Nothing square about the seahorse’s tail

In seahorses, the sperm-producers are also the ones that get pregnant.

In seahorses, the sperm-producers are also the ones that get pregnant.

Published Jul 3, 2015

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London - It is perhaps the most unusual feature of a most unusual animal, but scientist believe they can now explain how the seahorse got its square tail.

Experiments with plastic 3D printed tails of the marine animal have revealed that its 36 square segments not only provide a better grip on seaweed and corals, they are stronger and more robust than the more common rounded tails of other creatures.

The square, overlapping segments that make up the tails of seahorses - which are actually fish - are highly unusual in the animal kingdom and scientists have long speculated on the advantages they might confer on the animal.

“Almost all animal tails have circular or oval cross sections, but not the seahorse's. We wondered why,” said Michael Porter, a mechanical engineer at Clemson University and the lead investigator on the study published in the journal Science.

“We found that the squared-shaped tails are better when both grasping and armour are needed,” Dr Porter said.

Tests on plastic segments made by a 3D printer revealed that square components make the tail mechanically stiffer, stronger and more strain-resistant compared to more normal cylindrical tails, which is useful if one of your main predators are wading birds that like to crush you by the tail.

The researchers found that when the seahorse's square-segmented tail is crushed, the bony plates tend to slide past one another, acting as an energy-absorbing mechanism, which in real-life situations would protect the vital spinal column from being fatally damaged.

When the pressure on the square tail was released, the segments quickly snapped back into their normal position with little use of energy.

Another series of tests showed that the seahorse design makes for a firmer and stronger grip on anchored objects compared to a rounded tail, they said. When they tried to twist the square tail when wrapped around an object, it resisted the movements more than a tail made of rounded segments.

The findings are already being used as the basis for new designs in robotics and medical devices that have to move around organs and bones but still have the strength to accomplish a surgical operation, said Ross Hatton of Oregon State University.

“We found that this square architecture provides adequate dexterity and a tough resistance to predators, but also that it tends to snap naturally back into place once it's been twisted and deformed,” Dr Hatton said.

“This could be very useful for robotics applications that need to be strong, but also energy efficient and able to bend and twist in tight spaces,” he said.

“Human engineers tend to build things that are stiff so they can be controlled easily, but nature makes things just strong enough not to break, and then flexible enough to do a wide range of tasks.

“That's why we can learn a lot from animals that will inspire the next generations of robotics,” he said.

The Independent

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