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Free will similar in animals, humans - but not so free

By Jason Palmer Science and technology reporter, BBC News

The free will that humans enjoy is similar to that exercised by animals as

simple as flies, a scientist has said.

The idea may simply require "free will" to be redefined, but tests show that

animal behaviour is neither completely constrained nor completely free.

The paper, in Proceedings of the Royal Society B, suggests animals always have

a range of options available to them.

"Choices" actually fit a complex probability but, at least in humans, are

perceived as conscious decisions.

The idea tackles one of history's great philosophical debates, and Bjoern

Brembs of the Berlin Free University brings the latest thinking from

neurobiology to bear on the question.

What has been long established is that "deterministic behaviour" - the idea

that an animal poked in just such a way will react with the same response every

time - is not a complete description of behaviour.

"Even the simple animals are not the predictable automatons that they are often

portrayed to be," Dr Brembs told BBC News.

However, the absence of determinism does not suggest completely random

behaviour either.

Experiments including Dr Brembs' own 2007 work with flies has shown that

although animal behaviour can be unpredictable, responses do seem to come from

a fixed list of options.

"Free will is not that lofty metaphysical thing that it was until the 1970s or

so," Dr Brembs said.

"More and more people are realising that it's a biological property, a trait;

the brain possesses the freedom to generate behaviours and options on its own."

The exact mechanism by which brains - from those of flies up to humans - do

that generation remains a matter for experiments to more fully prove.

Start Quote

There is no way the conscious mind, the refuge of the soul, could influence the

brain without leaving tell-tale signs; physics does not permit such ghostly

interactions

End Quote Christof Koch California Institute of Technology

Dr Brembs and others have used mathematical models to simulate brain activity

on a computer, finding that what worked best was a combination of deterministic

behaviour and what is known as stochastic behaviour - which may look random but

actually, in time, follows a defined set of probabilities.

This "stochasticity" shows up in, for example, earthquakes. While they cannot

be accurately predicted, a given fault will over time show earthquake timings

that neatly fit a curve.

As with animal behaviour, there is an underlying order and probability to a

process that may appear random.

"It is a probability, and that's as far as we can take it if we try to abstract

it from thinking," he explained.

"In thinking, we have all the options, and theoretically all the options have

the same probability attached to them. However, this is not how it's going to

turn out."

While we imagine having the option of choosing to walk off the edge of a cliff,

Dr Brembs said, it is an option that would only very, very rarely be chosen.

Dr Brembs said brains are likely to include mechanisms that can ramp up or down

the probabilistic element of the behaviour, depending on the situation at hand,

and that in sum, the whole system was an evolved survival strategy.

"The variability that is inherent in the behaviour is something that is a

prerequisite for survival in a competitive environment."

That is, a predator should not be able to always guess its prey's actions, but

the actions should not be so random as to include options even more dangerous

than the predator.

'Ghostly interactions'

The idea holds a certain currency in the world of neurobiology, but it is clear

that what is needed is more experimental results that match the mathematical

models.

Christof Koch, a biologist from the California Institute of Technology and

frequent author on topics of free will and biology, said that the work hits at

the heart of "one of the oldest problems in philosophy".

Fruit fly in test apparatus (B Brembs) Tethered fruit flies proved their

choices to be neither deterministic nor random

In writing about Dr Brembs' research, he suggested that "the strong, Cartesian

version of free will the belief that if you were placed in exactly the same

circumstances again, you could have acted otherwise is difficult to reconcile

with natural laws".

"There is no way the conscious mind, the refuge of the soul, could influence

the brain without leaving tell-tale signs. Physics does not permit such ghostly

interactions."

Professor Koch told BBC News that "it is entirely possible that 'indeterminism'

- under certain conditions - is a useful trait - but not usually: when you

drive your car at high speeds down the freeway, you want to be highly

deterministic."

Dr Brembs stressed that the current debate did not address the even stickier

debate about consciousness, its origins, or whether animals share it.

"I would not expect fruit files or worms to comtemplate their options; I would

think this is something that is clearly more built in than it is with us. But I

would then say that most of the decisions we're making are also built in," he

explained.

"[Free will as described in the paper] is a very low-level, necessary

prerequisite, but it's not even close to being sufficient for addressing things

like morality and responsibility.

"But without this very basic capability of choosing between options, we

wouldn't have to think about all the other things that come on top:

consciousness, upbringing and what have you."