused as we got to the same area where we had seen the group earlier in the day. Within minutes, several whales came straight towards us. This photo shows 3 adults and, almost submerged, a calf.
For the next hour or so, they played around the boat like very large dolphins moving in slow motion. Usually these whales make a deep dive every 20 minutes or so and stay underwater for about the same time before resurfacing. These ones stayed with us throughout.
3 adults with 2 calves
Mostly they stayed quite – or very – close to the boat. Sometimes they swam across the bow or even under the boat. From time to time, they would move off some distance. Each time we thought they were moving on, and each time they soon returned. After a while the females and calves were joined by another whale – the less common sighting of a male replete with barnacle-encrusted teeth protruding upwards from his lower jaw.
The male initially stayed slightly further away from the boat than the others, perhaps assessing the threat to the group. Then he too joined in, passing and repassing the boat, swimming away and returning, remaining on the surface and offering a wonderful view of his noble head (see header image and below).
Looking at my photos later, I realised that a second male must have joined the group for a short time. The image below shows a male with far fewer barnacles – certainly not the male we had been watching.
It was remarkable to see these huge creatures behaving in much the same way as dolphins, swimming playfully around and under a boat, moving away, then returning for more. These whales are some 15 feet long and weigh about 2000 pounds. They were inquisitive, unafraid (even with calves in the group) and gentle. Maybe they sensed that they have been to subject of years of intricate research by Diane and Charlotte that will materially assist with the preservation their species. More likely, the group were simply enjoying themselves in the sun with a peaceful intruder in their territory.
You don’t have to go miles offshore to see whales in Abaco waters
BMMRO research RHIB with Diane BMMRO HQ, Sandy Point, Abaco
Credits: All photos RH except one; Charlotte & Diane for a brilliant day out; Mr Blainville for a brilliant whale; Mrs RH for snapping me snapping the whale – a photograph that was featured in a competition in the Guardian Newspaper.
MARINE DEBRIS: BALLOONS – WHAT GOES UP MUST COME DOWN…
Two sisters, Chelsea and Danielle, grew up by a Florida beach. With their parents,they learned from an early age to collect rubbish from the beach and to keep it clean. When they were little, the problems weren’t so great. Gradually, the tide changed. Literally. And indeed littorally. As is a common experience with any shoreline these days however remote and unspoilt, all manner of debris washes in on every tide, from plastic straws to SPACE ROCKET FAIRINGS. There has been a massive increase in ‘single-use’ plastic items. Most of it will take years, decades or even centuries to decompose. And there are deflated balloons, with their strings.
A typical haul of a lot of plastic and several balloons from just one beach collection
As ‘business’ on the Florida beach increased, so it became clear that balloons were becoming a significant problem. The increasing popularity of mass releases of balloons at sports events, civic or institutional occasions, and smaller celebrations means 100s or even 1000s of balloons being released into the sky. In most cases they are filled with helium – a finite resource – which carries them high over the earth. Very festive. Then the problems begin. They get caught in thermals, winds and crosswinds, gales and storms. Whether onto land or water, they all have to come down eventually. The problems caused therefore affect creatures inland, on the shoreline and out to sea.
Eventually the sisters decided to take action. They started a website BALLOONSBLOW.ORG, linked to a FB page. They post regularly about their beach clean-ups, now extended to other beaches on the south-west coast of Florida. They also produce balloon-based information sheets and flyers such as these:
I have a folder in which I keep some horrific images of incapacitated, dying or dead creatures. I use them sparingly because in the main they are upsetting. Almost every one of them involves entanglement in or ingestion of such materials as plastic, mylar, styrofoam, rubber or latex. Here are just 3 examples involving balloon strings – I’ll spare you others I have collected (e.g. a turtle that died trying to excrete the remains of a balloon).
I don’t have a down on ‘fun’ – and nor do Chelsea and Lucy I’m sure. But, now in their 20s, they have had years of direct hands-on experience clearing their beach and one can see why they decided to take wider action. From one area they have accumulated a vast collection of balloons that will take many decades to break down. Even then, the degraded pieces and micro-pieces will be eaten by fish, turtles and birds.
Here’s an illustration of the problem of creatures nibbling away at latex
The Delphi beach is very regularly cleaned up, of course, but there’s nothing that can be done to stem the arrival of debris large and small on every tide. Beautiful and remote though the one-mile curved strand may be, one cannot walk far without seeing plastic of some description. As a matter of interest, I tried a test: walking south on the beach in the tide-line, how long would it take to find balloon evidence? The answer was, less than 10 minutes.
The decomposition rate of various common items
The Balloons Blow website is constructive in offering festive alternatives to mass balloon releases, rather than merely chronicling the downsides. The balloons and other plastic junk mostly arrives from the western fringes of the North Atlantic Gyre, in the Sargasso Sea, where the trash gets caught in the sargassum and is eventually forced onto the shoreline by currents, winds and tides.
North Atlantic Gyre hotspot infographic
This post has concentrated on the dangers to wildlife caused by latex and mylar balloons that are sometimes claimed to be biodegradable but are not. There’s more to be said about plastic marine trash, but I’ll keep that for another day.
Melinda Riger, doyenne of the deep and photographer to the stars (brittle stars, basket stars, starfish etc), undertook her 5000th dive a few days ago. She swims with sharks almost daily, and points her lens at the varied reef life she encounters along the way. Her gold prize for the dive turned out to be one of the smallest creatures she encountered: the seahorse. Hippocampus (Ancient Greek: Ἵππος, horse and Κάμπος, sea monster) is a unique fish, deriving from the pipefish, with more than 50 species known worldwide. I can feel a Rolling Harbour fact list coming on…
10 SEAHORSE FACTS TO DAZZLE YOUR FRIENDS WITH
Only seahorses and razorfish swim upright / vertically all the time
Their tails are prehensile and enable them to moor on coral, seagrass etc
They have no scales, but skin stretched over bony plates arranged in rings
The ‘coronet’ on a seahorse’s head is unique to the individual
Seahorses are pathetic swimmers: the slowest have a top speed of 5′ per hour
They feed by ambush, rotating the head and sucking prey in with their snout
A seahorse’s eyes can move independently of each other, like a chameleon
The Bahamas is home to H. erectus and the dwarf seahorse H. zosterae
Despite rumours, they don’t mate for life. Some may stay together for a season
The smallest seahorse in the world – the pygmy – is a maximum of 15mm long
MAKING BABY SEAHORSES: A MOST UNUSUAL ARRANGEMENT
There’s no getting round it: seahorse courtship and reproduction is highly unusual. Here is a summary of how it goes (there’s a lot more to it, but life is short):
COURTING This may last for many days. They may change colour; they swim together; they entwine tails; they attach themselves to the same strand of coral or seagrass and turn slowly round it in unison (a so-called ‘pre-dawn’ dance). The final courtship dance may last several hours while the male & female prepare for the next stage.
EGG TRANSFER When the time is right the female transfers her eggs – hundreds of them – via herovipositorto the male, in the process of which they are fertilised. Handily, he has inflated a special egg pouch located on his abdomen. She then buggers off.
GESTATION The fertilised eggs grow inside the egg pouch of the male and develop into baby seahorses. This process may take from 10 days to a few weeks. During this time, the female will visit for a short ‘morning greeting’ and some intertwining action.
‘BIRTH’ In due course the male ejects the baby seahorses from his pouch using muscular contractions. These may number from five to (get this!) 2,500 at a time; on average 100–1000. Job done. Then the tiny seahorse babies are on on their own…
THREATS TO SEAHORSES
The attrition rate of baby seahorses through predation is high (as for most fish species), but the prolific breeding rate reduces the effect on the overall populations. As so often, there are human-related threats, not least habitat destruction, overfishing and pollution. There’s a less expected problem: the importance of seahorses in Chinese medicine. Their presumed healing qualities are used to treat impotence, wheezing, enuresis, pain and to assist labour. For these purposes, some 20 million seahorses a year are caught and sold. Increasingly they are reduced to pill or capsule form.
Seahorse values depend on the species, but weight for weight dried seahorses retail for *unbelieving face* more than the price of silver and almost that of gold in Asia, from US$600 to $3000 per kilogram. Ours not to reason why.
USELESS SEAHORSE FACTS
Seahorse is an anagram of seashore
The Seahorses were an English rock band, formed in 1996 by guitarist John Squire following his departure from The Stone Roses. They split in 1999
Devendra Banhart’s song ‘Seahorse’ contains these inspiring lyrics: I wanna be a little seahorse I wanna be a little seahorse A little seahorse I wanna be a little seahorse I wanna be a little seahorse I wanna be a little seahorse I wanna be a little seahorse
I’m losing the will to live. Let’s meet Otis.
Introducing Otis, Melinda’s seahorse that lives under her dock
SEAHORSE MATING DANCE (4 MINS)
MALE SEAHORSE GIVING BIRTH
All photos: many thanks to Melinda Riger of Grand Bahama Scuba; sources, many and manifold including Wiki which is pretty good on this kind of thing! Fab seahorse gif by Alex Konahin
For some time now, there has been understandable concern about the increasing evidence of mangrove die-back in the Abaco Marls and elsewhere in Abaco waters. Scientific investigations are ongoing and you will find some of the survey results so far on the excellent Abaco Scientist interactive mapHERE. You’ll find other relevant and authoritative mangrove material if you check out theBLOGmenu of the website.
The ‘200 sq. miles’ in my map is debatable, depending what one includes. Other estimates are of 300 or even 400 sq. miles. Whichever, the Marls cover a massive area of mangroves, islets, flats, channels and wonderfully diverse wildlife. A large proportion of the many species – fish, birds, turtles etc – depend on the complex ecology of the mangroves for food, shelter and breeding. Depletion of the mangroves from whatever cause will have a direct effect on the creatures of the Marls.
Ryann Rossi, a PhD student with North Carolina State University, has been researching the worrying phenomenon of mangrove die-back in the Marls this summer. She has written an interesting and informative account (conveniently in the RH ‘Facts about…’ style) that was published in Abaco Scientist last week. The blue links will take you to the ABSCI site for further information on each topic. I’m grateful to Ryann and ABSCI for permission to use the material.
Five Things to Know About the Mangrove Die-back in The Marls (at this point, anyway)
1. This die-back appears to be the result of multiple stressors acting together. Think of it in the sense of our own body – when our immune system is down, we are often more susceptible to getting sick. The same thing is likely happening to the mangroves.
2. It appears as though a fungal disease may be taking advantage of already stressed mangroves and causing die-back. We did preliminary surveys across Abaco and found fungal lesionsnearly everywhere. However, the fungus was present in different densities in different areas. In the die-back area nearly all the leaves remaining on trees have lesions. We think that this pathogen capitalized on the mangroves being weakened by other stressors such as hurricanes, which cause extensive leaf drop, change in the movement of water, change in sedimentation and erosion.
3. We are still working on identifying the pathogen associated with the lesions we’ve found. We are confident that it is a fungus and are currently growing fungal cultures in the lab to examine defining morphological characteristics in addition to using DNA sequencing to identify the culprit.
4. We have documented the presence of the Robust Bush Cricket (Tafalisca eleuthera) in the die-back areas as well as other areas with high densities of lesions. These crickets are documented to consume Red and White mangrove leaves. As such, we were concerned about their potential role in die-back. We set out a caging experiment to exclude the crickets from certain dwarf Red mangrove trees to see just how much grazing they may be doing in the die-back area. This experiment is ongoing.
5. The take home: there is likely more than one causal agent of the die-back in The Marls. Many factors govern mangrove productivity and functioning: nutrient availability, salinity, sedimentation rate, herbivory, and disease are just a few of the factors that contribute to overall mangrove function making it very difficult to pin point which factors may be driving the die-off. On the bright side, we are confident that we have a lead on the causes and we are working hard in the field and laboratory to fully understand what is going on in The Marls.
This summer Stephanie Archer and I continued research efforts focused on determining the cause of the mangrove die-off in The Marls (work funded by the National Science Foundation). Our efforts were predominantly focused on the fungal pathogen we found associated with the die-off site. We created a small citizen science and outreach project to document the presence or absence of the pathogen across Abaco. This project consisted of short surveys and leaf collections. In total, 92 areas were surveyed including locations from Abaco and San Salvador. We also took this outreach project to the annual Bahamas Reef Environment Education Foundation (BREEF) teacher training conference. There we disseminated survey packets to teachers from islands throughout The Bahamas who will help us collect more data on the presence (or absence) of this pathogen on other Islands.
Three men on a skiff – Abaco Marls
On Abaco, we constructed an experiment to investigate the role of grazing and the presence of fungal lesions on Red mangroves. We simulated grazing using crafting scissors to cut small sections on 600 leaves in 4 different mangrove creeks. We observed the leaves for 28 days to determine if cutting leaves predisposed leaves to fungal infection. At these sites we also trapped for insects to gain an idea of what kind of grazers may be chewing on the leaves. We also did a series of disease incidence surveys that will be routinely monitored for disease progress over the next 2 years. These surveys will allow us to systematically track the progress of the disease. In addition to our field work, we spent many hours in the laboratory isolating fungi from leaves to grow in culture. These cultures were brought back to North Carolina State University and will be sequenced in order to help us identify the fungal pathogen responsible for making the lesions on the mangrove leaves.
Gina (adult female) and her calf – last seen August 6th, 2015 in Spanish Wells Key feature – numerous paddle cuts; white oval scar on left side of back; linear scar on posterior right side of body
BAHAMAS MANATEE MAGIC ON ABACO & BEYOND
Four years ago, there were no manatees in Abaco waters. Then a couple of adventuresome sirenians made the trip over from the Berry Is. and since then, there have been at least one, sometimes two and occasionally three resident on Abaco. And for slow, gentle, animals they certainly move around, too. In the past, I wrote quite often about the manatees, charting their journeys based on satellite tracking and sightings. I reported the tantalising prospect of the young male, Randy, hooking up with young female Georgie in Cherokee Sound, only to turn back when he reached Little Harbour. You can read more about the manatees of Abaco on my manatee pageHERE.
Georgie’s epic trip (Sept 12) continued to Cherokee Sound; and Randy’s ‘pursuit’ (Sept 14)
The most comprehensive source for Bahamas Manatee information is now to be found by joining the open Facebook group BAHAMA MANATEE CLUB, skilfully curated by Felice Leanne Knowles. There, you can follow the meanderings of your favourite Abaco manatee, watching as he or she moves around the island and cays. In recent months there have been sightings of single or pairs of manatees in several places, including Sandy Point, Little harbour, Marsh Harbour, Schooner Bay and Hope Town Harbour (where two are right now). Here’s an excellent example of how, just like a Beach Boy, an Abaco manatee gets around. In July, Randy moved from Sandy Point to Schooner Bay in 2 days. The big question is, did he travel round the longer top route, as he has in the past; or (more likely in the time taken) via Hole-in-the-Wall?
Randy the Abaco Manatee goes swimabout
Felice has just produced a great map that shows the present locations of all the Bahamas manatees currently recorded. She has also supplied photos and information about them. Most have names and are well-known to the research team and the locals where they stay. There is one new calf – Gina’s – this year. One or two manatees are new on the scene and have yet to be identified or named.
Manatees Throughout The Bahamas
The map shows the last location of the named manatees. The pink dots label females, the green dots label males, and the yellow dots label unknown manatees. The number of unknown manatees has been approximated to reduce error. The photos are of the individual manatees with dates and specific locations of their most recent sighting. We do not have enough data and photos to confirm the unknowns labeled. Any help from the public would be greatly appreciated. Send sighting reports tohttp://www.bahamaswhales.org/sightings/index.htmlNB Felice points out“Full body and paddle photos are very important for the identification of manatees. Facial shots do not provide enough information for a manatee to be identified”
Georgie (sub-adult female) Last seen in Casuarina, Abaco 9th July, 2015 Key feature – 2 pink scars on the right posterior of her body
Randy (sub-adult male) Last sighted in Hope Town August 12th, 2015 Key feature – triangle cut on right side of paddle
Unknown (adult, presumed female) with Randy Last seen in Hope Town August 12th, 2015 Key feature – 3 prop scars on the posterior right side of body
Gina’s Calf Last seen August 6th, Spanish Wells Key feature – none yet, just really tiny!
Blackbeard (adult male) Last seen in Lyford Cay August 13th, 2015 Key features – triangle cut on right side of paddle (similar to Randy’s); oval scar on centre of paddle; three prop scars on the back and linear scar
Kong (adult male) Last seen in Great Harbour Cay Marina, February 25th, 2015 Key feature – triangle cut on the left side of paddle; linear scar across the back; oval scar on the back near paddle
J.J. (sub-adult female) Last seen in Great Harbour Cay Marina, Berry Islands, February 25th, 2015 Key feature – 3 small semi-circular cuts out of paddle at the very end
Rita (adult female) Last seen 23rd March, 2014 Hawks Nest Marine, Cat Island Key feature – Large triangle cut on right side of paddle; two small triangular cuts side by side forming a “w” on the left side of paddle
Unknown adult, West Grand Bahama – Key feature: too distant!
You may have noticed that several of the manatees shown carry scars attributable to prop wounds. Almost all carry injuries of some sort. Because manatees are slow, gentle, inquisitive and trusting creatures, they are especially vulnerable in harbour areas for obvious reasons. Elsewhere than the Bahamas, boat-strike is one of the main causes of manatee mortality. The BMMRO recently issued the above advisory notice because of the uncertainty about the rights and wrongs of watering manatees from docks with hoses and feeding them lettuce etc. Overall the message is that, though creatures of wonder, they are better off being admired but left to their own devices. They are adept at finding the fresh water sources they need, and their sea-grass diet is amply provided for. Dependence on humans, however well-meaning, is actually harmful.
Credits: first and foremost, Felice Leanne Knowles; also BMMRO, Charlotte, & Diane for permission to make free with their material and photos from the get-go; any other photographers of the manatees shown and posted via BMMRO / FLK (Cha Boyce, Jessica Mullen,Otis Wilhoyte I think, maybe others…)
WHALE TALES FROM ABACO (1): BLAINVILLE’S BEAKED WHALES
Back in March we were invited by Charlotte and Diane of the Bahamas Marine Mammal Research Organisation BMMRO to spend a day out with them on the research boat, a chance we jumped at. I had been writing on and off about the organisation’s whale, dolphin and manatee research since the very early days of this blog. We’d seen bottlenose dolphins in Abaco waters, but never whales. This was the big day…
Our first sighting was a short distance south of Rocky Point, as we moved beyond the turquoise water of the low sandbanks into the deeper, darker ocean waters of the Bahama canyon beyond. Whale territory. The shoreline was plainly in view to the east; and to the north, on the horizon, was the massive bulk of the ‘fun ship’ parked at Castaway (Gorda) cay.
Beaked whale or fun ship for a day out? You decide…
A Blainville’s beaked whale noses towards the research vessel
The Blainville’s beaked whale (Mesoplodon densirostris) is also known slightly less politely as the dense-beaked whale. It is named forthe French zoologist Henri de Blainville who first described the species in 1817 based on his examinations of a piece of jaw or ‘rostrum’ — the heaviest bone he had ever come across — which resulted in the name densirostris (Latin for “dense beak”).
The beak breaks the surface
The BMMRO has carried out intensive research on the species for a number of years in the northern Bahamas, with detailed documentation of sightings and photo identification of individual animals. More recently, these whales have been the subject of incredibly detailed research into their species intercommunication through vocalisations – mainly clicks and click patterns. To view Charlotte’s PhD thesis for St Andrew’s University click HERE (and many congratulations, Dr Dunn…). Just reading the contents table will give a good idea of the scope and complexity of the research.
The blowhole, used for breathing, in close-up. You can hear this in the video below.
Our amazing first encounter with 6 whales lasted nearly an hour. Usually, they stay near the surface for 20 minutes or so, then they do a deep dive lasting roughly 20 minutes before resurfacing. But on this occasion they behaved more like huge dolphins, swimming towards the boat, around it, under it, then drifting away again before returning.
Given their length of some 15 feet and weight of about 2000 pounds, it was a extraordinary experience to see them at such close quarters.
The Blainville’s range is extensive and in general terms they may be found in tropical and sub-tropical waters worldwide. They are by no means uncommon, but apart from the data collected by the BMMRO it seems that comparatively little is known about them. Their diet is thought to consist mainly of squid found at depth. They are protected by a variety of Agreements, Memoranda of Understanding, Protocols and so forth throughout the worldwide range.
The research boat is equipped with sonar the can pick up the click and whistles of whales and dolphins from a considerable distance. It was remarkable to watch a group of cetaceans and to be able to hear them loudly and animatedly communicating with each other..
Another vital aspect of the research is poop scooping. As soon as the whales had gathered round the boat, Charlotte slid into the water with her scoop net… the cloudy poop yields a mass of information about an individual creature. I wrote about this interesting job, often tasked to interns (who practice with coffee grounds) in‘FAMILIAR FECES’.
Charlotte expertly wields the poop scoop
Then, all too soon, it was deep dive time. The whales moved off from the boat and slowly, without show or splash, disappeared. And we went to investigate HOLE-IN-THE-WALL at close quarters. The next post will feature an adult male Blainville’s beaked whale, with his massive barnacle-encrusted teeth protruding upwards from his lower jaw.
The remains of a neat and undramatic deep dive
In this very short video of two whales right by the boat: you can actually hear their breathing.
BMMRO research RHIB with Diane BMMRO HQ, Sandy Point, Abaco
Credits: All photos RH; Charlotte & Diane for a brilliant day out; Mr Blainville for a brilliant whale
CARIBBEAN REEF SQUID: SUPERPOWERS & SEX LIVES REVEALED
The Caribbean reef squid Sepioteuthis sepioidea is a small squid species of the Caribbean Sea and the Floridian coast. Its fins extend nearly the whole length of the body and undulate rapidly as it swims. Recently, it has been discovered that this squid is capable of brief flight out of the water.
Reef squid tend to form small shoals in and around reefs. It is by far the most common squid species in its range, and can be sighted both close to the shore and quite near the surface (although that increases the risk of predation by seabirds).
A silvery squid swimming just below the surface
Squid are voracious eaters, dragging their prey to their mouths and using a beak to cut it up. Their target species are small fish, molluscs and crustaceans. They have a ‘raspy tongue’ known as a radula which further breaks up the food for easy consumption.
Squid at Fowl Cay Marine Preserve, Abaco
SQUID SUPERPOWERS (SUPERCOOL)
Squid can change colour, texture and shape
This enviable power is used defensively as camouflage or to appear larger if threatened
It is also used in courtship rituals, something that humans would find most disconcerting
Colour patterns are also used for routine squid-to-squid communication AND GET THIS:
A squid can send a message to another on one side, and a different one to a squid on the other
SQUID SEX (1) “ROMANCING THE SQUID”
A male will gently stroke a female with his tentacles
The female will (most likely) flash an ‘alarm’ pattern
The male soothes her (don’t try this at home, guys) by blowing and jetting water at her
If he’s not getting on well, he’ll move off and repeat the routine until she sees his good points
However this on / off courtship can last for hours until at last he succeeds by…
…attaching a sticky packet of sperm onto the female’s body (romance is not dead)
She reaches for it and moves it to her “seminal receptacle”
Meanwhile he stays close, emitting a pulsing pattern, as well he might after all that
She then finds a safe place to lay her eggs. Job done.
SQUID SEX (2) IT ALL ENDS BADLY
As soon the female squid has laid her eggs, she dies at once
The male squid live a bit longer, and may have other packets to stick – then he dies too
It’s all horribly reminiscent of Romeo and Juliet. Without the balcony scene.
USES OF SQUID ON ABACO
Squid are prolific in the seas around Abaco, which is fortunate because they form a large part of the diet of some whale species, particularly the Blainville’s Beaked Whales that are commonly found in Abaco waters. I have a post on these magnificent creatures in preparation right now, and am in the process of sorting out suitable photos from a large number taken during a research expedition in March.
More Squid at Fowl Cay Marine Preserve, Abaco
Credits: As ever (for underwater pics) Melinda Riger of Grand Bahama Scuba; also Ellen Sokol of Kiskeedee Sailing Charters, who kindly sent me the Fowl Cay photos; also Ed Brown, Clark Anderson and Nick Hobgood for ‘open-sourcing’ their great images
This ‘WTF?’ series started with a relatively conventional species, the REMORA. It has been getting progressively more bizarre. We moved onto an omnium gatherum of WEIRDO FISHES, then the remarkable LETTUCE SEA SLUG, and most recently the BATFISH. Time to ramp up the stakes: with many thanks to scuba expert Adam Rees for use permission for his terrific photos, I present… the FROGFISH.
The frogfish is a kind of anglerfish found in almost all tropical and subtropical oceans and seas. There are about 50 different species worldwide, covering an astonishing range of strange appearances. They generally live on the sea floor around coral or rock reefs. In size they vary from tiny to about 15 inches long – although ‘long’ is a flexible concept because they are to an extent shape-changers in height and width.
FROGFISH SUPERPOWERS YOU MAY WISH TO HAVE
INVISIBILITY CLOAK . Frogfish are masters of disguise and camouflage. This enables them to catch their prey with minimal effort and also to avoid predators. Their camouflage methods – broadly known as ‘aggressive mimicry’ – include
Ability to change colour for days or even weeks to mimic their surroundings
Getting covered in algae and other organic matter that matches their habitat or
Looking inherently like a plump rock or in some cases, plant
Fear for the life of the spider crab…
IRRESISTIBLE ATTRACTION (just like that nice Mr Grey)
A sort of frontal dorsal fin called an illicium to which is attached a
Lure called an esca which may mimic a worm, shrimp or small fish etc and which is
Retractable in many species and
Regenerates if it gets mislaid
The ‘dollop of cream’ thing is the esca. Note the characteristic large mouth
Spot the esca…
BUOYANCY CONTROL & SHAPE-SHIFTING
Most frogfish have a ‘gas bladder’ to control their buoyancy.
Some species can change shape or even inflate themselves by sucking in quantities of water in a so-called defensive ‘threat display’.
HOW DO FROGFISH REPRODUCE?
Although not conventionally attractive creatures, frogfish clearly manage to reproduce. Little is known about the techniques in the wild, but one is probably ‘with care’, especially for a male frogfish who may not survive for long if he hangs around after fertilisation has taken place. It has been noted that females tend to select far smaller males to fertilise their huge numbers of eggs, perhaps for that very reason.
FROGFISH FEEDING SKILLS – GOOD OR BAD?
When deploying the lure, potential prey that comes too close to that wide mouth stands no chance. A frogfish will strike in a fraction of a second. Frogfishes have voracious appetites for crustaceans, other fish, and even each other. I can do no better than borrow this vivid description of a feeding frogfish:
“When potential prey is first spotted, the frogfish follows it with its eyes. Then, when it approaches within roughly seven body-lengths, the frogfish begins to move its illicium in such a way that the esca mimics the motions of the animal it resembles. As the prey approaches, the frogfish slowly moves to prepare for its attack; sometimes this involves approaching the prey or “stalking” while sometimes it is simply adjusting its mouth angle. The catch itself is made by the sudden opening of the jaws, which enlarges the volume of the mouth cavity up to twelve-fold, pulling the prey into the mouth along with water. The attack can be as fast as 6 milliseconds. The water flows out through the gills, while the prey is swallowed and the oesophagus closed with a special muscle to keep the victim from escaping. In addition to expanding their mouths, frogfish can also expand their stomachs to swallow animals up to twice their size.“
HOW DO FROGFISHES GET AROUND? SWIM? WALK? CRAWL?
Frogfishes do not in fact move around a great deal. Using their camo advantages, they prefer to lie on the sea floor and wait for prey to come to them. As mentioned in the quote above, they may slowly approach prey using their pectoral and pelvic fins to “walk” along the sea bottom. They can swim using their tail fin (or in some species by simple ‘jet propulsion’ by forcing water out of their gills) but rarely do so – they don’t feed on the move, and they are adapted to the sea floor environment where they food is readily available. However their “walking” ability is limited to short distances.
DO FROGFISH HAVE OTHER COLOUR SCHEMES?
Indeed they do. In stark contrast to the camo species, some frogfishes are highlighter bright. Here are two of my favourite photos by Adam that show this clearly. I’ve no idea if these are a male and female. I suspect they are different species. I think the brown one is a striated frogfish and the other is… a yellow frogfish. Some people keep these creatures in aquaria, but apparently it is impossible to sex them, and they have to be kept on their own for everyone’s peace of mind…
FROGFISH INFOGRAPHICS
FROGFISH VIDEOS
These two videos, from Lester Knutsen and Daan Van Wijk respectively, show some of the characteristics I have written about above. Both are short and both are fascinating.
To read more about frogfishes and for some fabulous photos I highly recommend the websiteFROGFISH.CHYou can reach the main page(s) but the link seem to be broken so I have not been able to contact Teresa Zubi, whose site it is. She clearly has a sense of humour and uses a neat pair of gifs which I hope she won’t mind my using…
Credits: All main photos, Adam Rees of Scuba Works with many thanks; wiki for ‘spot the esca’, red quote & basic info; videos Lester Knutsen & Daan Van Wijk; Teresa Zubi for website & gifs; infographics, authors u/k
I’ve been neglecting the moray eels. It’s ages since I did a post about them, and it’s time to put that right. Specifically, time to take a look at Spotted Morays Gymnothorax moringa. These eels can grow up to 2 meters, and live mainly in the sub-tropical waters of the Atlantic. They are solitary creatures, most often seen with just their heads protruding from holes and fissures reefs and r0cks. They have interesting dental arrangements (see below) and their bite is one that, all things being equal, is probably best avoided… Here’s what to look for.
ADULT SPOTTED MORAYS
TOOTHSOME CRITTERS (FANGS FOR THE MEMORY…)
WICKLE BABY MORAY. MORAYKIN?
Photo credits: all amazing photos courtesy of Melinda Riger of Grand Bahama Scuba; Props to ‘Earl the Eel’ who appears in some of them!
ROLLING HARBOUR ABACO 
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