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Evolution: Why are most of us right-handed?

2014-12-17 10:58:43

Jason G Goldman

Right-handed people are dominant worldwide but why? Jason G Goldman

investigates.

We humans don t typically agree on all that much, but there is at least one

thing that an impressive amount of us accept: which hand is easiest to control.

If you use one hand for writing, you probably use the same one for eating as

well, and most of us around 85% of our species prefer our right hands. In

fact, "there has never been any report of a human population in which

left-handed individuals predominate", according to archaeologist Natalie Uomini

at the University of Liverpool in the UK.

Lateralisation of limb use that is, a bias towards one side or the other

usually begins in the brain. We know that some tasks are largely controlled by

brain activity in the left hemisphere, while the right hemisphere governs other

tasks. Confusingly, there is some crossing of nerves between the body and the

brain, which means it s actually the left side of the brain that has more

control over the right side of the body and vice versa. In other words, the

brain s left hemisphere helps control the operation of the right hand, eye, leg

and so on.

Some argue that this division of neurological labour has been a feature of

animals for half a billion years. Perhaps it evolved because it is more

efficient to allow the two hemispheres to carry out different computations at

the same time. The left side of the brain, for instance, might have evolved to

carry out routine operations things like foraging for food while the right

side was kept free to detect and react rapidly to unexpected challenges in the

environment an approaching predator, for instance. This can be seen in

various fish, toads and birds, which are all more likely to attack prey seen in

the right eye.

So it is possible (though hard to prove) that as our hominin ancestors began

walking on two legs rather than four, freeing up their hands to perform new

tasks like making tools, they were predisposed to begin using those hands

differently. Or, as cognitive scientist Stephanie Braccini and colleagues put

it in a Journal of Human Evolution study, "a strengthening of individual

asymmetry [may have] started as soon as early hominins assumed a habitual

upright posture during tool use or foraging".

In support of the idea, Braccini and her colleagues looked at handedness in

chimpanzees, and found that when the apes stand on all fours, they displayed no

real hand preferences. It was only when forced to assume an upright stance that

a lateral preference emerged although individual chimps in the study were

equally likely to be left-handed as right-handed.

Evidently, then, something else was needed to push early humans from a lateral

preference in general to the extremely high levels of right-handedness we see

today.

We know roughly when that change occurred from experiments in which researchers

made their own versions of ancient stone tools using either their left or right

hands to chip or knap the tool into shape, before comparing them with the

tools made by early hominins. Doing so suggests there is only limited evidence

that hominin toolmakers working more than 2 million years ago were primarily

right-handed.

However, stone tools that were made some 1.5 million years ago in Koobi Fora,

Kenya, by two ancient human species Homo habilis and Homo erectus do show

some evidence of species-wide right-handedness. And by the time a species

called Homo heidelbergensis had appeared, perhaps around 600,000 years ago,

there was a clear right-handed preference in prehistoric societies. Wear on the

preserved teeth of Homo heidelbergensis, for instance, suggest that food was

usually brought to the mouth with the right hand.

This tells us when that shift occurred, but not why. Some have argued that it

all comes down to language. Just as most people are right-handed a trait,

remember, controlled by the left side of the brain so do most people do the

bulk of their linguistic processing in their brain s left hemisphere. Indeed,

this left-brained specialisation for language is even more common than

right-handedness which might suggest that as the left hemisphere evolved for

language, the preference for the right hand may have intensified simply as a

side effect. This is called the Homo loquens hypothesis: lateralisation in

general was driven by the evolution of an upright, bipedal stance, while the

rightward preference was driven, some time later, by the evolution of language.

Right-handedness, then, may simply be an accidental by-product of the way most

of our brains are wired up. But proving the hypothesis is difficult, or even

impossible, since it would ideally involve running neurological tests on our

long-dead ancestors. The truth is we'll probably never quite know what the

sequence of events was that led our species to lean so overwhelmingly on the

right sides of our bodies and the left sides of our brains.

As for the left-handers out there? Take heart! According to a 1977 paper in the

journal Psychological Bulletin, "there is remarkably little evidence for any

association of left-handedness with deficit, as has often been suggested". In

fact, some research shows that left-handed folks might even have an easier time

recovering from brain damage. And their left hand seems to have the advantage

of surprise in a fight, which means they can be better at combat sports. All of

which suggests there are advantages to breaking from the norm.