Scuba Diving

Blue-ringed Octopus: cuteness with a twist

/ Maarten De Brauwer / 2 Comments

I am definitely not the first person to write about the Blue-ringed Octopus, and once you’ve seen one for yourself it is quite understandable that people get excited about them. Blue-ringed Octopus are probably one of the only invertebrates you can call “cute”. With their small size, interesting behaviour and iridescent blue rings they look like something out of a cartoon. Add the intriguing fact that these animals are also one of the world’s most venomous animals, and it becomes logical that people are interested in these critters.

Blue-ringed Octopuses are several species in the genus “Hapalochlaena“, depending on which source you check, there are anything between 3 to 10 species. They are all small octopuses, with the biggest one (Hapalochlaena maculosa) growing to only 15cm (body + arms). They are found from the centre of the Indian Ocean to the west of the Pacific Ocean. While their colours might make you think they belong in similarly colourful tropical reefs, they are actually more frequently found in the temperate waters of southern Australia.

A fact that is repeated very often is just how venomous these little guys are. So I won’t spend too much time on it here, but if you want to read more about it check out this link to learn all about the technical toxic details. The short version is: if you get bitten, you’d better hope to have someone nearby who is highly skilled in CPR. One of the more fascinating effects that occur when bitten is “locked in syndrome“, where you appear to be dead, but are actually still aware of what is going on. If that and near-certain death doesn’t stop people from harassing them to get a nice picture, I don’t know what will 😉 .

The most conspicuous features of the Blue-ringed Octopus, its blue rings, are actually hardly visible for most of the time. When you find one while diving and you don’t bother it too much, they look like any other well camouflaged octopus. The blue rings are a warning signal they only show when spooked or threatened. The mechanism of how they show those rings is a really neat one. The rings are pigmented cells that are usually covered by muscles that are contracted above them. It is only when the octopus relaxes those muscles that the blue rings show. Like a blanket that’s pulled away when unveiling a work of art. For more details, check out this paper.

One of the most interesting things I could dig up about this critter is about the way they mate. It turns out that Blue-ringed Octopuses can’t tell the difference between males and females! Males will try to mate with any other Blue-ringed Octopus they encounter, pouncing (that’s the technical term, trust me) on the potential partner and inserting their hectocotylus into the mantle cavity of the partner. It’s only after they insert this modified mating arm into the other octopus, that they can tell if their partner is in fact female or not. If the partner turns out to be another male, they amicably part ways, no harm done. In case they get lucky and their partner is a female, the male clings on for a long time: usually more than 90 minutes, but sometimes to over 4 hours! As a matter of fact, it seems the male tries to hang on as long as the female allows it, only breaking contact when forcefully removed by the female. If you are interested in the love life of small octopuses, you can read the original study here.

There is a lot more to find out of the Blue-ringed Octopus, such as the very basic question “How many species are out there?”. Considering that this animal is one of the most popular critters in muck dive tourism, it is surprising how little we really know about them. For my research I mostly look at fish, though I am always on the lookout to see what the best places are to find and study other interesting species. So who knows, I might just have a closer look at them in the future.

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Photo: Maarten De Brauwer

New publication: For clownfish sharing means caring

/ Maarten De Brauwer / 1 Comment

Best of Bali_Clownfish and Periclemens shrimp_MDBWhile I am currently immersed in an amazing project investigating muck critters, I have done research on more conventional fish in the past. One of those conventional fish, is the ever popular clownfish (aka “Nemo”). Clownfish might not be quite as amazing as Frogfish or Rhinopias, but they are pretty interesting and funky fish nonetheless.

Last week the research I did 2 years ago in Wakatobi got published. When I write the research “I” did, what I really mean is the research my good friend Emma Camp and me did with the help of a great bunch of people of Operation Wallacea. Besides these great people, there were some terribly clever people from the University of Essex and Curtin University who helped to make this a really neat paper. If you are interested, you can find the paper here,  but I’ll assume you haven’t got much time so here is the short version of what we found out.

As you probably know, clownfish live in anemones. What you might not realise is that there are 28 species of clownfish and only 10 species of anemones that can be used as a “host” (aka house). Usually you’ll only find one species of clownfish per host anemone. In places where lots of different species of clownfish live, you would expect a fierce competition for their hosts. But what we found in the Coral Triangle, is that clownfish instead share their hosts. The higher the diversity, the more often clownfish share their host anemones. What this means is that house sharing helps to create and sustain the high diversity we find in the Coral Triangle.

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Amphiprion melanopus (large fish) and A. perideraion (small fish) sharing an anemone

What is more, the species that shared their anemones were less aggressive towards each other than in anemones with only one species. This is probably because different species don’t have to compete over mates or (in some cases) over food, a win-win for all fish involved. After all, anyone who ever shared a house knows it’s easier to get along when  you don’t steal each other’s food or partner.

If you want to read more about this research, you can have a look at the media release or this summary. Or you can ask me whatever you want about it in comments below, certainly in case you can’t access the original paper. I’m planning to add a publications section to this blog in the near future, so stay tuned.

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Amphiprion melanopus (large fish) and A. perideraion (small fish) sharing an anemone

 

 

Mandarin madness

/ Maarten De Brauwer / 2 Comments

My last trip to Komodo was a successful one, not only because of the data I collected or the nice group on the boat, but also because I managed to have a good look at two very elusive critters, one of them a first! I had seen Mandarinfish (Synchiropus splendidus) before, but this was the first time I had a proper look at a Picturesque Dragonet (Synchiropus picturatus).

Mandarinfish (Synchiropus splendidus)
Picturesque Dragonet (Synchiropus picturatus)

Both species are closely related Dragonets belonging to the genus Synchiropus. They are exquisitely coloured, which makes them big hits both with divers and marine aquaria hobbyists. The colours and patterns of the picturesque dragonet have earned it the synonym of “psychedelic mandarinfish” or even “LSD-fish” in German! Of the two, the mandarinfish is best known to divers, probably because it is found more frequently in areas where divers are likely to dive, unlike its psychedelic sister-species.

Both species are found in the Indo-West Pacific, they range from the south of Japan to the north of Australia. The best places to spot them are Indonesia and the Philippines. They are found in sheltered lagoons, usually in areas with coral rubble. You can also find mandarinfish in stands of branching corals. Picturesque dragonets are more frequently found in areas with silty bottoms close to mangroves. Both species are shallow water fish that are rarely seen deeper than 20m.

The best time to see mandarinfish is at dusk or late in the afternoon on overcast days. At these times the fish come out of hiding to spawn. Both species live in small social groups which usually consist of a male and a few females. The males are easily recognized by their larger size and long dorsal fin.

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Two Picturesque Dragonets (female in the front, male at the back)

As is the case with many secretive critters, we don’t know very much about them. The things we do know show that there is more to them than just a pretty face. For example, they secrete a thick mucous that might even contain toxins. According to the literature, this mucous smells bad and tastes bitter, which makes me wonder exactly how they found this out 😉 Regardless of research methods, this toxicity means that the highly visible colours could in fact be a warning signal to potential predators, much in the way nudibranchs advertise their toxicity. For those interested in impressing their fellow divers, this trick is called “aposemetic colouration“.

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Mandarinfish – a fierce predator?

Mandarinfish are tiny carnivorous fish, which feed on tiny prey. Too bad they are so small, just imagine how much fun it would be to see a great white shark in the colours of a mandarinfish?!? Until the day an evolutionary trip-up creates a giant mandarinfish stalking the oceans, they feed mainly on small crustaceans, small molluscs and fish eggs. Which might be more convenient for the many people that keep these small fish in aquariums.

And make no mistake about it, both species are VERY popular in the marine ornamental trade. Research in Batasan Island (near Bohol) in Philippines showed that in 2000, between 1800 to 2400 mandarinfish were exported per month! If you have ever searched for mandarinfish while diving, those numbers will seem even more impressive. Fishermen usually catch the fish with miniature spearguns, since other methods are not as successful. This method obviously inflicts damage on the fish, often leading to the fish dying either shortly after being caught or during transport to aquariumshops. Another problem with catching mandarinfish for the aquariumtrade is that people prefer larger fish. A trend that causes the larger males to disappear first, which can in turn lead to reduced reproduction rates for the remaining fish.

These lovely critters might be very popular with aquarium enthusiasts, unfortunately they are difficult to keep alive in a tank. The fish require specific food and shelter, lack of those are the cause of many mandarinfish dying shortly after they’ve been bought by their new owners. There have been some reports of mandarin spawning in tanks, but raising the larvae to healthy adults is still difficult. As far as I could find, the vast majority of mandarin fish sold in aquarium shops are still caught in the wild, which might have a big impact on fish populations in the ocean.

Might have a big impact, since we don’t really know. Neither species has been assessed by the IUCN, so we don’t know if populations are in decline and if they are at risk of extinction. So until we do, enjoy looking for them during your dives, but think twice before buying one!

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Fieldwork 2.0

/ Maarten De Brauwer / 1 Comment

It’s that time again, after a few months of hiding behind my computer I’m starting the second big fieldwork season to collect data! I just arrived in Bali to sort out the last preparations for what will hopefully be a productive three and a half months of data collecting. I’m pretty excited about this trip, as I will be visiting some amazing places again where I’ll be working with great people!

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Home for the next 2 weeks

It all kicks off early tomorrow morning, when I’m leaving on a liveaboard trip to Komodo for two weeks. Safari Bali has once again kindly offered me a place on the Sea Safari VII, so I should be very comfortable while I’m trying to find frogfishesghostpipefishes and maybe the occasional manta ray or dragon. Once I get back from Komodo, I’ll be spending a fair bit of time in Bali again before heading to Lembeh Strait. The main thing I’m trying to figure out in Indonesia this year, is which human factors have the biggest impact on muck critters.

Like last year, I will again be doing presentations about marine biology and having long conversations with divers while I’m on the boat and staying at dive resorts. Some people might see this as a time consuming interruption of valuable research-time, but I really enjoy this aspect of my fieldwork. I feel it’s important as a researcher to share what you are doing with people who aren’t in academia themselves. What would the point be of all the work we do, if only a very select group of other researchers get to know about it?

ADEX

Which is why I am looking forward to the next stop after Lembeh: ADEX in Singapore. ADEX is the largest dive expo in Asia, with thousand of divers coming over to try to decide where to go for their next trip or what the newest trends are in the scuba diving world. I am very excited to have been invited to give a few talks about my research. In line with the theme of ADEX this year (Seahorses), I’ll be talking about pygmy seahorses, which I haven’t really done yet on this blog…

For the final leg of this trip I am heading back to Dauin in Philippines. Those of you who have been following the blog, will understand that I am rather happy that my good friend Luke (aka the Science Hobbit) is joining me again! Together we will be trying to figure out the best methods to study newly settled (=baby) critters. If you want to know how we’re planning to achieve that and whether or not we’ll succeed, keep an eye on the blog 😉

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Baby frogfish (A. pictus), finger for scale