EverythingScience

NASA Updates Artemis Program, Adding a Mission and Delaying Lunar Landing Source:Universe Today @EverythingScience

Will melting glaciers slow climate change? A prevailing theory is on shaky ground Source:Phys.org @EverythingScience

Human brain cells on a chip learned to play Doom in a week Source:New Scientist @EverythingScience

Webb maps the mysterious upper atmosphere of Uranus 🔵 This first vertical view of its ionosphere reveals auroras shaped by the planet's tilted magnetic field and how Uranus’s atmosphere has continued to cool over the past three decades. Read more 👉esa.int/Science_Explor… Source: @esascience @EverythingScience

James Webb telescope spots giant auroras rolling through Uranus' atmosphere Source:Live Science @EverythingScience

Breakthrough Study Shows Sound Stimulation May Help Clear Alzheimer’s Plaques Scientists at the Kunming Institute of Zoology (KIZ) of the Chinese Academy of Sciences have shown for the first time in non-human primates that sound stimulation at 40-Hz can significantly increase β-amyloid levels in the cerebrospinal fluid (CSF) of aged rhesus monkeys. Notably, this effect lasted for more than five weeks after treatment ended. The findings, published in PNAS, provide the first experimental evidence in non-human primates that 40-Hz stimulation could serve as a non-invasive physical approach for Alzheimer’s disease (AD). The study also highlights important differences between primate and rodent models, which are often used in preclinical research. Led by Dr. Xintian Hu at KIZ, the research team worked with nine elderly rhesus macaques (Macaca mulatta) between 26 and 31 years old. These monkeys naturally developed widespread amyloid plaques in their brains, closely resembling the Aβ pathology seen in human AD. Because of this similarity, they offer a valuable model for testing potential therapies before moving to human trials. Source:SciTechDaily @EverythingScience

New Research Reveals Why Some Brains Can’t Switch Off at Night Australian scientists have uncovered strong evidence that chronic insomnia may stem from disruptions in the brain’s internal 24-hour cycle of mental activity. The findings help explain why some people find it so difficult to “switch off” at night, even when they are physically tired. In a study published in Sleep Medicine, researchers from the University of South Australia (UniSA) tracked how thinking patterns rise and fall across the day in people with long-term insomnia compared with healthy sleepers. This is the first study to chart daily cognitive rhythms in this way. Insomnia affects roughly 10% of the population and up to one-third of older adults. Many people with the condition describe their minds as overactive or constantly racing at night. Although this nighttime mental alertness has often been described as cognitive hyperarousal, its underlying cause has remained uncertain. The researchers set out to test whether difficulty calming the mind at night, a defining feature of insomnia, might be linked to abnormalities in circadian rhythms, the body’s internal timekeeping system. Source:SciTechDaily @EverythingScience

Autism and ADHD May Share a Hidden Brain-Gene Signature A study published in Molecular Psychiatry suggests that the biology underlying autism and ADHD does not fit neatly into current diagnostic categories. Although clinicians have long recognized that autism and ADHD frequently occur together, scientists have struggled to pinpoint the shared mechanisms behind that overlap. Researchers from the Child Mind Institute and collaborating centers found that the intensity of autism symptoms, rather than whether a child carries a diagnosis of autism spectrum disorder (ASD) or attention-deficit/hyperactivity disorder (ADHD), is linked to specific patterns of brain connectivity and gene activity. The results add to a growing shift in psychiatry toward understanding neurodevelopmental conditions along dimensions of traits and biology, rather than as strictly separate disorders. Symptom severity reveals shared biology The research team, led by Adriana Di Martino, MD, Founding Director of the Autism Center at the Child Mind Institute and Senior Research Scientist, analyzed resting-state functional MRI scans from 166 verbal children between the ages of 6 and 12 who had been diagnosed with autism or ADHD (without autism). Resting-state imaging allows scientists to measure how different brain regions communicate while a person is not engaged in a specific task, offering insight into underlying network organization. Children with more pronounced autism symptoms showed stronger connectivity between regions in the frontoparietal (FP) and default-mode (DM) networks. These networks play central roles in executive functioning, attention, and social cognition. In typical development, connectivity between these networks tends to decrease over time as the brain becomes more specialized. The heightened connectivity observed in children with greater symptom severity suggests differences in how these networks mature. Importantly, this pattern appeared across the full group of children, regardless of whether they were formally diagnosed with ASD or ADHD. The connectivity differences also aligned with maps of gene expression in the brain, particularly genes involved in neural development that have previously been linked to both conditions. This overlap points to biological pathways that may cut across diagnostic labels. “We see in the clinic that some children with ADHD share symptoms qualitatively similar to those observed in autism, even if they do not fully meet the diagnostic criteria for ASD,” says Dr. Adriana Di Martino. “By focusing on shared brain–gene expression patterns linked to autism symptoms across both ASD and ADHD, we can point towards a shared biological basis of these clinical observations. Our findings provide a more nuanced, dimensional understanding of neurodevelopmental conditions.” Source:SciTechDaily @EverythingScience

How Can Infinity Come in Many Sizes? Infinity invites resistance. Aristotle rejected the existence of the infinite entirely; to him, infinity was simply a limit that could never be reached, not a true mathematical entity. In the early 17th century, Galileo wrote that typical ways of thinking about sets and numbers held no meaning in the realm of the infinite, and that mathematicians would only find paradoxes if they tried to apply their usual tool kit to it. And when, 200 years later, Georg Cantor formalized the idea that infinity comes in many sizes, he was met with anger and fear. His colleagues dismissed his work as that of a madman. But in time, Cantor’s work on sets and infinity would form the bedrock of modern mathematics. As David Hilbert, another mathematical great, later wrote: “No one shall expel us from the paradise that Cantor has created for us.” So how can infinity have different sizes? Welcome to Cantor’s paradise. Source:Quanta Magazine @EverythingScience

Hair-width LEDs could eventually replace lasers LEDs no wider than a human hair could soon take on work traditionally handled by lasers, from moving data inside server racks to powering next-generation displays. New research co-authored by UC Santa Barbara doctoral student Roark Chao points to a practical path forward. The study is published in the journal Optics Express. "We're talking about devices that are literally the size of a hair follicle," said Chao, who studies electrical engineering. "If you can engineer how the light comes out, those microLEDs can start to replace lasers in short-distance data communication." Source:Phys.org @EverythingScience

New 'Mars GPS' lets Perseverance pinpoint its location within 25 centimeters A new technology developed at NASA’s Jet Propulsion Laboratory in Southern California enables Perseverance to figure out its whereabouts without calling humans for help. Dubbed Mars…

Sunlight-powered process turns plastic waste into acetic acid without added emissions Researchers at the University of Waterloo have discovered a way to turn plastic waste into acetic acid, the main ingredient of vinegar, using sunlight. The breakthrough offers a promising new approach to reducing plastic pollution through photocatalysis, while simultaneously creating a useful, value-added chemical product through a process inspired by nature. When exposed to sunlight, the material drives a series of chemical reactions that transform plastic polymers into acetic acid with high selectivity. The reaction takes place in water, making it particularly relevant for addressing plastic pollution in aquatic environments. Acetic acid is widely used in food production, chemical manufacturing and energy applications. The study shows it can be produced from common plastic wastes, including PVC, PP, PE and PET, and remains effective across mixed plastic compositions. This makes the approach well suited to real-world waste streams, offering a promising alternative to plastic incineration, and could support more circular approaches to material use while providing a new strategy for upcycling plastics. Source:Phys.org @EverythingScience