14 September 2019 | New Scientist | 17LinguisticsPrimatology PalaeontologyTiming goes awry
on coral reefsClimate change seems
to be prompting corals
to spawn days or even
months out of sync with
each other. Releasing
their tiny eggs and sperm
bundles at different times
may be one reason why
coral reproduction has
been declining (Science,
doi.org/c983).Vegetarians have
healthier heartsEating a vegetarian diet
has been linked with a
22 per cent lower risk
of heart disease, but a
20 per cent increased risk
of stroke. Over a 10-year
period, vegetarians had
10 fewer cases of heart
disease per 1000 people
than meat eaters, but
three more cases of stroke
(The BMJ, doi.org/c984).Explosions made
the lakes of TitanSaturn’s largest moon
Titan is dotted with lakes
brimming with liquid
methane. We assumed
these formed by rocks
dissolving, but it turns
out the irregular shapes of
the lake basins are better
explained if they were
formed by explosions
(Nature Geosciences,
DOI: 10.1038/s41561-
019-0429-0).All languages get info
over at the same rateSPEECH conveys information at
the same optimal rate, no matter
what language we use.
François Pellegrino and his
team at the University of Lyon
in France analysed 17 languages,
from English to Japanese, that
vary greatly in terms of the
number of basic sounds, number
of syllables, use of tones and so
on. For instance, there are 7000
distinct syllables in English and
just a few hundred in Japanese.AN ARTIFICIAL intelligence that
detects, tracks and recognises
chimpanzees could help us fathom
their complex behaviour in the wild.
Arsha Nagrani at the University
of Oxford and her colleagues have
developed a facial recognition AI
that can detect and identify chimps
in video recorded in the wild. Using
it reduces the time and resources
needed to track animals.
The team trained the AI on
50 hours of footage of 23 chimps in
Bossou in Guinea, West Africa. This
yielded 10 million facial images. The
AI learned to continuously track and
recognise animals, says Nagrani.
It worked even on low-qualityimages and when the chimps
weren’t looking at the camera.
Overall identity recognition
accuracy was 92 per cent.
When faced with 100 random
still images, the AI had an accuracy
of 84 per cent, taking 30 seconds
to complete the task. Researchers
experienced in recognising the
chimps took 55 minutes and had
an average accuracy of 42 per cent
(Science Advances, doi.org/c958).
The system will allow researchers
to more efficiently examine how
behaviour and social interactions
vary over years and generations
to track changes in community
structure over time. Donna LuThe team worked out the
information density of each
language, in terms of bits of
information per syllable. This
varies from 5 bits per syllable for
Basque to 8 bits for Vietnamese.
Next, the team asked 10 native
speakers of each language to read
15 equivalent texts. What they
found was that while the speech
rate – in terms of syllables per
second – varied, those speaking
more information-dense tongues
speak more slowly, on average.
For instance, Basque was spoken
at a faster rate of 8 syllables per
second, on average, whileAncient worm had a
bit of get up and goAN EXTINCT creature that looked
like a cross between a millipede
and an earthworm was one of
the first animals that could move
under its own power.
Yilingia spiciformis was up to
27 centimetres long and 2.6 cm
wide. It had body segments, each
with two spiky appendages, so
looked a bit like an ear of wheat.
The fossilised remains, found in
China, are up to 551 million years
old. This puts it in the Ediacaran
period, when the first confirmed
multicellular animals appear in
the fossil record.
As well as fossils of Y. spiciformis,
the rocks also yielded 13 trace
fossils: tracks that were left by
the animals as they moved along
seabed sediment. One body fossil
was actually found right next to
its tracks, offering hard evidence
that Y. spiciformis was able to
move (Nature, doi.org/c959).
“It is the first segmented animal
that has been shown to be capable
of directional movement,” says
Shuhai Xiao at Virginia Tech.
Xiao says that Y. spiciformis isn’t
quite the oldest animal that could
move from A to B. “The first
mobile animal is probably about
565 million years old,” he says.
One such creature was the slug-
like Kimberella. Michael MarshallVietnamese was spoken at
5 syllables per second, making
the rate at which information is
conveyed similar for both (Science
Advances, doi.org/gf7jw3).
“There’s this pretty strong push
to go for an optimal information
rate,” says team member Dan
Dediu. “We all have similar brains
and similar articulatory organs, so
there are universal constraints.”
What is behind the constraints
isn’t clear. It might be to do with
the effort of speaking or of
understanding speech, or be
related to brainwave frequency,
says Dediu. Michael Le PageAI that tracks chimps will
help reveal their wild lives
TOM SHLESINGER
KYOTO UNIVERSITY, PRIMATE RESEARCH INSTITUTEReally brief
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