Scientists Unlock the Secret to Ultra-Black Skin of Deep-Sea Fish

One specimen of the ultra-black fish species Anoplogaster cornuta.
One specimen of the ultra-black fish species Anoplogaster cornuta.
Image: Karen Osborn, Smithsonian

New research shows how some deep-sea fish, with their specialized, ultra-black skin, are able to avoid detection even in the presence of light.

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Certain black-skinned fish, like dragonfish and fangtooth, are capable of absorbing more than 99.5% of light that reaches them, according to new research published today in Current Biology.

So even in the presence of bioluminescent organisms, these ultra-black fish can avoid detection, appearing as vague silhouettes with indiscernible forms. As the new research shows, this extreme form of camouflage is made possible owing to the shape and configuration of highly specialized structures on the fishes’ skin.

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“If you want to blend in with the infinite blackness of your surroundings, sucking up every photon that hits you is a great way to go,” said Karen Osborn, a co-author of the new study and a research zoologist at the Smithsonian National Museum of Natural History, in a Smithsonian press release.

The ultra-black ridgehead (Poromitra crassiceps).
The ultra-black ridgehead (Poromitra crassiceps).
Image: Karen Osborn, Smithsonian

Osborn became interested in ultra-black fish after she tried to photograph some specimens. Regardless of how she set up the camera or lighting, “they just sucked up all the light,” she said.

To better understand this stealthy trick, Osborn, along with co-author Sönke Johnsen from Duke University, embarked on expeditions to Monterey Bay and the Gulf of Mexico. At these locations, the team used trawling nets and a remotely operated sub to capture dozens of ultra-black fish at depths reaching a mile.

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With a spectrometer, the researchers measured the amount of light reflecting off their skin, which is among the blackest organic materials now known. Incredibly, these fish reflect less than 0.5% of the light that reaches them, making them practically invisible even when in the presence of bioluminescent light. Equipped with this ultra-black camouflage, the fish appear around 20 times darker than ordinary black objects, allowing them to avoid detection at close distances.

The ultra-black Pacific blackdragon (Idiacanthus antrostomus), the second-blackest fish studied by the research team.
The ultra-black Pacific blackdragon (Idiacanthus antrostomus), the second-blackest fish studied by the research team.
Image: Karen Osborn, Smithsonian
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The Pacific blackdragon (Idiacanthus antrostomus)—the second-blackest fish studied—combines its ultra-black camouflage with a bioluminescent lure, which attracts prey. Without their ultra-black skin and transparent, anti-reflective teeth, the glowing lures would frighten prey away, according to the scientists.

The researchers identified a total of 16 species with this ultra-black skin, including a tiny anglerfish capable of absorbing 99.96% of incoming light, which is nothing short of astounding. With so many species having ultra-black skin, this is a good example of convergent evolution at work, in which unrelated species evolve identical traits.

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“Ultra-black arose more than once across the fish family tree,” said Alexander Davis, a biology Ph.D. student from Johnsen’s lab and the first author of the study, in a Duke press release.

Ultra-black skin, as the new research shows, is made possible by specialized melanosomes—tiny packages of pigment, called melanin, within the fishes’ skin cells. The shape of these particular melanosomes are unique compared to those found in ordinary black fish. Peering through these structures with an electron microscope, the researchers saw that the ultra-black melanomes were shaped like Tic Tacs, compared to the tear-drop shape found in regular black skin.

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The ultra-black melanosomes are packed tightly together and close to the skin surface, producing a continuous sheet that wraps around the fish’s body. In the skin of regular black fish, the melanosomes are separated by gaps without pigment. Computer models showed that the ultra-black melanosomes were in an ideal geometric configuration for reducing reflectance. Light that isn’t immediately absorbed is redirected toward neighboring melanosomes, which suck up the residual light.

“Effectively what they’ve done is make a super-efficient, super-thin light trap,” said Osborn. “Light doesn’t bounce back; light doesn’t go through. It just goes into this layer, and it’s gone.”

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Other examples of ultra-black camouflage exist in nature, including some butterflies and birds, which are only slightly less reflective than the deep-sea fishes noted in the new study. Interestingly, ultra-black materials created by humans exceed those conjured by nature, including a black material capable of absorbing 99.995% of incoming light.

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George is a senior staff reporter at Gizmodo.

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DISCUSSION

arcanumv
Arcanum Five

And do any of these ultra-black animals include spinaltappus in their taxonomic name? Seems like a missed opportunity if not.