Squid and their cephalopod brethren have been the inspiration for many a science fiction creature. Their slippery appendages, huge proportions, and inking abilities can be downright shudder-inducing. (See: Arrival.) But you should probably be more concerned by the cephalopod’s huge brain—which not only helps it solve tricky puzzles, but also lets it converse in its own sign language.
(From Wired / By Anna Vlasits)– Right now, you’re probably imagining twisted tentacles spelling out creepy cephalopod communiqués. But it’s not that: Certain kinds of squid send messages by manipulating the color of their skin. “Their body patterning is fantastic, fabulous,” says Chuan-Chin Chiao, a neuroscientist at National Tsing Hua University in Taiwan. They can display bands, or stripes, or turn completely dark or light. And Chiao is trying to crack their code.
Chiao got his inspiration from physiologist B. B. Boycott, who in the 1960s showed that the cuttlefish brain was the control center for changing skin color. Boycott copied his technique from neurosurgeon Wilder Penfield, who treated epilepsy patients by burning out the misbehaving bits of their brains. While their grey matter was exposed for surgery, Penfield also applied a gentle current through the electrodes in his patients’ brains. You know, just to see what would happen.
A zap in one spot above the ears caused a tingle in the left hand. In another spot, tingles in the leg. And so Penfield discovered that the sensory cortex is a homunculus, with specific brain areas mapping onto different parts of your body. Over time, scientists tried the electrical stimulation technique on all kinds of animals—including Boycott’s cuttlefish.
Chiao tried out the same thing in a related cephalopod, the oval squid—but he took it to the next level. In a paper published in the Journal of Neuroscience in January, he describes putting electrodes in a bunch of different parts of the optic lobe, stimulating them, and recording the resulting body patterns. “Those optic lobes are the mystery of the cephalopod nervous system,” says Roger Hanlon, a marine biologist at the Marine Biological Laboratory at Woods Hole.
When Chiao started out, he thought the optic lobe would be organized like the human cortex, with the pigment on different body parts correlating with different locations in the brain: a squidunculus. Not so. “When we finished the experiment,” says Chiao, “we looked at the data and it was really puzzling.” He’d poke in the left part of the optic lobe, and the squid’s mantle would turn black. Then, he’d poke in the right region—and the same thing would happen. It seemed like the squid’s body parts were represented in more than one spot in the optic lobe.
After Chiao and his student Tsung-Han Liu had stared at the data for a long time, a hypothesis began to emerge. The squid’s pigment cells are surrounded by muscles that stretch the pigment cells out or let them curl up. Instead of controlling body parts, the optic lobe controls those muscles. When Chiao stimulated in one spot, the squid’s mantle turned dark. Another spot, the mantle got thick, horizontal stripes. Another, the mantle got one thin vertical stripe.
Read the full article here: https://www.wired.com/2017/02/squid-communicate-secret-skin-powered-alphabet/?mbid=social_fb