Natures wonders: remoras hitch rides on whales (Introduction)

by David Turell @, Wednesday, October 28, 2020, 23:02 (1485 days ago) @ dhw

They use the Venturi principal and/or low drag areas on the whale:

https://phys.org/news/2020-10-international-uncovers-secret-surfing-life.html

"Sticking to the bodies of sharks and other larger marine life is a well-known specialty of remora fishes (Echeneidae) and their super-powered suction disks on their heads. But a new study has now fully documented the "suckerfish" in hitchhiking action below the ocean's surface, uncovering a much more refined skillset that the fish uses for navigating intense hydrodynamics that come with trying to ride aboard a 100-ft. blue whale (Balaenoptera musculus).

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"The study shows the secrets behind the remora fish's success in hitchhiking aboard baleen whales more than 30 times their size to safely traverse the ocean—they select the most flow-optimal regions on the whale's body to stick to, such as behind the whale's blowhole, where drag resistance for the fish is reduced by as much as 84%. The team's findings also show that remoras can freely move around to feed and socialize on their ride even as their whale host hits burst speeds of more than 5 meters per second, by utilizing previously unknown surfing and skimming behaviors along special low-drag traveling lanes that exist just off the surface of the whale's body.

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"According to the team's measurements, Anderson says that the shear force experienced by an average-sized remora in the wake behind the blow hole of a whale swimming at the casual speed of 1.5 m/s can be as low as 0.02 Newtons, half the force of drag in the free stream above. However, Anderson notes that the average remora's suction force of 11-17 Newtons is more than a match for even the most intense parking spot on the whale, its tail, where the remora experiences roughly 0.14 Newtons of shear force. And though the forces are greater, the same is true even for large remora riding on whales swimming at much higher speeds.

"'We learned that the remora's suction disk is so strong that they could stick anywhere, even the tail fluke where the drag was measured strongest, but they like to go for the easy ride," said Erik Anderson. "This saves them energy and makes life less costly as they hitchhike on and skim over the whale surface like a NASA probe over an asteroid or some mini-world."

"The tags showed that to conserve energy while getting about on their floating island, the remoras take advantage of the whale's physics by surfing inside a thin layer of fluid surrounding the whale's body, known as a boundary layer, where the team found drag force is reduced by up to 72% compared to the much more forceful free stream just above. Flammang says the fishes can lift within 1cm from their host in this layer to feed or join their mates at other low-drag social spots on the whale, occasionally changing directions by skimming, or repeatedly attaching and releasing their suction disks on the whale's body.

"Flammang suspects that remoras are able to move freely without being completely peeled from their speedy hosts, which can move nearly seven times faster than the remora, through something called the Venturi effect.

"'The skimming and surfing behavior is amazing for many reasons, especially because we think that by staying about a centimeter off the whale body, they are taking advantage of the Venturi effect and using suction forces to maintain their close proximity," explained Flammang. "In this narrow space between the remora and whale, when fluid is funneled into a narrow space it moves at a higher velocity but has lower pressure, so it is not going to push the remora away but can actually suck it toward the host. They can swim up into the free stream to grab a bite of food and come back down into the boundary layer, but it takes a lot more energy to swim in the free stream flow.'"

Comment: How this developed raises the usual chicken and egg issue. How did the sucker develop in a stepwise manner? More likely it was there from the beginning, meaning it was designed.


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