Chris Simms, Author at New Scientist Science news and science articles from New Scientist Thu, 09 Jul 2026 08:30:08 +0000 en-US hourly 1 https://wordpress.org/?v=7.0.1 242057827 Collapse of AMOC ocean current may already be locked in /article/2533017-collapse-of-amoc-ocean-current-may-already-be-locked-in/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Mon, 06 Jul 2026 10:49:54 +0000 /?post_type=article&p=2533017 2533017 Orangutan mothers seem to plan playdates for their offspring /article/2532880-orangutan-mothers-seem-to-plan-playdates-for-their-offspring/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Fri, 03 Jul 2026 11:28:59 +0000 /?post_type=article&p=2532880 2532880 Some of the last Neanderthals were surprisingly genetically diverse /article/2531732-some-of-the-last-neanderthals-were-surprisingly-genetically-diverse/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Wed, 24 Jun 2026 15:00:03 +0000 /?post_type=article&p=2531732 2531732 Elite Maya people had teeth placed in a cave far from their tombs /article/2531564-elite-maya-people-had-teeth-placed-in-a-cave-far-from-their-tombs/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Tue, 23 Jun 2026 16:00:57 +0000 /?post_type=article&p=2531564 2531564 Faecal transplant makes the brains of old mice act young again /article/2531241-faecal-transplant-makes-the-brains-of-old-mice-act-young-again/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Fri, 19 Jun 2026 16:48:29 +0000 /?post_type=article&p=2531241 2531241 Pigeons lock their eyes in place when they are flying /article/2530749-pigeons-lock-their-eyes-in-place-when-they-are-flying/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Wed, 17 Jun 2026 15:00:11 +0000 /?post_type=article&p=2530749
Pigeons are always looking ahead
yod67/Alamy

Scientists have tracked the eye movements of a bird in flight for the first time, revealing that pigeons in the air lock their eyes in place rather than looking around. The behaviour may help them control their flight, but it could also leave them more vulnerable to predators.

If animals on the ground want to look at something, they move their head or eyes to fix their gaze on it, then use rapid and sometimes wide-ranging movements of the pupil, known as saccades, to give a stable view of the object relative to its surroundings. But no one really knows what happens when birds are flying.

To find out, at the California Institute of Technology and his colleagues designed a lightweight rig of mirrors and cameras that can be attached to the head of a common pigeon (Columba livia) as it flies, as well as a small backpack that houses a camera control board and battery.

A pigeon fitted with eye-tracking equipment
Andrew Biewener

They then trained six pigeons to fly between two perches about 20 metres apart indoors, and three to fly some 25 metres outdoors to return to a coop.

During test flights in both environments, the head-mounted eye-tracking system revealed that after take-off, the birds increased their pupil size and adopted a fixed and consistent eye position in their heads, essentially locking their eyes in place.

“Whenever they start flying, the eyes rotate forward on average,” says Ros.

If their heads moved, their eyes moved in synchrony with them. The fixed eye position aligns with the primary horizontal axis of the birds’ vision and their vestibular system – the sensory network that controls balance and spatial orientation.

“Pigeons have been shown capable of moving their eyes independently and that they can be moved by a maximum amplitude of about 15 degrees,” says at the University of Birmingham, UK. “Therefore, to show that, during flight, eye movements are less than 1 degree does suggest that the birds are actively stabilising the position of their eyes when in flight.”

Why they are locking their eyes isn’t certain, says Ros. He thinks the alignment with the vestibular system suggests the behaviour may help pigeons distinguish their own motion from external motion – such as the movement of a tree’s branches, or a car or predator – to help them balance and navigate.

It’s also possible that reducing eye movements minimises the computational load on the brain. “The world during flight moves a lot faster than it does during non-flight,” he says.

Eye movements give pigeons a , but Ros says locking their eyes into a forward-facing position is likely to reduce this, leaving a larger blind spot behind them where they couldn’t see predators.

He is curious about what pigeon eyes would do in other situations, because all the tests were done when the birds were low to the ground. “It might be different if pigeons were flying higher up, where there aren’t lots of objects rushing past,” says Ros. He also wonders what would happen when pigeons fly in flocks. “Would they look at other pigeons? At predators? Or at something on the horizon?”

Martin thinks other birds might also stabilise their eye position during flight, including predators. When in pursuit of prey, , he says. “This presumably would require the peregrine to fix the position of their eyes rather than move them about.”

Journal reference:

Current Biology,

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Iron Age Britons may have removed the brains of the dead /article/2529799-iron-age-britons-may-have-removed-the-brains-of-the-dead/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Tue, 09 Jun 2026 23:01:51 +0000 /?post_type=article&p=2529799 2529799 Frozen squirrel scat preserves ancient DNA from hundreds of species /article/2529635-frozen-squirrel-scat-preserves-ancient-dna-from-hundreds-of-species/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Tue, 09 Jun 2026 15:00:33 +0000 /?post_type=article&p=2529635
Arctic ground squirrels gather food from a wide variety of sources and store it in burrows
Government of Yukon
A rich and complex ecosystem stretching back 700,000 years that included woolly mammoths, bison, horses and big cats has been unveiled thanks to DNA preserved in frozen faeces. (dzٱܲ貹⾱) are rodents about 40 centimetres long, found in cold regions of both North America and Siberia. These areas were joined by a land bridge in the past, with the whole region being known as Beringia. “The squirrels hibernate for about eight months of the year, and in the four months that they’re conscious, they really need to get out there and eat and bring as many resources as they can back to their burrow,” says at the Hakai Institute in Campbell River, Canada. This means their burrows often contain a wealth of faecal pellets and food caches, which makes the animals like “natural archivists”, says Murchie. To see what might be stored in this archive, he and his colleagues looked at preserved faeces – known as coprolites – from 13 Arctic ground squirrel burrows in the central Yukon in Canada that were frozen in permafrost. The burrows dated to between about 700,000 and 30,000 years ago. From the droppings, each of which is about 1 to 2 centimetres long, the team extracted DNA belonging to a wide range of organisms. These include microbes, more than 200 different plant groups and animals including insects, other rodents, woolly mammoths, horses, grey wolves, steppe bison and a big cat that was either an or a cougar. “It’s the whole cast of organisms that lived in the Beringian ice-age ecosystem,” says Murchie.
You might assume that ground squirrels would primarily eat nuts and seeds, but that’s not the case, he says. “They’re actually quite omnivorous, almost like little bears. There are reports of ground squirrels eating carcasses of moose and lynx, so the fact that we find all of these large animals in their coprolites isn’t actually that surprising.”
Ancient faecal pellets left by Arctic ground squirrels, found in Yukon, Canada
Duane Froese, University of Alberta
Murchie and his colleagues were able to use the DNA they found to reconstruct mitochondrial genomes of many animals from different points in time. These included 12 ground squirrels – one lineage of which dated back 700,000 years – three horses, two bison and one hare. They also found enough DNA to piece together six woolly mammoth genomes, but details of those will be published separately. “These are fantastically preserved samples that really showcase the ecological diversity of the Yukon through time,” says at Clemson University in South Carolina. She says it is hard to know whether DNA from a given species is present in a coprolite because it was eaten by a ground squirrel, or because it existed in the environment and leached in. But she does say it is feasible that the rodents consumed mammoth meat, given how much DNA was present in the samples and that ground squirrels are often scavengers.
Journal reference:

Nature Communications

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Ötzi’s frozen remains may harbour metabolically active microbes /article/2528789-otzis-frozen-remains-may-harbour-metabolically-active-microbes/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Wed, 03 Jun 2026 00:00:01 +0000 /?post_type=article&p=2528789 2528789 Huge study of Alzheimer’s genetics identifies new drug targets /article/2528511-huge-study-of-alzheimers-genetics-identifies-new-drug-targets/?utm_campaign=RSS|NSNS&utm_content=currents&utm_medium=RSS&utm_source=NSNS Mon, 01 Jun 2026 11:00:24 +0000 /?post_type=article&p=2528511 2528511