Wednesday, October 28, 2015

Cadavers buoy idea our hands are for dexterity and fistfights

Male human brains have larger fluid-filled spaces that protect it from blows to the head.

http://www.eurekalert.org/pub_releases/2015-10/uou-dmp101615.php

Public Release: 21-Oct-2015
Dead men punching
Cadavers buoy idea our hands are for dexterity and fistfights
University of Utah

University of Utah biologists used cadaver arms to punch and slap padded dumbbells in experiments supporting a hotly debated theory that our hands evolved not only for manual dexterity, but also so males could fistfight over females.

"The idea that aggressive behavior played a role in the evolution of the human hand is controversial," says biology professor David Carrier, senior author of the study published online Oct. 21 in the Journal of Experimental Biology. "Many skeptics suggest that the human fist is simply a coincidence of natural selection for improved manual dexterity. That may be true, but if it is a coincidence, it is unfortunate."

"As an alternative, we suggest that the hand proportions that allow the formation of a fist may tell us something important about our evolutionary history and who we are as a species," Carrier adds. "If our anatomy is adapted for fighting, we need to be aware we always may be haunted by basic emotions and reflexive behaviors that often don't make sense - and are very dangerous - in the modern world."

Humans have shorter palms and fingers and longer, stronger, flexible thumbs compared with other apes. These features have been long thought to have evolved so our ancestors had the manual dexterity to make and use tools.

Carrier and his collaborators not only have argued our hands evolved partly for punching but that the faces of human ancestors, the australopiths, evolved to resist punching - and that human faces became more delicate as our violence became less dependent on brute force. The new study sought more experimental evidence for his theory using nine male cadaver arms purchased from the university's body donor program and from a private supply company.

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After hundreds of punches and slaps using eight arms (one was too arthritic), "our results suggest that humans can safely strike with 55 percent more force with a fully buttressed fist than with an unbuttressed fist, and with twofold more force with a buttressed fist than with an open hand slap," Carrier and his students write.

They add that the evolutionary significance of the hands of humans and their ancestors "may be that these are the proportions that improved manual dexterity while at the same time making it possible for the hand to be used as a club during fighting."

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Carrier emphasizes: "We are not proposing the only important things were natural selection for dexterity and for punching." Other possibilities include genetic drift - variation in hand proportions being lost among a small, isolated population - and unidentified genetic and developmental factors. Carrier notes that natural selection favored lengthening the big toe and shortening other toes so human ancestors could run more easily, and the same genes likely affected hand proportions as well.

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"Metacarpals are bones in the hand that break most often - not finger bones, but bones of the palm," Carrier says. "When guys get mad and punch a wall, or when bars close and they punch each other, the bones that break most often are the metacarpals."

Strain gauges to measure bone deformation - stretching and compression - were glued to the back-of-the-hand side of the metacarpals, usually the second metacarpal. The gauges measured stress on those hand bones during punches and slaps.

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Carrier's theory has been criticized harshly by some, with one well-known blogger calling it "bro science - dudes pummeling each other driving human evolution." Here are some criticisms and Carrier's responses:

-- Critics say that if the human hand is adapted for fighting, then the primary target of fists - the face - would have coevolved protective features. Carrier and colleagues argue that is what the fossil record indicates happened in burly human ancestors, the australopiths. In humans, "as our face became less massive, we also lost punching power" along with upper body size, Carrier says.

-- Skeptics say the idea the face evolved to resist punches ignores the nose. Carrier acknowledges "the nose is the one part of the face - in Homo, not australopiths - that is inconsistent with the idea that the face has evolved to be protected from punches. It sticks out. It is weak. But in great apes and australopiths it is flat. And in australopiths, all of the features of the face are consistent."

-- Many anthropologists argue that little historic and prehistoric evidence exists for fistfighting. Carrier says history shows the use of fists to strike was common in many human cultures, and the prehistoric record provides consistent ancient evidence.

-- Some people believe the human hand is too delicate to have evolved to be an important weapon. They say early humans would use sticks or rocks. However, Carrier says studies of assault injuries indicate that human fists are common, effective weapons, and that when humans fight, face bones break much more frequently than hand bones.

-- Critics argue that if men were adapted for fistfighting, our species would exhibit large rather than relatively small differences in body mass between men and women. Carrier counters that in terms of lean body mass and upper body muscular strength, such differences in humans are large. He adds that the male-female differences in hand and face shape and size are among the largest.

-- Critics of the "aggressive ape" theory of human evolution often argue that humans are by nature empathetic, cooperative and peaceful. Carrier agrees, but believes aggression played a key role in our evolution. [We tend to be empathetic, cooperative, and peaceful with our in-groups, not with those outside our group.]

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