During chase scenes, movie protagonists often make their getaway by releasing some sort of decoy to cover their escape or distract their pursuer. But this tactic isn't reserved for action heroes - some deep-sea animals also evade their predators by releasing decoys - glowing ones.
Karen Osborn from the Scripps Institute of Oceanography has discovered seven new species of closely related marine worms (annelids) that use this trick. Each species pack up to four pairs of "bombs" near their heads - simple, fluid-filled globes that the worms can detach at will. When released, the "bombs" give off an intense light that lasts for several seconds.
The worms were collected from the Pacific Ocean by remote-controlled submarines. Unfortunately, the small size of the bombs and the low resolution of the sub's cameras meant that Osborn was never able to film the worms actually releasing their glowing payload in their natural environment (although she did capture some great videos; see bottom of post).
Nonetheless, the specimens she recovered would indeed launch one or two bombs, when they were prodded on any part of their body. If she prodded them further, they would release more bombs, until they ran out. The fact that some worms also carried much smaller globes suggests that they can regenerate them once their supply is exhausted.
Osborn thinks that these structures are most likely used in defence, although without actually seeing the reactions of predators, that's still to be confirmed. The fact that the worms release their bombs when they're touched on any part of their body certainly supports a role in defence, as opposed to courtship.
Besides, other worms glow in defence too. Some do so when startled. One luminous species (Eusyllis bromstrandi) switches off the lights on its head when threatened, but keeps its rear end glowing to shift a predator's attention to less important bits of anatomy. Other animals, including a brittle star (a type of starfish) and a squid, release luminescent fluid to cover their escape.
Of Osborn's new species, the smallest ones are about the length of a fingernail and the longest are about the length of a finger. Their flanks are lined with rows of bristled fans that act as oars, beating in mesmerising waves to propel the worms along. Thanks to these oars, the worms are excellent swimmers that can move both forwards and backwards, an ability that has given them the genus name of Swima. As Osborn says, this discovery emphasises how little we know about the deep sea, and how much there is left to discover.
Reference: Science 10.1126/science.1172488
Images copyright of Karen Osborn and AAAS/Science; videos copyright of MBARI
More on luminescence:
Glowing squid use bacterial flashlights that double as an extra pair of "eyes"
Single gene allows glowing bacteria to switch from fish to squid
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The photographs are amazing. The videos were interesting but I didn't see any release of the glow "bombs"--or did I miss something?
That is the coolest motherfucking thing I've heard all day!
Has anyone looked closely at the contents of these so called bombs? If would be interesting if they were filled with, oh ... I don't know ... perhaps a tasty but gummy substance that the the fish liked but momentarily interfered with the fishes ability to eat. Or a compound that made the fish feel full. Perhaps a hormone that shifted the attention of the fish to mating. I would think it wouldn't be a poison or something that was aversive. You want the fish to go after them.
It would be interesting to closely analyze what is in those bombs. Maybe they are just a visual distraction and that is all there is to them but it seems to me that serving tasty snacks for the enemy is a wide open opportunity to mess with their sensory systems and behavioral cues.
Lilian - no, no videos of bomb release. Yeah, I was disappointed too.
Art - interesting idea. What I've written is all there is at the moment. These species are entirely new to science. Lots more to discover - including how exactly the luminescence is triggered once the bomb is released.
Is it just me, or do they look like anomalocarids?