| Brought to you by The 5th Innovation Forum on Intelligent Computing |
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| 22 September 2025 |
| Today’s Logbook looks at this year’s Ig Nobel Prizes. But first, catch up on the latest science news, including the tasty look of Mars’s atmosphere and how scientists are hacking AI. |
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| Health | Science Advances |
| Keto diet may have long-term health consequences |
| Going “keto”—following a strict high-fat, low-carb diet—can help people struggling to lose weight, and has been recommended for a variety of conditions, including obesity and diabetes. But eating that way long-term may cause serious health effects, a study in mice suggests.
The keto diet gets its name from ketone bodies: an alternative energy source made from fats when the body doesn’t receive enough carb-based fuel. They’re why eating keto can help with weight loss over the short term, but it’s remained unclear whether the diet has effects when maintained for years or decades. To find out, researchers turned to mice, as it’s easier to keep them on a strict regimen. After 8 months on a keto diet, mice weighed less than those that ate a regular diet (though they were heavier than ones given a low-fat diet instead). But that wasn’t all—the keto mice had lots of fat in their blood, which is a sign of cardiovascular disease. Male mice on the regimen also had fatty, malfunctioning livers. But perhaps most concerningly, the keto animals showed signs of glucose intolerance. More specifically, they struggled to produce insulin, the hormone that directs the removal of the sugar glucose from the blood. That is similar to what happens in some people with type 2 diabetes—calling into question the diet’s use to treat the condition, the authors noted. On the upside, when the mice stopped eating keto, their glucose tolerance returned to normal.
Mind you, 8 months in a mouse’s life is like decades for a person, so we’re talking serious adherence to the diet for years and years—which many people don’t do, because it is so restrictive. And there’s the usual caveat that mice aren’t people, so researchers would need to confirm that similar outcomes occur in humans who eat keto long-term. Still, “it’s a cautionary tale,” physiologist Amandine Chaix told Science News; “this is not a magical dietary approach.” |
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| Astronomy | Science Advances |
| Martian millefeuille |
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| Horizontal layers in Mars’s atmosphere as observed by the Colour and Stereo Surface Imaging System (CaSSIS; colors indicate different filters or combination of filters). Thomas et al./Science Advances (2025) |
| If the Moon looks like cheese, Mars looks like a French pastry—well, at least its atmosphere does, says a new study. Using the European Space Agency’s ExoMars Trace Gas Orbiter, a team found that the Martian atmosphere has distinct layers reminiscent of the puff pastry and cream layers of a millefeuille.
Studying the Martian atmosphere can tell scientists about the planet’s past and present, as well as help them determine its habitability. So, a team compiled imaging data from the spacecraft, which travels 400 kilometers above the Martian surface, to analyze the area above Mars’s limb—the fuzzy boundary where the planet seems to merge with space. By looking at the way the atmosphere scattered light, they teased out the concentrations of aerosols in different atmospheric sections. They found that the atmosphere was highly layered, with some swaths less than one km in depth, and that layers’ relative colors (the ratio of their redness to blueness) differed significantly.
One of the biggest open questions about Mars is how its dusty and icy aerosols change with the years and seasons. Visualizing its atmosphere’s pastry-layer like composition should improve models of the Red Planet’s climate, write the authors. Next, they hope to build a database of their findings and further probe this alien sky. |
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| Artificial Intelligence | News from Science |
| Researchers customize AI tools at global ‘hackathon’ |
| Last week, the third edition of an AI hackathon attracted more than 1200 researchers and developers from around the world. Over the course of 48 hours and countless pizzas, participants teamed up virtually and at in-person sites to harness the power of tools known as large language models (LLMs) for materials science and drug discovery. Vying for small cash prizes, more than 100 teams submitted two-minute videos showcasing their projects. All submissions are being compiled into a paper to demonstrate the breadth of potential AI applications, from hypothesis generation to data management and material property prediction. The entries also highlight a key challenge: building specialized pipelines to collect and standardize the data needed to turn an LLM into a customized research tool.
One participant was physicist Daniel Speckhard, who teamed up to test how well LLMs could predict how the crystal structure of a material relaxes to its lowest-energy configuration—a critical step for predicting its properties. Although the group only had time to train their AI model on a small dataset, the initial results were promising, Speckhard says.
Speckhard says he was more impressed by how easy it was to tailor the LLM. By coaxing other LLMs to help write code to import and parse data, the team accomplished in two days what would have taken Speckhard more than a month. He now sees LLMs as a promising partner in his research. Before the event, “I thought they take all the joy out of doing science,” he says. “But after this experience, I’m 100% convinced.” |
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| Lab to market: Turning research into real-world impact |
| Join Science Webinars October 3 for a live talk with Jay Keasling, renowned synthetic biologist and entrepreneur. Learn how Keasling is developing life-saving drugs, sustainable chemicals, and building companies that bring these solutions to market. |
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| Logbook |
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| Doesn’t this Teflon look tasty? Pixabay | CC0 |
| Get a slice of the Ig Nobels |
| The Ig Nobels are science’s most wacky, whimsical night, known for awarding prizes to work that first “makes people laugh, then think.” This year, the event had a noticeable dark cloud: nearly half of the winning teams were absent for reasons including President Trump’s research and border policies, international wars, and visa complications. Still, the science shone bright. Here are two of the winning works from the 35th ceremony, told through exclusive interviews with ScienceAdviser.
Cheesin’ about evolution
People and naughty pets aren’t the only pizza lovers; African rainbow lizards also have quite the Italian appetite, found the winners of this year’s nutrition prize. When conducting field work in Togo, tropical ecologist Luca Luiselli learned that lizards had been stealing pizza from tourists at a seaside resort. He and his colleagues decided to investigate the behavior by laying multiple kinds of pizza on the ground and seeing what enticed the rainbow lizards down from the trees. The lizards’ favorite? Four-cheese pizza.
In fact, the slices weren’t just a dinnertime preference, but an evolutionary boon: female lizards that ate four-cheese pizza produced more eggs than those that ate a typical diet of insects. The researchers hypothesize that the stinkiness of the cheese makes the food source easy to find, while its high fat content helps the females invest in reproduction. In his day-to-day research, “It is obviously not the pizza stuff that is important,” says Luiselli. “But through the pizza stuff, you can understand how fast the immediate adaptation of species to the changing environment [is].”
Mmmm, plastic
Health advocates and environmentalists alike have turned away from nonstick cookware in recent years. Rotem Naftalovich, an anesthesiologist and winner of the chemistry prize, went in the opposite direction: What if we ate nonstick coatings on purpose?
The idea, for which he has since gotten a U.S. patent , began when Naftalovich was concerned with obesity as a medical resident. Part of the struggle for obese patients is not feeling satiated when dieting. If people padded their diets with food that can’t be digested, he realized, they could fill up their stomachs without the extra calories. The natural example is fiber. The unnatural example he studied was polytetrafluoroethylene, an inert polymer best known as Teflon. Naftalovich suggests, for example, a chocolate bar whose composition is 25% Teflon: the dieter wouldn’t taste any difference but would poop out the undigestible polymers and get a lower-calorie treat. “People look at it and raise an eyebrow,” he says of his and typical Igs research. “But this is the nature of actual innovation … you’re thinking about things from a different perspective.” |
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| Gold reaction |
| To create solid gold hydride, researchers had to compress and heat gold and hydrocarbons to an extreme degree. Still, the fact that the material was made at all suggests that gold and other so-called inert substances can behave unexpectedly under extreme conditions. |
| Angewandte Chemie Paper | Read more at Chemistry World |
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| Mind the fat |
| A study of more than 18,000 adults links where fat is stored on the body and the size and shape of certain brain regions. Although causality could not be established, the findings suggest that targeting fat in certain places could be better for brain health than indiscriminate weight loss. |
| Nature Mental Health Paper | Read more at New Scientist |
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| Quasi tagging along |
| Astronomers have spotted a tiny asteroid—less than 16 meters wide—following a similar path as our planet, making it among the smallest quasi-moons known. They estimate it’ll hang around until 2083, giving astronomers lots of time to study it. |
| RNAAS Paper | Read more at The New York Times |
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This administration doesn’t buy the idea that the government’s investment in basic research buys us anything useful.
—Former NSF official |
| Feature | 19 SEptember 2025 | Jeffrey Mervis |
| Many science policy experts say changes from the Trump administration move NSF away from its founding principles, laid out in a 1945 report to then-President Harry Truman, to maintain U.S. leadership in science by funding the best ideas across all fields and training the next generation of researchers. |
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| Brought to you by The 5th Innovation Forum on Intelligent Computing |
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