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Fish can recognise human faces, study
finds
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 [July 21, 2016]
By Matthew Stock
Scientists have shown for the first time
how a species of tropical fish can distinguish between human faces. The
archerfish used in experiments could demonstrate the ability to a high
degree of accuracy; despite lacking the crucial neocortex part of the
brain which other animals use for sophisticated visual recognition.
The research, conducted by scientists from the University of Oxford and
Australia's University of Queensland, wanted to test the long-held
belief that differentiating between human faces could only be
accomplished by more sophisticated animals, such as primates.
The archerfish, found largely in Australia and southeast Asia, was
chosen for its ability to spit a jet of water; a technique it uses to
shoot down insect prey even above the water level.
In laboratory-based tests, an archerfish was presented with two
different images of human faces and trained to 'choose' one of them by
shooting a jet of water at it.
"We present them with different stimuli, and it can be a whole range of
different things. But what we do is we give them different options and
then we train them by giving them a food reward to select a particular
one. So this can give us a huge amount of information about what the
fish is able to see and how they do it," explained lead author Dr. Cait
Newport from the University of Oxford.
In subsequent tests, the archerfish were presented with the learned face
and a series of new faces. Researchers found that the fish could
discriminate one face from up to 44 new faces with up to an 81 percent
success rate. They were able to do this even when features such as head
shape and colour were removed from the images.
In her lab at the Department of Zoology, Newport demonstrated a similar
level of visual perception in her Picasso triggerfish. The brightly
coloured tropical fish were able to successfully pick out a black
coloured disc mounted on a board surrounded by white discs.
Newport said the lack of a neocortex in fish and the fact they have no
evolutionary need to recognise human faces makes the results of their
research all the more surprising.
"It [the brain] is very large in primates, and it's highly folded, so
there is a lot of different connections within the neurons happening in
the brain; fish entirely lack that. When you look at a picture of a
fish's brain it's only got what we consider the primitive sections of
the human brain which are underneath that highly folded neocortex. And
yet fish are still able to perform really complex behaviours; they can
do facial recognition as we showed, they also build social systems, and
there's some evidence of potential tool use," Newport told Reuters,
adding that the fish could be applying their pattern recognition ability
that evolved to detect aerial prey to the task of discriminating human
faces.
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The cognition demonstrated by fish sheds some light on their ability
to recognise and return to the same territory year after year for
breeding. This is something that could be under threat in the Great
Barrier Reef due to the current mass bleaching of coral reefs.
Bleaching occurs when the water is too warm, forcing coral to expel
living algae and causing it to calcify and turn white. Mildly
bleached coral can recover if the temperature drops, otherwise it
may die.
Australian scientists have said mass bleaching is likely to destroy
half of the northern coral. This could prove devastating for the
marine life there.
"These guys [the fish] are looking at colours and patterns and
textures. And if all of that is bleached… we don't know if they're
still going to be able to find their territories, their homes; we
don't know how that will affect how they detect predators or
potential prey," said Newport.
The study, published recently in the journal Scientific Reports,
suggests that complicated brains are not necessarily needed to
recognise human faces, even though subtle features need to be
identified in order to differentiate.
Newport added that the research provides evidence that fish have
much more impressive visual discrimination abilities than previously
believed.
"It is amazing what they can do with a really simple brain, as
humans like to call it. Although it seems a bit unfair to call it
simple - I think their brains are perfectly adapted to what they do
and that's what's important to remember about all this - brains can
look different, but they've evolved for different tasks," she said.
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