Researchers Discover Switchblade-Like Defensive System in Stonefish

Discovery Redraws Family Tree of Stonefishes

Cleared and stained specimen of a Warty Prowfish (Aetapcus maculatus) for comparison to the X-ray. William Leo Smith

In dark alleys of the Pacific and Indian oceans, new research shows some of the deadliest, armored fishes on the planet are packing switchblades in their faces.

A study from the University of Kansas appearing in the journal Copeia details for the first time evolution of a “lachrymal saber” unique to stonefishes — a group of rare and elaborately dangerous fishes inhabiting Indo-Pacific coastal waters. The new finding rewrites scientific understanding of relationships among several groups of fishes and reveals a previously unknown defensive strategy — also, it likely will fuel a few nightmares.

“I don’t why this hasn’t been discovered before,” said William Leo Smith, associate curator at the KU Biodiversity Institute and Natural History Museum and KU associate professor of ecology & evolutionary biology. “It’s probably because there are just one or two people that ever worked on this group. We took five or six families and were able to resolve the problems in their classifications. To have this really strong anatomical feature visible from the outside is really helpful. To have a big map of how everything is related and evidence for it is what we’re all hoping for. We have this feature and get into the genetics of how it could have evolved.”

All stonefishes Smith examined in the study feature a mechanism he and his colleagues dub a “lachrymal saber” located on each cheek below the eye. Moreover, genetic analysis of 113 morphological and 5,280 molecular characters for 63 species reveals stonefishes possessing the lachrymal saber are closely related, producing a revised taxonomy of flatheads, scorpionfishes, sea robins and stonefishes.

New Discovery Redraws Family Tree of Stonefishes

X-ray of a whiskered prowfish (Neopataecus waterhousii). William Leo Smith

Smith and co-authors Elizabeth Everman of KU and Clara Richardson of The Field Museum in Chicago found the switchblade-like devices in the cheeks of stonefish involve specialized modifications to several bones and muscles: the circumorbitals, maxilla and adductor mandibulae.

Fifteen years in the making, the new research began when Smith was dissecting a stonefish that had been his own pet — he became the first researcher to understand the locking switchblade mechanism and how it worked anatomically.

“The outermost bone has a little peg, or a bump, or is heavily grooved. It is called the lachrymal and forms the bony ring around the fish’s eye, and the underlying bone looks like it has a roly poly bug on it and is called the maxilla, part of the upper jaw — in most land vertebrates the maxilla would be toothed,” said Smith. “This roly poly piece of the switchblade is the first thing I saw when I started dissecting and recognized this mechanism — these two roly poly things sit on top of each other and can ratchet at different levels. It can lock out all the way or can lock out at different places.”

To help the stonefishes deploy the switchblade, an unusually large number of muscles and ligaments attach to bones comprising the lachrymal saber system compared with species outside the stonefish family, according to the researchers.

“There can’t be any other reason for those muscles and ligaments except to control this mechanism,” said the KU researcher. “This whole group of fishes is called the ‘mail cheek fishes’ or Scorpaeniformes, where the bones under the eye attach to the gill skeleton. Because all these muscles are attached to the gill skeleton, it allows for all this force which causes the lachrymal saber to deploy.”

Family Tree of Stonefishes Redrawn

Lateral view of a cleared-and-stained specimen of the synanceiid Paracentropogon. Images highlight the (A) resting position of the lachrymal saber (arrow) along the side of the waspfish’s cheek and the (B) locked-out position where the lachrymal saber extends laterally from the specimen. The rotation of both the first and second circumorbital are visible in the lower image. William Leo Smith

Smith said the switchblade only added to an already impressive array of defensive features that rank stonefishes among the deadliest fishes in the ocean, including spikes, camouflages and some of the world’s most powerful venoms, which even could be fatal to an adult human being.

“Of all the fishes I’ve studied, I haven’t yet been stung by any of these stonefishes,” said Smith. “I’m just super paranoid. In some places they catch them for food — the big ones, they’re delicious — there is an aquaculture for larger ones in Indonesia. That’s mind-boggling to me. The venom breaks down in our digestive system. But people eat lots of venomous species all over the world, even in the U.S.”

Smith said the lachrymal saber is most likely an additional defensive system in stonefishes, to avoid predation.

“If you find pictures of these stonefishes in the mouths of other things, the lachrymal saber is always locked out,” he said. “The main thing people know about these fishes is they’re venomous. Some people know them because they have these fingerlike appendages and drag themselves around like they’re playing the piano; the appendages actually taste food as they go. These stonefishes can mimic leaves floating in the water — they’re super camouflaged. A lot of them have really bright pectoral fins on sides of their body, and when they’re scared they flash them — this drab fish will suddenly flash bright yellows and oranges. I always assume all of these features are defensive, but recent studies by other fish scientists suggest these could all be displays like a peacock.”

Some of the specimens examined as part of the study were collected in the pet-fish trade, and others during fieldwork in Taiwan during which the researchers used the enormity of the Taiwanese fishing industry to their advantage.

“We had a trip to Taiwan three years ago where we caught 1 percent of all fish species worldwide,” said Smith. “You can get deep-sea and shallow-water fish because it’s a volcanic island — and they send out a zillion boats to get shrimp — their fishing industry is supported like our agricultural industry. You don’t have to rent boats for research, you can sit on a dock and go through the fishes, they’re going to just grind up and essentially, so we can collect these samples for free.”

In addition to the specimens collected in the Indo-Pacific, to establish genetic relationships Smith relied upon a vast collection of fish tissue samples housed at KU’s Biodiversity Institute.

“We have the most diverse tissue sample collection in the world at the institute,” Smith said. “Some places have more individual tissues, but in terms of a diverse number of species, we have the largest.”

Publication: W. Leo Smith, et al., “Phylogeny and Taxonomy of Flatheads, Scorpionfishes, Sea Robins, and Stonefishes (Percomorpha: Scorpaeniformes) and the Evolution of the Lachrymal Saber,” Copeia 106(1):94-119, 2018; doi:10.1643/CG-17-669

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