Inside a Startup Revolutionizing Robot Intelligence for a Quantum Leap in Technology

AI-Powered Laundry Folding Robot

AI-Powered Laundry Folding Robot by Physical Intelligence

Credit: Physical Intelligence

In San Francisco, freshly brewed coffee is being crafted by robots in a state-of-the-art facility, showcasing the rising integration of robotic technology in our everyday lives. Although robots have been serving coffee for years, the advanced AI behind this process offers a broad skill set beyond just brewing. These robots are capable of performing various tasks, such as folding laundry, peeling vegetables, and even kitchen cleaning, which is remarkable for technologies still in their infancy.

Founded in 2024, Physical Intelligence is leading the charge towards a future where robots seamlessly integrate into daily routines. The startup focuses on creating versatile control systems that enhance productivity across multiple tasks and different machines, similar to the humanoid robots developed by Tesla and Boston Dynamics, as well as Amazon’s industrial robots.

The concept of general robotic intelligence has long been an aspiration within the robotics community. Yet just as large language models (LLMs) revolutionized AI chatbots in the early 2020s through advanced computing techniques, breakthrough innovations in physical intelligence promise to elevate robotics to new heights.

Sergei Levin from the University of California, Berkeley, a co-founder of Physical Intelligence, remarked, “In many fields, having more data complicates matters. However, in AI, it facilitates learning from a diverse array of information, making the development process smoother.”

The evolution of LLMs has given rise to the Vision-Language-Action (VLA) model, significantly influencing Physical Intelligence’s research direction. Instead of learning tasks individually, VLA capitalizes on LLMs to convert general commands into actionable steps, empowering robots to execute a multitude of tasks. According to Ingmar Posner from Oxford University, “[VLAs] represent an exciting frontier in robotic learning, as they predict necessary movements instead of simply anticipating the next word in a conversation.

One of the critical obstacles in programming robots lies in the vast array of real-world scenarios that require adaptability. Conventional methods often struggle to amass sufficient data for learning effectively. Levine notes that while automating learning seems ideal, developers commonly avoid it due to the substantial data-gathering efforts required: “In theory, automation could simplify the process, but in practice, obtaining enough application-specific data often outweighs the manual work needed.”

By leveraging VLA capabilities, Levine and his team aim to minimize the data required for robots to thrive. In a boardroom setting, staff members were instructing robots on mundane tasks like folding shirts and organizing gifts. Adjacent to their main lab are two extensive warehouses designed like a faux supermarket and living spaces, facilitating real-world training scenarios for the robots. Additionally, they have begun introducing robots to actual homes to evaluate their capabilities in unpredictable environments.

Physical Intelligence’s Headquarters in San Francisco

Credit: Alex Wilkins

This immersive training environment is crucial for progress, with robots learning generalization techniques that allow them to tackle tasks they’ve never encountered before. For instance, a recent AI model named π0.7 successfully prepared sweet potatoes using an air fryer, simply by following step-by-step verbal directions—including methods the AI had never been explicitly trained on.

Levine expressed astonishment at the rapid advancements made in just two years since launching Physical Intelligence. “The progress has exceeded our expectations,” he noted.

Interest from other companies is growing, with many well-funded startups and industry giants like Amazon and Google DeepMind working on their own general-purpose robotic solutions.

Although the field is advancing quickly, predicting the speed of future developments remains challenging. While AI entities such as OpenAI and Anthropic are notably progressing, robotics innovation typically occurs at a more gradual pace. This is exemplified by Moravec’s paradox: while robots can excel at strategizing in games or IQ tests, they often struggle to acquire fundamental perceptual and motor skills akin to those of a toddler.

Posner remains cautious, suggesting that the amount of data needed for practical robot deployment in real-world settings is still an open question. “We see early signs indicating potential breakthroughs, but whether this will yield viable applications in the near future is uncertain.”

Prominent researchers like Posner acknowledge the intrinsic challenges posed by human interaction with robots. “Humans tend to push robots to their limits, largely for entertainment,” he stated. “Is a scalable business model for such technology feasible? At this stage, it seems highly improbable.”

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Source: www.newscientist.com

How Magnetic Sperm Enhances In Vitro Fertilization Success

Innovative IVF Technology: Enhancing Success Rates by Utilizing Internal Processes

Credit: Zephyr/Science Photo Library

Recent advancements in IVF technology involve creating embryos from magnetized spermatozoa, allowing them to be guided remotely to eggs. This groundbreaking method facilitates in vivo fertilization, reducing invasiveness while potentially increasing success rates in assisted reproduction.

“Our ultimate vision is to utilize the body as a natural incubator for assisted reproduction,” states Mariana Medina Sanchez, a researcher at CIC nanoGUNE in Spain.

Low sperm count or motility can complicate natural conception, making IVF a challenging process. Traditional IVF involves invasive steps such as hormone injections and egg retrieval, which can lead to side effects and unsuccessful cycles. The artificial environment often negatively impacts embryo viability due to multiple manipulations.

To combat these issues, Medina Sanchez and her team developed a method for transporting sperm through the female reproductive tract to the fallopian tubes, enabling fertilization under natural conditions. By applying a weak magnetic field, researchers transformed sperm into magnetic entities, which can be directed into the body seamlessly. “We aimed to create a sperm preparation protocol that integrates into standard IVF workflows, so we consulted IVF specialists,” Medina Sanchez elaborates.

The research team incubated cow sperm with tiny iron oxide and polystyrene magnetic beads, with about 30 beads attaching to the sperm’s head, leaving the tail free for movement. Tests confirmed that magnetized sperm showed no adverse effects on swimming speed or overall health.

After incubating magnetic sperm with eggs, the researchers noted that embryo formation rates were comparable to those of non-magnetic sperm. The beads detached from the sperm upon entering the egg, without affecting initial embryo development.

The researchers demonstrated that external magnetic fields could accurately direct magnetic sperm toward eggs during experiments in vitro.

“This represents a significant breakthrough and validates our concept,” states Kylie Dunning from the University of Adelaide, Australia. “However, several challenges remain before this can enter clinical practice,” she warns, highlighting the need to prove that magnetic sperm can reach fallopian tubes and successfully fertilize eggs outside laboratory settings, ultimately resulting in healthy pregnancies.

The visibility of magnetic beads on ultrasound provides an advantage for tracking sperm locations within the body. Encouragingly, preliminary findings have indicated that entire embryos, incorporated with small magnetic structures, can be navigated into mouse fallopian tubes using external magnets.

Once detached, the beads are expected to be naturally expelled by the body’s waste removal system. However, if necessary, they can be extracted using a magnet attached to a catheter, according to Medina Sanchez. “This holds great promise for the future of assisted reproduction,” she concludes.

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Source: www.newscientist.com

Understanding Social Media Bans: A Study on Their Impact and Implications

Children's social media ban impact

Banning Social Media for Under-16s: Transforming Childhoods

Anna Barclay/Getty Images

The UK government is set to implement a ban on social media use for children under 16 by early next year, mirroring a similar policy that took effect in Australia in 2025. This initiative aims to safeguard children’s welfare over corporate profits. However, the effectiveness of this ban is still under scrutiny. How will scientists assess its impact?

As Professor Pete Etchells of Bath Spa University highlights, “There’s no evidence either way.” His team is collaborating with the Australian government to evaluate the repercussions of their national ban while advising the UK government. “This is very new territory,” he adds.

The Wellcome Trust is spearheading research in the UK and is actively involved in the IRL trial based in Bradford. The study includes around 4,000 participants aged 12 to 15 from 10 schools who use an app to monitor their social media habits. Notably, half of these children will face restrictions on social media access. Preliminary findings are expected next year, coinciding with the implementation of the new ban, although Katherine Sebastian from the Wellcome Trust emphasizes that these insights will still inform policy decisions.

This research will enhance existing studies, which often rely on subjective self-reports from children and parents about social media usage. In contrast, this objective approach marks a significant advancement, especially considering that intervention studies are notably scarce. As Etchells notes, “If we’re discussing significant mental health shifts, changes won’t be noticeable overnight.”

Australia’s ban was enacted in December, but its long-term effects are still unfolding. Once a national ban is established, conducting controlled studies becomes increasingly challenging, complicating the assessment of broader social impacts on populations before and after the ban.

For the time being, Sebastian is gearing up for further studies, anticipating some results post-ban. The UK government is expected to introduce this bill in parliament by Christmas, aiming for implementation in early 2027.

The Wellcome Trust is inviting 14 research teams to propose studies on the impact of social media on youth well-being, with plans to fund various approaches to maximize data collection for conclusive results.

Some of these studies will follow existing cohorts, regularly interviewing participants about their mental health before and after the ban. Others may utilize real-time assessments through text messages for immediate feedback. Alternative methods might analyze already collected data, such as hospital admissions or school absenteeism rates.

Although there’s optimism for insights following the ban, Sebastian believes the outcomes may vary. While some positive effects could arise, challenges may also emerge due to the disruption of online support networks.

The long-term impact of this ban may evolve over years, especially as today’s children transition to adulthood without social media exposure. “This is not a finished conversation,” warns Sebastian. “Policies might need reevaluation, shaped continuously by our findings and others.”

Currently, some experts express concern about the UK government’s hesitance to address mental health issues among youth without adequate data. Professor Holly Bear from Oxford University argues that a blanket age ban is a “blunt weapon” and surpasses what current evidence justifies, but acknowledges that Wellcome’s research presents an opportunity to evaluate whether such measures are beneficial, harmful, or inconclusive.

A critical obstacle to effective research and policy implementation could be users circumventing bans. Preliminary reports indicate age verification technology may be fooled by screenshots of video game characters, and VPNs enable users to connect from regions without age restrictions.

A research initiative by the Molly Rose Foundation in Australia revealed that 61% of children aged 12 to 15 had accounts on restricted platforms before the ban took effect, affirming concerns that a similar move in the UK could be a “high-stakes gamble.”

If you or someone you know needs support, contact British Samaritans at 116123 (samaritans.org) or the US Suicide and Crisis Lifeline at 988 (988lifeline.org). For assistance in other countries, visit bit.ly/SuicideHelplines.

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Source: www.newscientist.com

Australian Fossils Uncover Exciting New Marsupial Lineage

Paleontologists have recently identified a new genus and three new species of small insect-eating marsupials from early Miocene deposits at the Riversleigh World Heritage Site in Northwest Queensland, one of Australia’s most prolific fossil sites. Comparative and evolutionary analyses suggest that these new species are part of a newly recognized branch in the marsupial family tree, termed Keenamorphia. This lineage may represent some of Australia’s earliest marsupials, potentially tracing its origins back to Gondwana.



Reconstruction of Phantasmodon traviloni in the early Miocene rainforest of Northwest Queensland. Image credit: Peter Schouten.

The three newly identified marsupial species, Phantasmodon traviloni, Phantasmodon minuferox, and Keenamorphia sp., lived around 18 million years ago, with sizes ranging from shrews to mice (25 to 200 grams).

These species exhibit unique dental characteristics that align them with older Australian species such as Kiuna woodvarney, Ankotarinja tirarensis, and Jarsia murgonensis. The oldest known marsupial from the continent was discovered in 55-million-year-old deposits in southern Queensland.

Collectively, these six species form a lineage that does not fit into any previously recognized order of Australian marsupials.

This new order, called Keenamorphia, represents one of the earliest offshoots of Australidelphia, encompassing all Australian marsupials.

“This discovery not only establishes a new order but may also reveal one of the oldest lineages of Australian marsupials,” stated lead author Dr. Tim Churchill, a paleontologist at the University of New South Wales.

Keenamorphians are thought to have Gondwanan origins, potentially linking the earliest marsupials of Australia with ancient relatives from South America when the two continents were still connected.

This lineage appears to have disappeared during the Miocene, with no known descendants currently.

“The evolutionary history of marsupials is far more intricate than a linear progression leading to all extant Australian marsupials,” Dr. Churchill explained.

“When Australia was part of Gondwana, it was home to a variety of primitive marsupial lineages, and it is probable that some of these contributed to modern species.”

“Much of this history remains obscured in the fossil record, indicating that the early chapters of marsupial evolution are still unfolding.”

For further details, refer to the recent study published in the Paleontology Journal this month.

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Timothy James Churchill, et al. A New Metatherian Order (Keenamorphia, Metatheria) from Australia and New Early Miocene Species from the Riversleigh World Heritage Area in Northwest Queensland. Paleontology Journal published online June 14, 2026. doi: 10.1017/jpa.2026.10238

Source: www.sci.news

Webb Telescope Uncovers Strongest Evidence Yet of Early Universe Black Hole

Astronomers have long been captivated by a mysterious cluster of faint red objects known as “little red dots,” discovered by the NASA/ESA/CSA James Webb Space Telescope. Recently, Vasily Kokolev, an astronomer at the University of Texas at Austin, and his team utilized the Webb’s NIRCam and NIRSpec instruments to capture the deepest spectrum of a tiny red dot, named GLIMPSE-17775, ever recorded. The findings reinforce the theory that this object is a supermassive black hole enveloped in a thick cocoon of partially ionized gas, aligning with the BH* (black hole star) model.



This web image depicts the small red dot GLIMPSE-17775 behind galaxy cluster Abel S1063. Credit: NASA / ESA / CSA / Vasily Kokorev, UT Austin / Alyssa Pagan, STScI.

“There is a growing consensus in the scientific community that this little red dot can be explained by the black hole star model,” said Kokolev.

“However, none of the other little red dots have presented all the necessary evidence together until now.”

“GLIMPSE-17775 provides an exceptional opportunity to test these models due to its remarkable spectrum,” Kokolev added.

With a cosmological redshift of 3.5, GLIMPSE-17775 existed approximately 1.8 billion years after the Big Bang.

This intriguing object came into view serendipitously during Webb’s observations of the galaxy cluster Abel S1063, which aimed to identify Population III stars and faint early galaxies.

Positioned behind the star cluster, the brightness of the small red dot is enhanced through the phenomenon of gravitational lensing.

“When I first examined the spectrum, it felt like I had scattered puzzle pieces on the floor,” Dr. Kokolev remarked.

“We meticulously measured the lines, fitting the pieces together to form a cohesive picture.”

“Some initial fragments that appeared insignificant suddenly revealed a deeper connection.”

The spectroscopic data gathered by Webb contains multiple lines of evidence confirming the interpretation of GLIMPSE-17775 as a black hole star. This phenomenon occurs when a rapidly accreting black hole is shielded by a dense gas cocoon, which modifies the light emitted near the black hole, producing distinct spectral features.

“Everything aligns perfectly, and this adds depth to our understanding of the universe,” Kokolev expressed.

“In the future, I aspire to delve deeper into what powers the core of this little red dot.”

“While we believe it is a black hole, alternative theories are also intriguing and deserve consideration.”

“We anticipate that, within a year or two, we will have a definitive understanding of the energy sources that drive these phenomena.”

Details from the team’s findings will be published in the Astrophysical Journal.

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Vasily Kokolev and colleagues. 2026. Insights into the dense gas cocoon surrounding GLIMPSE-17775. APJ 1004, 153; doi: 10.3847/1538-4357/ae4ed7.

Source: www.sci.news

Impact of Sucrose Removal on Gut Microbiome in Low-Fat Diets: Insights from Animal Study

In a groundbreaking mouse study by scientists at the Dasman Diabetes Research Institute in Kuwait, rodents following a sucrose-free diet exhibited insulin resistance, gut bacterial imbalances, and early signs of fatty liver disease, all while maintaining similar body weights.



Rashid Ahmad and Fatema Burman have found that a sucrose-free, low-fat diet drastically alters gut microbiota diversity, decreasing beneficial short-chain fatty acid-producing bacteria and increasing pro-inflammatory species like Helicobacter gammanii, Odoribacter splanchnicus, and Alistipes spp. Image credit: Lourdes Alvarez.

“The complete removal of sucrose from a low-fat diet can unexpectedly compromise gut health, triggering inflammation and metabolic issues,” stated Dr. Rashid Ahmad, the study’s lead author.

Dr. Ahmad and colleague Dr. Fatema Burman analyzed the impacts of a low-fat diet devoid of sucrose against a low-fat control diet for two groups of mice over 16 weeks.

Their assessments included glucose tolerance, insulin sensitivity, metabolic hormone levels, gut microbiota health, and inflammation in the colon and liver.

Mice on the sucrose-free diet experienced impaired glycemic control, increased insulin resistance, gut microbial imbalances, intestinal inflammation, and signs of fatty liver disease, despite comparable body weights to the control group.

“Our findings indicate that eliminating sucrose from a low-fat diet can negatively impact gut microbiota and overall metabolic health,” Dr. Ahmad remarked.

“This research underscores the critical nature of balanced carbohydrate intake for maintaining intestinal and immune system balance.”

The effects of restrictive diets that exclude sugar from low-fat meals have remained unclear until now.

“This study might reshape dietary guidelines to emphasize the importance of a healthy gut microbiome rather than just focusing on carbohydrate reduction,” Dr. Ahmad added.

“These insights could lead to enhanced strategies for preventing and managing metabolic disorders, fatty liver disease, and chronic inflammatory conditions.”

The authors presented their findings on June 13 at the Endo 2026 Endocrine Society Annual Meeting in Chicago, Illinois.

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Rashid Ahmad and Fatema Burman. Sucrose-free low-fat diet induces metabolic dysfunction through dysbiosis and colonic inflammation in mice. Endo 2026 abstract number ORF07-04

Source: www.sci.news

How Microbes Thrive When Glaciers Retreat – Insights from Sciworthy

As climate change alters our planet, glaciers are rapidly retreating, revealing new barren land. Over the coming decades and centuries, this rocky terrain will gradually develop into a thriving ecosystem, marked by lichens and shrubs—a phenomenon known as “new forest.”
Ecological inheritance.

Ecologists have meticulously mapped the stages of ecological succession, examining which plant species colonize these newly exposed lands and how they establish dominance.
Pioneer species lay the groundwork for secondary growth. Yet, before plants can take root, the soil is already teeming with a diverse community of single-celled microorganisms, preparing the ground for further colonization. Researchers study these microbial communities to better understand the formation of healthy ecosystems.

Newly exposed land often suffers from poor nutrient levels and extreme temperature fluctuations, making it essential for initial colonizing species to overcome these obstacles. Pioneering plant species are
habitat generalists, meaning they thrive in various environmental conditions. Furthermore, while all plants convert sunlight and water into carbon and energy, microorganisms can utilize diverse energy sources and often possess genes for multiple metabolic pathways. This led scientists to wonder whether pioneer microorganisms could also be characterized by their
metabolic flexibility.

A research team from Monash University in Australia tested this hypothesis by studying areas exposed after the retreat of two glaciers: one on an island near Antarctica and another in the Swiss Alps. The researchers examined soil samples exposed to air for varying durations, tracing different ecological stages following the glaciers’ retreat.

The scientists extracted DNA from these soil samples and employed two sequencing methods. First, they sequenced a specific gene,
16S rRNA, serving as a unique identifier for the diverse microbial species present. This method enabled them to assess community diversity, track species overlap, and identify habitat generalists thriving in different soil conditions.

To explore the metabolic flexibility of these microorganisms, the team employed a second approach known as
metagenomics, which sequences all DNA within a sample, rather than just one gene. This technique allowed them to reconstruct full genomes of the microorganisms and gather insights on their metabolic capabilities. They also analyzed soil chemicals, including ammonium and sulfide, alongside atmospheric gases like methane and carbon monoxide, to evaluate how microbes utilized these elements for growth.

Findings revealed that even the most nascent soils harbor microorganisms, illustrating the speed at which life can inhabit new environments. Microbial abundance surged approximately eight-fold in older soils, and species diversity also increased. This signifies the persistence of complex communities over time. Interestingly, the metabolic functions of microorganisms in glacial soils from Antarctica and Switzerland were remarkably similar, suggesting that common selective pressures facilitated the establishment of these new ecosystems.

Researchers were surprised to find that the most prevalent microorganisms in younger soils were actually habitat specialists, rare in older soils. These pioneering microbes, although metabolically flexible, optimally utilize trace atmospheric gases like hydrogen, methane, and carbon monoxide. Many of these organisms may also derive energy from chemicals leached from rocks, such as inorganic sulfur compounds. The researchers posited that pioneer microbes rapidly exploit newly created ecological niches, like soil exposed by retreating glaciers, due to their proficiency in using scarce resources.

Conversely, habitat generalists often dominate in older soils, indicating that in a real-world tortoise-and-hare scenario, habitat specialists are eventually outcompeted by the slower-growing habitat generalists.

The research team concluded that employing varied growth strategies enables microorganisms to adapt effectively to new environments. However, they acknowledged that ecological transitions may differ across landscapes affected by volcanic eruptions, meteorite impacts, and forest fires. They recommend that future studies focus on how microbial communities contribute to these dynamic ecosystems.


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Source: sciworthy.com

Why Controversial Scientific Ideas Deserve Consideration

Maverick scientists often face skepticism from their more conventional peers. Science thrives on verifiable evidence and consensus, making it difficult for contrarians to gain traction.

Yet, some ideas merit critical examination. For instance, the ketogenic diet, widely known for rapid weight loss, is now being considered as a potential treatment for anorexia nervosa. This suggestion may seem paradoxical, given that anorexia is defined by an obsession with food restriction.

However, research indicates that the ketogenic diet may actually help alleviate symptoms of this condition. Our latest study highlighted that following a structured dietary regimen can significantly improve the well-being of those affected, albeit in a limited trial. It is thought that the keto diet may help restore energy balance in brain cells, leading to reduced anxiety and food-related obsessions. This possibility underscores the need for further investigation into the ketogenic diet as a potential treatment for anorexia. Currently, traditional treatments fail to help one-third of anorexia patients, a condition notorious for its high mortality rates.


It’s a mistake to think that an idea is bad just because the people who have it support it.

Endorsing the ketogenic diet for serious mental health issues may associate you with controversial figures, including former U.S. Secretary of Health Robert F. Kennedy Jr., known for his unsubstantiated claims regarding vaccines and autism.

Nevertheless, dismissing an idea solely based on its advocates is misguided. An expanding body of research suggests potential mental health benefits from the ketogenic diet, including alleviation of symptoms linked to severe depression and schizophrenia. While this inquiry is still in its infancy, larger-scale trials must be conducted. Caution is essential, and any keto application for anorexia should be supervised by medical professionals. Ultimately, pursuing innovative solutions for challenging mental health conditions through rigorous scientific inquiry is crucial, even if it entails the risk of being labeled as unconventional or heretical.

Source: www.newscientist.com

20-Year-Old Director’s Sci-Fi Horror Masterpiece ‘Backrooms’ Redefines the Genre

Back Room - A strange doorway appears in the basement of the furniture showroom.

Clark (Chiwetel Ejiofor) uncovers a series of disturbing rooms in a furniture showroom.

A24

Back Room
Kane Parsons is now screening in theaters

There’s an unsettling quality to a room that appears to serve no purpose. A hallway with no destination. A chair half-embedded in the floor. Even a misaligned sofa poses a latent threat. In Back Room, 20-year-old Kane Parsons makes his feature debut, where ordinary objects are stripped of their usual context, transforming into something alien. Shadows, carpeted hallways, and buzzing fluorescent lights serve as telltale signs that our grasp on reality is fleeting.

Originally conceptualized by Parsons, better known online as Kane Pixels, Back Room is a YouTube phenomenon inspired by a 2019 post from an anonymous 4chan user featuring a room adorned with yellow wallpaper and fluorescent lights. The post sought other “disturbing images that evoke discomfort.” In response, another user described “the stench of old damp carpets, monochromatic yellow madness…and a back room encompassing 600 million square miles of randomly segmented empty rooms.” Thus, the internet horror sensation was born.

Parsons’ film, penned by Will Sudich, is set in June 1990. It follows Clark (Chiwetel Ejiofor), a failed architect managing a large furniture store, and his therapist, Dr. Mary Klein (Renate Reinsve). Clark, an everyday man marked by a birthmark, stumbles upon a bizarre door in the store’s basement, leading him into an endless series of rooms. When he cannot escape, Mary sets out to find him.

Rather than diluting the original concept, the transition from short web horror to feature film preserves the menacing ambiance of the short film, amplifying it through haunting production design, deliberate cinematography, and a chilling soundscape. The relentless electrical hum sinks into your skull, inducing a lingering discomfort.

The early 1990s setting not only adds aesthetic value; the VHS textures, analog recordings, and institutional blandness place the film in a technological void just before digital surveillance became commonplace. This backdrop is vital as Back Room, at its core, explores horror through the lens of an unstable universe.

The “back room” represents more than a maze or an alternate dimension in need of explanation. The film hints that time spent inside affects one’s psyche, which in turn can alter the space itself. Perception becomes the construct of reality. Anxieties, memories, and attachments exert spatial influence. This concept imbues Back Room with greater depth than mere monster-under-the-bed tales.


Back Room possesses a richer texture than a mere monster-in-the-dark narrative.

The film positions itself within the current wave of liminal space horror, similar to Exit 8, Genki Kawamura’s adaptation of a Japanese video game about a man trapped in a subway loop. Both films recognize that repetition and minor errors can evoke more terror than outright violence. Rooted in viral digital culture, they transform mundane spaces into psychological traps. Yet, Back Room shifts focus from identifying anomalies within a defined loop to surrendering to a reality where the rules reshape themselves around the victims, unlike Exit 8, which adheres to a precise, almost game-like structure. Back Room is expansive, chaotic, and cosmological.

The film deftly explores the horrors of practicality. Theoretically, anything in the back room could be beneficial. Infinite free space might resolve storage, housing, logistics, and urban overcrowding challenges. It’s no wonder companies and research institutions view it as a treasure. However, Parsons subverts this notion into dread: an endless warehouse morphs into a nightmare when the exit remains elusive.

Performances anchor this abstraction. Reinsve shines as Mary, exuding warmth and eerie certainty. Ejiofor imbues Clark with the weary aura of a man who has failed once and now faces entrapment in an alternative realm.

The conclusion feels abrupt and is clearly designed to pave the way for future installments. Numerous questions linger, perhaps frustratingly so. Yet this ambiguity serves a purpose. At the end, we share Clark’s desire to unravel the mystery of the back room. In few modern horror films do shadows, wallpaper, and low-cost furniture manifest such hostility. The journey began with a simple image posted in a 4chan thread, culminating in a remarkably potent cinematic exploration of fear, space, and perception.

Davide Abbatesianni is a film critic based in Rome, Italy.

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Source: www.newscientist.com

Breakthrough Discovery May Solve the Cosmological Chicken-and-Egg Dilemma

Did the Supermassive Black Hole at the Center of this Galaxy Form Before the Galaxy Itself?

NASA, ESA, STScI, AURA; S. Smartt/Queen’s University Belfast

If we consider the musings of the novelist and philosopher Samuel Butler from 1878, stating that “chickens are simply the means by which eggs produce other eggs,” we might parallel this with galaxies being mere vehicles through which black holes generate further black holes. In this cosmic conundrum, it seems that black holes take precedence.

Every major galaxy observed in the universe is anchored by a supermassive black hole at its heart. This relationship is crucial, as the black hole influences the galaxy’s developmental trajectory by consuming the surrounding matter. Yet, the genesis of this crucial connection poses an enduring enigma in cosmology. Does matter assemble to create black holes, or do sizable galaxies form first and collapse into black holes?

A pivotal element of this discussion revolves around the peculiar nature of supermassive black holes themselves, which seem almost impossible given their enormity. The concept of such massive entities existing merely 500 million years following the Big Bang raises eyebrows. To illustrate, if we condense the universe’s timeline into a single calendar year, the first supermassive black hole would have emerged shortly after the new year, rapidly accumulating mass far exceeding that of our sun. Current physical laws struggle to elucidate how something could grow so swiftly.

Four primary hypotheses exist for the formation of supermassive black holes. The most straightforward involves the merging of stellar-mass black holes, born from collapsing massive stars. However, this process spans hundreds of millions to billions of years, generating a time constraint that complicates the scenario. Another theory posits the creation of significant early seeds—potentially large protostars, dark matter stars, or star clusters. Yet, this too faces timing issues, as these seeds must form swiftly within the universe’s first 500 million years.

This leaves us with two feasible explanations: direct collapse, wherein intense radiation impedes star formation in massive gas clouds, enabling them to become black holes directly, and the controversial primordial black holes theory.

Primordial black holes, although lacking concrete evidence, would create fascinating implications if proven real. Forming in the universe’s nascent moments—not from stars but due to extreme pressures—they could potentially resolve some formation predicaments. While primordial black holes can be smaller than traditional models, our focus here is on the more massive black hole candidates, as these primordial entities likely evolved into significant structures faster than others.


If primordial black holes exist and mechanisms for the early formation of supermassive black holes are validated, then the chicken-and-egg quandary could find resolution. The rapid formation of these black holes implies galaxies might not have developed at comparable speeds, though confirmatory evidence remains elusive.

Thanks to the James Webb Space Telescope (JWST), we now view the cosmic timeline with unprecedented clarity. Observations reveal the presence of supermassive black holes in every era examined. A standout discovery from JWST is a distant galaxy nicknamed the Little Red Dot. While newly uncovered, this discovery also revealed hundreds of further galaxies, characterized by their small size and significant distance.

After thorough investigation, researchers confirmed these entities are indeed galaxies, with their central black holes possessing unusually large masses and impressive spin rates. This remarkable size of black holes raises significant questions, especially after a 2024 study suggested they may constitute 20 to 70 percent of the total mass of their respective galaxies—an anomaly in current understanding.

JWST also uncovered a geometric anomaly that magnified light from a diminutive galaxy known as Abell 2744-QSO1 (or QS01). This observation, made just 700 million years post-Big Bang, enabled astronomers to assess the mass of QS01 and its central black hole. This type of measurement had never been accomplished for a black hole formed within a billion years of the Big Bang. The black hole’s mass was calculated to be roughly 50 million solar masses, with the total galaxy estimated at around 75 million.

Consequently, there are two pathways to interpret these findings: direct collapse or a primordial black hole, neither suggesting that galaxies predated their central black holes. Thus, it appears that the black hole at the center of QS01 is indeed the initial cosmic egg, resolving our query.

However, the complexity persists. We now need to investigate additional tiny red dots to determine whether QS01 is a typical example and to decipher the formation of its black hole and the galaxy’s composition. The ensuing discoveries are likely to unveil more mysteries. Yet, the progress made should be acknowledged, leading us to the undeniable conclusion that “the egg indeed came before the chicken.”

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Source: www.newscientist.com

Discover the World’s Most Unexpected Cat: The Quirkiest Feline Who Appears in the Strangest Places!

The black serval (Reptile Lus Serval) is a rare melanistic variant of the African Serval, a medium-sized wild cat indigenous to Africa.

While regular servals are remarkable with their long legs resembling supermodels, cheetah-like spots, elongated necks, and large ears, black servals elevate this elegance further. Their unique coloration stems from a genetic anomaly affecting pigment-producing cells, resulting in striking jet-black fur, often accented with faint “ghost” markings.

Melanistic servals are incredibly rare in the wild, primarily observed in regions with cooler climates, like the Aberdare Highlands in Kenya, which favors their dark coat. – Photo credit: Getty

With an impressive physique, servals possess the longest legs relative to their body size among felines. Standing around 0.5 meters (1.6 ft) tall, they can sprint at speeds up to 40 mph (64 km/h) and leap as high as 3 meters (9.8 ft). This remarkable agility is beneficial when hunting small mammals, reptiles, and amphibians, and aids in evading predators, including leopards, hyenas, and African wild dogs.

Additionally, servals boast the largest ears of any cat relative to their head size. If scaled to human proportions, a serval’s ear would resemble a dinner plate, though not nearly as effective. With 22 muscles allowing each ear to rotate independently by 180 degrees, servals can pinpoint the location of prey concealed in tall grass, even underground.

These adaptations make the serval one of the most efficient hunters in the wild. Unlike lions and leopards, which have a one in three chance of a successful hunt, servals achieve over a 50% success rate.

Typically, black servals are found in densely forested regions above 2,000 meters (approximately 6,600 feet) in altitude, such as the Aberdare Mountains and the Ethiopian Plateau. This environment was once thought to provide special camouflage, allowing these cats to blend into the shadows.

Interestingly, a black serval was also spotted in the Tsavo Ecosystem, the largest nature reserve in Kenya. Research conducted by the Sheldrick Wildlife Trust and Wildlife Works from 2011 to 2016 revealed that 47 percent of servals observed in Tsavo exhibited melanism, a significant increase compared to forested areas, prompting questions about why black servals thrive in this bright, arid habitat.

The reasons remain uncertain. One hypothesis suggests that melanism might attract attention due to sampling bias, while another attributes the phenomenon to random genetic fluctuations. A third theory proposes that the unique genetics of these cats provide advantages such as enhanced thermoregulation or disease resistance, increasing their survivability and enabling them to pass on their melanistic traits.

Regardless of the reason, black servals continue to captivate and inspire awe among wildlife enthusiasts.


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Unraveling Mysterious Signals from the Galaxy: New Insights for Decoding Extraterrestrial Messages

In recent years, astronomers have been intrigued by a series of mysterious radio signals originating from the Milky Way. Approximately 12 of these long-period radio transients (LPT) have been detected across various regions of the galaxy.

Currently, scientists at the University of Sydney have made significant progress in understanding one of these signals. A study published in Nature Astronomy, led by Covey Rose, suggests that the signal originates from an anomalous star system they’ve dubbed the “Star Rosetta Stone.” This discovery could be pivotal in unraveling the nature of these enigmatic signals.

The newly identified system, known as ASKAP J1745-5051, consists of a white dwarf—a dense stellar remnant comparable in size to Earth, yet possessing a mass similar to that of the Sun—and a larger but lower-mass red dwarf star, roughly one-tenth the mass of the Sun. These two stars are in a close orbit, completing a full revolution in just over one hour.

Interactions between the magnetic fields of the stars generate radio bursts at specific points in their orbits, resulting in signals that occur at consistent intervals.

“This system serves as a vital tool for deciphering these signals. It may help us determine whether other long-period transients are related to pulsars or white dwarf systems acting as stellar Rosetta Stones,” Rose stated, referencing the archaeological artifact that aided in translating ancient Egyptian hieroglyphs.

The two stars engage in magnetic and gravitational interactions – Credit: Carl Knox (OzGrav/Swinburne) and Dr. Joshua Preston Pritchard (CSIRO)

In addition to radio signals, materials from the less massive star are drawn toward the white dwarf, heating it and resulting in the emission of X-rays.

This groundbreaking discovery provides a unique chance to study the magnetic interactions between stars and explore extreme plasma physics under conditions that cannot be replicated on Earth.

“These systems are natural laboratories,” Rose emphasized. “They enable us to test our understanding of how matter behaves in the presence of intense magnetic and gravitational forces.”

Dr. Darren Baskill, an expert on cataclysmic systems from the School of Physics and Astronomy at the University of Sussex, commended the research, stating, “They provided excellent observations and explanations for these long-period radio transients.”

However, he cautioned, “While the source of these radio waves appears to be identified, many questions about the physics of cataclysmic stars still remain.”

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Entomologists Uncover Millipede Evolution: A Comprehensive History

Two previously elusive millipede groups, Siphoniurida and Siphonocryptida, have been identified as the last missing links in the evolutionary history of Earth’s oldest land animals, as revealed by a research team from Virginia Tech.



As of now, 14,232 millipede species have been identified, with countless others yet to be documented. Image credit: Vazquez Valverde et al., doi: 10.1016/j.cub.2026.05.035.

“Millipedes helped pave the way for vertebrates to inhabit land for over 80 million years,” stated Dr. Paul Marek, the lead author from Virginia Tech.

“They truly laid the groundwork for subsequent terrestrial life, including humans and other vertebrates.”

In this groundbreaking study, Dr. Marek and his team merged genomic data from existing millipede species with fossil morphological evidence.

They analyzed hundreds of genes across 82 millipede species, including data from 29 fossils.

A significant milestone was the successful sequencing of DNA from the two elusive groups, Siphoniurida and Siphonocryptida, whose genetic information had never been accessed before.

Researchers traveled to Mexico’s Los Tuxtlas Island and Spain’s Canary Islands to gather specimens such as Sifoniurus neotropicus and Hildicryptus canariensis.

“It took 10 researchers over a week to locate a single tiny 10mm adult,” commented lead author Luisa ‘Fernanda’ Vázquez Valverde, also affiliated with Virginia Tech.

“Finding them in the wild was difficult because they resembled small white nematodes.”

“I wasn’t even sure it was a millipede until I examined it under the microscope.”

Interestingly, the study revealed that one of the “missing” groups, Siphonocryptida, is not a standalone order but part of an already recognized lineage. In contrast, Siphoniurida was successfully positioned on the evolutionary timeline.

The research traces the origins of millipedes back roughly 460 million years, during the Ordovician period, about 35 million years before the earliest known millipede fossils, suggesting these creatures arose much earlier than previously believed.

Millipedes dominated the terrestrial landscape over 80 million years ago, thriving on decaying organic matter even before the emergence of trees and flowering plants, marking them as some of the earliest terrestrial pioneers.

“The most surprising aspect was the ancient nature of some of these lineages,” noted Dr. Marek.

This study also indicates that millipedes have been producing chemical defenses for approximately 260 million years, establishing them as one of the earliest creators of biological and chemical substances on Earth.

“They were among the first to develop chemical defenses; essentially, they are tiny chemical factories,” stated Dr. Marek.

For more insights, refer to the study results published in Current Biology.

_____

Luisa F. Vázquez Valverde et al.. Reshaping the millipede tree of life by including the last two unsampled orders. Current Biology, published online June 12, 2026. doi: 10.1016/j.cub.2026.05.035

Source: www.sci.news

Experts Reveal How Aging Can Be Reversed: Discover the Convincing Evidence

The concept of “reversing aging” has become the ultimate goal in the health and beauty industry.

However, regulatory bodies often challenge claims that beauty products can “reverse aging,” pushing for their removal due to a lack of substantial evidence.

While wrinkle creams market themselves as having “anti-aging” benefits, it is a stretch to say they can actually rewind the biological clock.

Though humans cannot turn back time, nature provides a fascinating example: the immortal jellyfish (Turritopsis dohrnii).

Resembling a pea-sized, wobbling Doctor Who, Turritopsis possesses the remarkable ability to regenerate itself, even after sustaining fatal injuries. In a unique process, this jellyfish settles, contracts its tentacles, and morphs into a blob.

The immortal jellyfish thrives in tropical waters – Image credit: Alamy

This blob enters the “polyp state,” an early life stage through which Turritopsis can regenerate and create new jellyfish. These cloned jellyfish are genetically identical and split to become independent organisms.

Remarkably, this capability has only been observed in the immortal jellyfish in captivity, leaving scientists astounded since its discovery in the 1980s.

It’s worth noting that humans also perform a fascinating regenerative process when creating offspring. While Turritopsis generates new jellyfish from itself, human embryos emerge from an oocyte (egg cell) present since birth, thus also ‘regenerating’ from our cells.

Newborns start life with a biological aging clock reset to near zero – Photo credit: Getty

A key difference lies in the fact that human babies are not clones. They result from the unique combination of DNA from the egg and sperm. In contrast, immortal jellyfish can regenerate without the need for sperm in their regenerative state.

Thus, the new jellyfish can be referred to as “babies,” despite being exact copies of the original. This fascinating process allows them to revert to a stage where they can reproduce, akin to reversing menopause, enabling them to evade death.

Overall, their extraordinary abilities lend some biological credibility to the idea of reversing aging.

Ongoing research into the immortal jellyfish aims to unlock their secrets, potentially paving the way for treatments of age-related diseases like dementia.

In a 2022 study, Spanish researchers discovered that the immortal jellyfish have more active genes related to DNA repair, telomere preservation, and stem cell maintenance compared to other jellyfish species.

Future research will reveal whether these findings can indeed reverse human aging or help sidestep death altogether.


This article (by Jackie Bullock, MA) explores the question: “Can aging actually be reversed?”

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Harvard Study Reveals Need to Rethink the Five-Meal-a-Day Diet

Recent research indicates that not all five-a-day meals are created equal, with only a small percentage of individuals obtaining sufficient micronutrients from their fruit and vegetable intake.

According to the study, conducted by scientists at Harvard Medical School and the University of Reading, the diets of participants in the UK and US were analyzed for their flavanol intake—compounds with antioxidant and anti-inflammatory properties found in plants.

Flavanols are crucial dietary components as they “have beneficial effects on vascular function and blood vessel health” and can reduce cardiovascular mortality, explains Professor Gunter Kuhnle from the University of Reading.

Despite their importance, the study found that many individuals failed to reach the recommended levels of flavanols. Researchers monitored flavanol levels through urine biomarkers, tracking the diets of over 30,000 participants.

Optimal flavanol intake is between 400-600 mg per day, yet fewer than one in five participants achieved this level, even among those who consumed five servings of fruits and vegetables daily.

Researchers emphasize that the key factor is which types of fruits and vegetables you consume, rather than simply aiming for five servings a day.

So, which fruits and vegetables should be prioritized for their flavanol content?

Fruits high in flavanols include plums, which contain around 450mg of flavanols per 500g punnet, cranberries at approximately 300mg per 250g punnet, and blackberries, which have about 250mg per 200g of punnet.

You can also reference the Phenol Explorer and the USDA database for more information on flavanol levels in various foods. However, it’s essential to note that different apple varieties may contain varying amounts of flavanols.

It’s vital to make conscious choices and consume a diverse range of fruits and vegetables. “Pairing green tea with blackberries or having a whole apple can significantly impact your flavanol intake,” suggests Dr. Javier Ottaviani, the lead author of the study at the University of California, Davis.

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How New World Cup Ball Design Changes Could Impact Close Game Outcomes

As the highly anticipated match between Mexico and South Africa kicked off, an audience of football fans, players from different teams, and a dedicated group of scientists from the USA, South Korea, and Japan watched intently, holding their breath.

For fans, the outcome was everything. For players, it was a matter of competition. However, for the scientists, the focus was entirely on the ball.

The opening match featured the Trionda – a football that underwent months of research and development.

Tradition Meets Innovation

Each World Cup brings a new ball introduced by FIFA, soccer’s governing body. This not only serves as a marketing strategy but also aims to enhance the experience for players, officials, and fans alike.

For instance, the Telstar, launched for the 1970 World Cup, was the first design featuring multi-colored panels, making it easier for viewers with black-and-white TVs to track its movements.

Telstar’s iconic 32-panel design paved the way for classic football aesthetics – Photo Credit: Getty

The Azteca, utilized in the 1986 World Cup, was the first ball made from synthetic materials, enhancing its water resistance and maintaining its weight and shape even in rain.

The Azteca was inspired by the host nation’s rich murals and architecture – Photo Credit: Getty

The Trionda, crafted for this year’s tournament, is arguably the most advanced football to date.

With fewer panels, a rougher texture, and a more cohesive structure compared to its predecessors, the Trionda also includes integrated sensors that transmit real-time data to video assistant referees.

Surprisingly, advancements in technology haven’t drastically altered Trionda’s behavior, which is vital, as noted by John Eric Goff, a physicist from the University of Puget Sound involved in the study of the ball.

“While I crave the marketing buzz and excitement that comes with a new ball, we must ensure that it doesn’t behave unpredictably for players,” Goff explains.

His study corroborates this, showing that while Trionda and its predecessors exhibit different designs, their functional performance remains consistent.

Trionda is poised to transform gameplay experiences at this year’s tournament.

All except one: the Jabulani.

The Jabulani, featured in the 2010 World Cup, gained notoriety for its unpredictable behavior on the pitch. “The Jabulani was excessively smooth, affecting its flight,” Goff notes.

In minimal spin situations, most balls have a predictable trajectory. However, the Jabulani often stalled mid-air, veering off course unexpectedly.

This erratic behavior had significant implications, especially during critical shots on goal, potentially altering the outcome of games and even the tournament itself.

The Jabulani’s unpredictable flight drew complaints from players and goalkeepers alike throughout the tournament – Photo Credit: Getty

The reason behind Jabulani’s instability lay in its aerodynamic properties. With only eight panels and minimal seams, air flowed over the ball’s surface with lesser resistance.

In the absence of spin, these seams created asymmetrical airflow, diverting the ball’s path unpredictably. “It was reminiscent of a beach ball,” Goff remarks.

Despite having only four panels, one would assume the Trionda could share the same fate. However, Goff assures that the longer, deeper, and wider seams in Trionda help maintain a predictable airflow around the ball, reducing turbulence.

The team employed advanced laser scanning techniques to assess the seams, discovering that while the added grooves and microtextures increase resistance, they also enhance overall control.

“This ball’s roughness will add slight resistance on high-speed shots, possibly reducing the distance on corner kicks and free kicks compared to previous World Cup balls,” Goff comments.

Exploring New Frontiers

This leads to an intriguing question: If maintaining consistency is paramount, why design new balls every four years?

What drives the substantial investment (reportedly 3.5 years in development for Trionda) and innovative efforts (with the ball retailing at £130/$170)? Why not simply use a tested ball?

Although Adidas, the official World Cup ball supplier since 1970, did not respond for comment, Goff offers a compelling explanation.

“The aspiration is to discover the perfect sphere. It’s a quest of curiosity: Can we achieve this? Much like the Space Race of the 1960s – the goal is enticing simply because it exists,” he reflects.

“Why aim to decrease the number of panels? Because it’s uncharted territory and a challenge worth pursuing. Let’s see what happens.”

Now that Trionda has made its debut, Goff and his team are eager to monitor its performance throughout the tournament, keen to compare their predictions with real-time action on the field.

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Source: www.sciencefocus.com

Unlocking Beer Brewing Techniques: Insights from Beer Foam

Every glass of beer deserves a frothy head, created by the carbon dioxide bubbles that rise to the surface. This essential foam not only enhances the visual appeal but also affects the overall drinking experience.

Unlike the foam seen in other carbonated drinks, beer foam is unique due to its protein coating, forming a protective film that prolongs its lifespan.

<p>These proteins originate from the malted grains utilized during the brewing process.</p>
<p>Recent <a href="https://pubs.aip.org/aip/pof/article/37/8/082139/3360405/The-hidden-subtlety-of-beer-foam-stability-A" target="_blank" rel="noreferrer noopener">research</a> indicates that proteins found in long-fermented beers, particularly Belgian ales, excel at stabilizing foam, resulting in a longer-lasting head.</p>
<p>Beers with elevated protein content, such as wheat beers, tend to exhibit thicker and more durable foam. Cheers to that!</p>
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<p><em>This article addresses the inquiry from Stan Parker of Plymouth: <strong>Why do some beer bubbles last so long?</strong></em></p>
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Stunning Photos Reveal Sand Encroaching on Sahara Desert Oases

An oasis on the outskirts of Mao, Chad

Photography by Tommy Trenchard/Panos

Located adjacent to Mao in Chad, this oasis enables farmers to cultivate date palms and various crops in the surrounding fields. However, the ongoing rise in temperatures from climate change poses significant risks to these vital oases and the communities and wildlife reliant on them.

This compelling image is part of a series captured by photographer Tommy Trenchard, whose photo essay titled “Saving an Oasis in the Sahara Desert” explores the alarming disappearance of these fragile ecosystems. As temperatures escalate, vegetation surrounding the oasis diminishes, and sand dunes encroach. To combat this, farmers in villages like Caou, also in Chad, are constructing barriers made of palm fronds, as depicted in the image below.

Farmers construct barriers against encroaching sand dunes threatening Kau’s oasis.

Photography by Tommy Trenchard/Panos

Mao and Kaou are situated in the Sahel region, a semi-arid area that stretches across Africa from Mauritania to Eritrea, just south of the Sahara Desert. In 2007, the African Union initiated the Great Wall initiative aimed at combating desertification in this vulnerable region.

Farmers erect palm leaf barriers to safeguard Kau oasis

Photography by Tommy Trenchard/Panos

In order to combat this issue, solar-powered water pumps are being installed in areas such as Barkadoursou, located near Mao, Chad, to assist farmers in irrigating their crops. However, the effectiveness of the Great Wall project remains debated, with many questioning its future success.

Borehole installed supporting farmers near Barkadoursou oasis

Photography by Tommy Trenchard/Panos

Despite initiatives such as barrier construction and borehole installations, the future of these oases remains uncertain, particularly as climate models predict further temperature increases.

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Source: www.newscientist.com

Exploring Henry Moore: A Stunning New Exhibition Merging Art and Nature

Henry Moore’s Large Spindle Piece (1966)

Ines Stuart Davidson/Royal Botanic Gardens, Kew

While wandering around the large green sculpture, I noticed how its shadows and light shifted with my movements, causing my stress to dissolve. Henry Moore’s work, particularly Mother and Child Lying Down, exudes tranquility, inviting one to envision a mother and child basking in a serene garden.

This sculpture is among 30 of Moore’s creations displayed amidst the landscape and conservatory at London’s Kew Gardens for the exhibition, Henry Moore: Monumental Nature, which is available until January 31st. Observing the smooth curves and sharp edges of these bronzes, I realized Moore’s inspiration drawn from nature. For instance, his Large Spindle Piece evokes thoughts of seeds, while Sheep Piece symbolizes the bond between a lamb and its mother. The associated work,Three-piece Sculpture: Vertebrae, resonates with the concept of a backbone even before knowing its title.

Moore’s strategic incorporation of holes and empty spaces allows visitors to appreciate fresh perspectives on both the sculptures and the surrounding landscape. For example, Double Oval appears reminiscent of a pelvis and features significant openings in each leaf, illustrating a palm house from one angle and a tree from another.

A complementary exhibit located in the Shirley Sherwood Gallery of Botanical Art offers an intriguing look into Moore’s artistic process. His etching of an elephant skull captivates, showcasing how he masterfully uses curves, shadows, and light to create depth. I found myself entranced by the squiggly lines portraying bone growth that anchor these intricate labyrinths to their original forms. If you have the chance, make sure to see this exhibition along with his remarkable tree paintings, which provide insight into the inspiration behind some of his more abstract sculptures.

Starting June 5, four of Moore’s sculptures will also be displayed alongside contemporary works at Kew’s sister site, Wakehurst, near Haywards Heath. Check out Henry Moore Etc.. Wakehurst is a stunning landscape featuring meadows, woodlands, and wetlands, as well as the Millennium Seed Bank, which has its origins in an Elizabethan mansion. Before the new facility was established, seeds were preserved and tested in the charming chapel and billiards room, both of which display photographs and a small exhibition that narrates their history.

My favorite season is April and May, when the grounds are adorned with thousands of bluebells. Henry Moore Etc. will conclude in May 2027. Visit when the bluebells bloom to appreciate the incredible beauty created by both man and nature.

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Source: www.newscientist.com

Are Killer Robots Here to Stay? Time to Decide on Accepting Autonomous Weapons

Should Drones Be Allowed to Kill Autonomously?

Shutterstock/Thongsuk7824

For years, unverified reports have circulated regarding AI-controlled weapons autonomously eliminating soldiers on the battlefield. Recent revelations confirm these events have occurred.

As we discuss here, the deployment of autonomous weaponry during test exercises signifies a pivotal moment in modern warfare. However, this development should come as no surprise. Such technology has been in existence for some time, and humanity has a historical tendency to wield weapons since their inception.

This does not, however, preclude the possibility of implementing a reversal. The rationale for banning autonomous weapons is straightforward: utilizing AI without human oversight risks mistakenly targeting either enemy forces or innocent civilians. Ethicists further assert that these weapons strip combatants of their dignity, simplify warfare, and blur the lines of accountability for lethal acts.

Should we decide to ban these weapons, action should have taken place before their advent—not afterward, as seen with cluster bombs and blinding lasers. The United Nations has been negotiating a ban on fully autonomous weapons for over a decade, yet nations like India, Israel, Russia, and the United States have stalled the discussions, according to Human Rights Watch.


Humans have never invented a weapon and then refrained from using it

A comprehensive framework exists to ban autonomous weapons and could be incorporated into the list of excessively harmful or indiscriminate arms prohibited under the United Nations Convention on Certain Conventional Weapons. Complicating matters further is the fact that these drones can be constructed with inexpensive components sourced online, coupled with open-source software. This means that even a tech-savvy teenager could potentially create such systems.

As highlighted in this article, the conflict in Ukraine underscores the inevitability of robots dominating future battlefields. The pressing question for global leaders is whether humans should retain authority and responsibility for pulling the trigger, or allow machines to operate independently. Regardless of the choice, it is crucial to reach a decision before this technology becomes widespread.

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Source: www.newscientist.com

Understanding the Relationship Recession: Why It’s a Major Concern for Gen Z

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New Discovery: Supernova Remnant Found Near Milky Way’s Central Black Hole

Astronomers have discovered the potential remnants of an ancient stellar explosion just a few dozen light-years from Sagittarius A*, the supermassive black hole at the center of the Milky Way, using NASA’s Chandra X-ray Observatory and ESA’s XMM-Newton satellite.



This composite image integrates X-rays from the Chandra and XMM-Newton missions (represented in blue) along with radio data from the MeerKAT telescope in South Africa (in red). It also includes optical images from the Pan-STARRS telescope in Hawaii. Image credits: NASA / CXC / UCLA / Zhu et al. / ESA / XMM-Newton / PanSTARRS / MeerKAT / CSA / STScI / SAO / L. Frattare & P. Edmonds.

Recent X-ray data from the Chandra and XMM-Newton missions suggest a new supernova remnant candidate approximately 26,000 light-years from Earth.

The data revealed a ‘clump’ of X-ray radiation embedded within a larger cloud of expanding gas, likely remnants of a giant star that underwent a supernova explosion, according to the astronomers’ report.

This structure exists within a gas bubble (referred to as an HII region) surrounding a massive young star, where hydrogen has been stripped of its electrons.

This gas bubble is identified as Sagittarius C, which emits bright radio signals.

If confirmed as a supernova remnant, it is expanding at an estimated speed of 3.2 million kilometers per hour (2 million miles per hour) and is believed to be at least 1,700 years old.

Previous observations from NASA’s SOFIA mission indicated a shell of gas encircling Sagittarius C, suggesting a past stellar explosion in this region.

The long filaments visible in radio images are primarily generated by high-energy particles navigating along magnetic fields perpendicular to the galactic plane, according to the researchers.

A star’s fusion process creates elements from hydrogen and helium, which were plentiful at the universe’s onset.

When a star reaches the end of its life and explodes as a supernova, the newly formed elements are expelled into interstellar space, providing materials for the formation of new stars and planets.

The research team analyzed X-ray data to detect signs of increased abundance of critical elements in the debris, which could indicate they were ejected by an explosive stellar event.

No enhancement was observed, suggesting that the stellar debris may have already begun to mix with the surrounding gas.

Alternatively, the X-ray clump could originate from a gathering of massive stars in the vicinity; however, this scenario is deemed unlikely, as the X-ray emission from this blob is over ten times brighter than known clusters with bright, massive stars, according to the scientists.

Refer to their published study in the April 16th issue of the Astrophysical Journal.

_____

Zhu Zhenlin et al.. 2026. Diffuse emission of X-rays in the Sagittarius C complex. APJ 1001, 197; doi: 10.3847/1538-4357/ae547c

Source: www.sci.news

Link Between E-Cigarette Use After Quitting Smoking and Lung Cancer Risk

E-cigarettes health risks

Increasing Evidence of E-Cigarette Health Risks

Image Credit: Dead Mitiei/Shutterstock.

A recent study involving over 4.5 million participants indicates that smokers who switch to vaping after quitting cigarettes are more than 50% more likely to develop lung cancer compared to those who successfully quit smoking altogether. However, it still underscores that e-cigarettes may present less risk than continuing to smoke.

“This study contributes to a growing body of evidence indicating that e-cigarettes are not as low-risk as previously believed,” says Becky Freeman from the University of Sydney, Australia, who was not involved in the research. “[It’s] crucial for those attempting to quit smoking to seek safer options first, and only use e-cigarettes after exhausting other methods.”

In the UK by 2024, over 40% of smokers who quit are expected to use e-cigarettes. Notably, 20% of ex-smokers were still vaping more than a year after quitting. Although many advocate for e-cigarettes as an effective smoking cessation tool, they have been associated with airway inflammation, reduced lung function, and even lung cancer in animal studies.

To further investigate the effects of e-cigarettes, Kim Young Wook and researchers from Seoul National University followed more than 4.5 million adult smokers as part of South Korea’s National Health Checkup Program from 2018 to 2023.

Participants were categorized as current smokers, short-term quitters (those who hadn’t smoked since at least 2018), or long-term quitters (those who hadn’t smoked since at least 2014). Over the study period, 35,887 participants developed lung cancer, with 12,807 related deaths recorded.

Analysis of this data revealed that ex-smokers who vape are at a significantly greater risk of lung cancer death compared to their counterparts who stopped smoking completely. “Ex-smokers who continued vaping faced a 56% higher risk of lung cancer,” Kim stated.

While long-term studies are essential, some chemicals found in e-cigarettes have been associated with DNA damage. Vaping has also been linked to oxidative stress, meaning an imbalance between free radicals and antioxidants in the body, as well as epigenetic changes affecting genes and inflammation of respiratory and oral tissues.

Nonetheless, Kim and his team emphasize that they cannot definitively conclude that e-cigarettes cause lung cancer, and that further research is warranted, especially in populations outside of South Korea.

Remarkably, ex-smokers who vape experienced a significantly lower risk of death from all causes in comparison to active smokers, reinforcing the broader health benefits of quitting smoking altogether.

Nicole Lee from Curtin University in Perth, Australia, pointed out that the study’s findings suggest that completely quitting both smoking and vaping is more effective for preventing lung cancer than continuing to vape while attempting to quit smoking. “The results of this study are vital for individuals who have quit smoking,” she emphasized.

“Our recommendation to smokers remains that the safest choice is to quit entirely, but if quitting is challenging, [without the use of e-cigarettes] or if they prefer not to use them, transitioning to e-cigarettes is a safer alternative,” Lee stated. “As a harm reduction strategy, it certainly is preferable to continuing to smoke.”

Professor Bernard Stewart from the University of New South Wales in Sydney added that further research is necessary before implementing public health policies that may impose additional restrictions on e-cigarettes.

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Source: www.newscientist.com

El Niño Is Here: Expect Unpredictable Weather Patterns Ahead

Extreme Weather from El Niño Can Cause Major Flooding

Antonio Masiello/Getty Images

El Niño has officially commenced and is projected to evolve into a “super” El Niño, resulting in amplified global temperatures and extreme weather events.

El Niño represents a natural climatic phenomenon in the tropical Pacific Ocean, occurring when east-to-west winds weaken, redirecting warm water pools from the western Pacific back eastward. This influx of warm water significantly heats the atmosphere, contributing to a rise in global temperatures.

The National Oceanic and Atmospheric Administration (NOAA) has confirmed an El Niño occurrence, as sea surface temperatures in the Middle East and the Pacific Ocean have surged over 0.5 degrees Celsius above the norm in the last month, with predictions indicating this trend will persist for at least the next six months. Concurrently, the Japan Meteorological Agency has also marked the onset of El Niño.

Matthew Rosencrans from NOAA’s National Weather Service stated, “Westerly wind anomalies are observed from the International Date Line to approximately 130 degrees west longitude, signifying reduced trade winds in the area south of Hawaii, which enables warmer water to move eastward.”

Furthermore, NOAA has indicated a 63% probability that this El Niño will intensify into a “super” El Niño if sea surface temperatures in the equatorial Pacific exceed 2 degrees Celsius above average. This may lead to the hottest El Niño on record.

Adam Scaife from the Met Office emphasized, “This El Niño is anticipated to be a significant event, likely among the most intense ever recorded.”

Out of 200 model simulations, none predict a return of sea surface temperatures in the Pacific Ocean and Middle East below 1°C this year, indicated Rosencrans. Some models forecast a rise to 2.6 degrees Celsius, with one Canadian model even suggesting a peak of 3 degrees Celsius, surpassing the previous record of 2.5 degrees Celsius set during the 1982-1983 Super El Niño, which resulted in significant flooding and an estimated death toll of 1,300 to 2,000 in Peru.

Global temperatures are expected to peak this winter and worsen into 2027. This impending heat wave, layered on top of a current global warming trend of 1.36°C, is likely to make the upcoming year the hottest on record. The increase in temperatures exacerbates extreme weather, as a warmer atmosphere can hold more energy and moisture, often leading to unforeseen tropical weather patterns.

Rosencrans explained, “El Niño alters the probability of precipitation, potentially leading to heat waves or cold fronts in specific areas. It’s like rolling a set of dice, enhancing the likelihood of rain in Southern California, drought in the Maritime Continent, and possibly extremes in India and northern Australia.”

The southern United States may experience decreased summer rainfall, transitioning to cooler, wetter, and stormier conditions in winter, potentially extending as far south as Mexico. Meanwhile, regions like Southeast Asia and southeastern Africa are likely to face increased heat and drought, raising wildfire risks.

Independent climate scientists suggest that El Niño may lead to colder UK winters, though it could also usher in warmer and wetter conditions. Ella Gilbert noted that the impacts of El Niño on the UK are less predictable due to various influencing climate factors. “Storm paths often shift, bringing warmer and wetter conditions, but historically, the UK has seen more storm events than any other region, though the direct correlation is less clear compared to the US or Australia.”

Heat and drought conditions can jeopardize global food supplies, adversely affecting essential products such as rice, coffee, and chocolate. Weston Anderson of the University of Maryland warned that a decline in rice yields could prompt India, a leading producer, to impose export restrictions, leading to rice shortages and rising prices internationally.

“The ripple effect across the food system is concerning,” Anderson stated. “We particularly focus on rice due to its crucial role in food security, and a deficit during the monsoon season poses a serious threat to production levels.”

Experts anticipate that El Niño events may become increasingly frequent, with escalating global warming exacerbating the adverse effects, resulting in dire issues such as forced migration. Chloe Brimicombe of Oxford University asserted, “Long-term strategies and preparedness are essential as climate change intensifies alongside the ongoing impacts of El Niño.”

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Source: www.newscientist.com

How Quantum Computers Efficiently Mine Cryptocurrencies with Reduced Energy Use

Advantage2 Quantum Processing Unit

D-Wave

A groundbreaking development in quantum computing has emerged, as researchers announce the first successful experiment of a quantum computer mining cryptocurrencies, achieving remarkable energy efficiency.

The intersection of cryptocurrency and quantum computing presents significant implications. On one hand, a sufficiently advanced quantum computer poses a threat to encryption algorithms safeguarding cryptocurrencies. Conversely, research indicates that quantum computing could potentially mitigate the immense energy demands associated with cryptocurrency mining.

To explore these possibilities, Colton Dillion from Postquant Labs and his team have created an experimental blockchain network called Quip, operational since April. This blockchain operates like a public ledger where participants add records by competing to solve complex calculations known as “proof of work.” Traditionally, successful participants earn coins while ensuring transactions are permanently logged.

In Quip, the proof-of-work tasks involve optimization problems, such as determining the ideal schedule for food delivery or constructing an investment portfolio. The network predominantly employs standard computers, but it also integrates D-Wave’s Advantage2 quantum computers, which demonstrate superior performance compared to conventional systems.

“This challenge presents real difficulty for classical devices, yet remains solvable for both classical and quantum technologies—indicating the substantial potential of quantum advancements,” stated Carlos Perez Delgado from the University of Kent, UK, who is not affiliated with Quip.

The computational capabilities of D-Wave quantum computers have historically sparked debate. Noteworthy is the 2024 claim by the company that its quantum system addressed a problem surpassing the capabilities of traditional supercomputers, only for another research team a year later to replicate similar results on a regular laptop.

Dillion posits that Quip is structured to circumvent such disputes due to its decentralized framework. “Blockchain facilitates transparency: anyone skeptical of our findings can join and verify for themselves,” he remarks.

D-Wave’s CEO, Alan Baratz, noted in a June 1 presentation that the Advantage2 is accessible on Quip for a mere 5 minutes daily, competing on roughly a third of the blocks added and winning 92% of them. This statistic suggests a significant edge for quantum machines within Quip’s proof-of-work environment.

Moreover, Baratz highlighted that the Advantage2 operates with much reduced energy consumption compared to competitors, although detailed benchmarks remain unpublished. “For me, quantum computing signifies energy-efficient solutions for complex computational challenges,” Baratz asserts.

Preliminary findings from Quip lend support to this claim. Dillion asserts that, on average, the Advantage2 consumes approximately 100 times less energy (12.5 watts) to secure a block compared to 1334 watts for traditional systems. He estimates that standard computers would require 300 times more power to compete effectively against the Advantage2. Additionally, Quip’s architecture is fortifying against potential attacks from malevolent quantum machines, a feature lacking in many existing blockchains requiring updates to achieve quantum security.

Can networks like Quip pave the way for a more secure and sustainable blockchain future? The answer is nuanced, according to Olivier Ezraty of the Quantum Energy Initiative. While quantum computers may lower energy costs per transaction, the substantial investment required for developing and maintaining quantum hardware complicates the economic feasibility for large-scale operations. He comments, “They show promise for reducing total energy expenses, yet entail significant capital costs, including the energy input for manufacturing D-Wave quantum computers.”

On the other hand, Perez Delgado expresses optimism. “Given the economic drive for faster, eco-friendlier crypto mining, I firmly believe this technology will gain traction in the future,” he anticipates. Other enterprises, such as BTQ Technologies and Quandela, are also developing quantum proof-of-work projects, utilizing light-based computing instead of D-Wave’s superconducting circuit design.

Ultimately, Quip aims for an even greater vision. Dillion envisions a global network interconnecting various quantum computers, enabling widespread access to these innovative systems that currently remain scarce and expensive. This could democratize access to quantum technology, he asserts. The team is preparing to introduce additional proof-of-work problems and connect quantum systems from manufacturers beyond D-Wave.

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Source: www.newscientist.com

Revolutionary Nuclear Clock Launches a New Era in Precision Timekeeping

Revolutionary Nuclear Clock Concept

Oliver Diekmann, Vienna University of Technology

Researchers have achieved a breakthrough by creating the first functional nuclear clock, utilizing the vibrations of atomic nuclei for precise time measurement. This innovative technology, pursued for over two decades, has the potential to revolutionize timekeeping accuracy and enable explorations into new physics.

Current advanced atomic clocks primarily rely on electrons to track time. Electrons inhabit specific energy levels around an atom’s nucleus and transition between these levels when exposed to certain light frequencies. The frequency of light determines how time is measured, similar to the ticking of a traditional clock.

Nuclear clocks, however, can harness the higher energy levels of atomic nuclei themselves. Theoretically, they promise greater precision than current electron-based systems. Such high-energy transitions could allow for timekeeping over billions of years, providing physicists tools to investigate exceptional new phenomena.

Yet, a significant hurdle remains: most atomic nuclei require energy levels beyond what current lasers can offer for excitation. However, thorium has emerged as a promising candidate, as it can be stimulated with relatively low energy levels. This focus shifted to thorium became evident following the discovery of targeted laser frequencies for nuclear excitation in 2023.

Researchers, including Torsten Schumm from the Vienna University of Technology, have successfully developed a nuclear clock using thorium, which holds potential in the quest for dark matter particles. Schumm states, “This represents the culmination of 15 to 20 years of intense research. It’s astounding to see a dream realized.”

Previous attempts confirmed thorium’s nuclear frequencies could be excited effectively, but they lacked an efficient frequency adjustment mechanism. “If there’s ever been a defining moment, this must be it,” asserts Harry Morgan from the University of Manchester.

The nuclear clock was engineered by embedding thorium in a calcium fluoride crystal and exposing it to an ultraviolet laser. Acting as the clock’s hands, the laser toggles between two frequencies surrounding thorium’s nuclear energy frequency. Equal absorption at both frequencies indicates proper tuning. If the frequencies differ, feedback is employed to adjust the laser frequency for optimal accuracy.

While this nuclear clock does not yet exhibit the stability of leading atomic clocks—losing several seconds every billion years—Schumm and his team view it as a proof of concept, with refinements pending. “For such a basic prototype, we were pleased with its surprising stability,” comments team member Ekkehard Peik from the PTB, German National Metrology Institute.

Even in its current state, nuclear clocks can perform functions unattainable by atomic clocks, as atomic nuclei are generally shielded from the chaotic electromagnetic influences of surrounding electrons. This allows for more accurate measurements of fundamental physical properties since nucleons can transition with minimal external noise. Additionally, nuclear clocks operate at room temperature, eliminating the need for extreme cooling techniques or vacuum conditions.

Moreover, the simplicity of the design could facilitate miniaturization, broadening the range of potential applications, including satellite tests of relativity. “Though we have not reached the leading-edge performance, significant improvements are anticipated shortly,” indicates Eric Hudson from UCLA.

By leveraging high-energy transitions in thorium nuclei, researchers aim to exclude dark matter particle influences. If dark matter interacts with ordinary matter like electromagnetic forces, it would subtly alter the nuclear energy transitions observed in thorium. This alteration could potentially uncover measurable changes in the clock’s frequency, paving the way for deeper insights into the universe.

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Source: www.newscientist.com

Mastering Conversations: Tips to Shine When Talking to Strangers

Talking to strangers can be daunting, but research shows it has real benefits

Paul Carter / Alamy

Are chatbots providing the comfort we seek during insecure moments? Many users gravitate towards these virtual companions, creating a surge in AI conversations. However, do these AI interactions truly replace the benefits of genuine human interactions? A recent study suggests otherwise, highlighting that chatting with a real human, even a stranger, offers unique emotional advantages.

While this is encouraging for those lamenting the impact of AI on social interaction, it’s crucial to acknowledge that social anxiety drives many towards chatbots. Fortunately, psychological studies offer effective strategies to boost real-life conversational confidence.

The fascination with AI companionship isn’t new. Back in the 1960s, computer scientist Joseph Weizenbaum developed ELIZA, a simple program that generated human-like conversations by turning user statements into questions.

Here’s a brief sample exchange:

User: All men are similar.
Eliza: In what way?
User: They are always bothering us about something.
Eliza: Can you think of a specific example?
User: Well, my boyfriend brought me here.
Eliza: Your boyfriend brought you here.

Despite ELIZA’s rudimentary dialogues, users often felt an unexpected emotional connection (even prompting Weizenbaum’s secretary to request privacy during her session).

Today’s advanced AI chatbots provide far more nuanced conversations. Consequently, the use of AI for friendship is increasing, with about 16% of U.S. adults turning to chatbots. Recent research by the UK Loneliness Charity indicates a similar trend among younger generations experiencing loneliness.

For those wary of AI, the silver lining is that interactions with chatbots can bring fleeting joy. However, whether they alleviate long-term loneliness remains contested. A recent study by Li Ruoning and colleagues at the University of British Columbia aims to address this.

The research team introduced a chatbot named Sam, designed with a ChatGPT-4o mini framework, embodying empathy and a supportive nature. Participants interacted with either Sam or other students over two weeks, tracking their feelings of loneliness.

Talking to a chatbot doesn’t seem to improve loneliness, but talking to a stranger does.

People images/Shutterstock

Throughout the study, participants took a standardized loneliness assessment. Those speaking to fellow students reported significantly reduced feelings of isolation after two weeks, whereas chatbot users exhibited no change compared to diary keepers, reinforcing the conclusion that “reducing loneliness requires more than simulating human emotions.”

How to Spark Meaningful Conversations

While critics may bemoan the rise of AI companionship among young people, I personally empathize with the comfort a non-threatening algorithm can provide. To enhance real-life interactions, consider two insightful books: Once Upon a Stranger: The Science of How Small Talk Can Lead to Big Things in Life by Jillian Sundstrom and Hello: The Unexpected Power of Choosing to Connect by Nicholas Epley.

Both authors present research that unravels the power of social connections and how to effectively foster them. A key insight is that the fears surrounding small talk are largely unfounded; engaging with strangers tends to be more enjoyable than anticipated. Surprisingly, warmth and authenticity often outweigh eloquence in these interactions.

Regular practice can recalibrate expectations. In one study, Sandstrom’s team found that participants who started conversations with new people daily for a week became less anxious about rejection and gained confidence in their conversational abilities.

Consistent effort matters. Isolated conversations can feel like flukes, while sustained engagement helps redefine our expectations. Epley encourages actively seeking opportunities to connect: “If you look for it, you may find that happiness can be easily obtained by being a little more sociable.” Identifying cues that prompt interaction can facilitate these opportunities.

The unpredictability of human interactions can often be what makes them so rewarding. Finding connection in another person’s perspective and sharing theirs in return is ultimately the cure for loneliness, which only comes from the intersection of two human souls.

David Robson’s latest book is The Law of Connection: 13 Social Strategies That Will Change Your Life. For questions, reach out at: davidrobson.me/Contact

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Source: www.newscientist.com

Newly Discovered Ancient Beardog Species Unearthed in Spain

Paleontologists have discovered a new species of ceratozoa, commonly known as beardogs, from two well-preserved specimens found at a fossil-rich site in the Valles Penedes Basin near Barcelona, Spain.



Pardoshion Moyasolai. Image credit: Jesus Gamarra.

The species has been named Pardoshion Moyasolai. It thrived during the mid-Miocene epoch, approximately 15.9 million years ago, in a warm, forested environment with shallow lakes.

This carnivorous mammal belongs to the extinct family Amphicyonidae, often referred to as bear dogs due to their unique blend of traits from modern bears and dogs.

“The Lycoptidae family played a significant role in the carnivore population across North America and Eurasia throughout much of the Cenozoic Era,” explained Dr. Jorge Morales from the CSIC National Science Museum and his colleagues.

“In Africa, the earliest evidence of horned phycyonids dates back to the early Miocene, persisting until the late Miocene, marking the last known occurrence of this group.”

Dr. Morales added, “Recent studies suggest that North America may have been the origin of this family, supported by a more complete and diverse Paleogene record of horned phycyonids in North America compared to Western Europe or Asia.”

The two specimens of Pardoshion Moyasolai were excavated from the Els Casots site in the Valles Penedes Basin, Spain.

The fossils include a well-preserved skull with most teeth intact and an isolated lower molar discovered separately.

Currently, both specimens are housed at the Miquel Crusafont Catalan Institute of Palaeontology in Sabadell, Spain.

Researchers noted that Pardoshion Moyasolai can be identified by the distinct proportions of its molars. Notably, the upper second molars were wider than the upper first molars, and the upper third molars were exceptionally large and developed.

These features are unique, as they have not been observed in any other known members of this genus, including Pardochyon.

To pinpoint the classification of Pardoshion Moyasolai, Dr. Morales and his team compared its teeth to those of related species from Europe and North America.

The results indicate that this new species represents one of the earliest divergences within the genus Pardochyon, making it one of the most primitive known members of the group.

The findings also suggest that the classification of Cyneros does not reflect a natural grouping, as it is paraphyletic, meaning its members do not share a single common ancestor specific to that group.

Three species currently classified under North America’s Cyneros present a distinctive challenge. Analysis reveals that Pardochyon species are more diverse than their European Cyneros counterparts, but their classifications are still unresolved.

Scientists propose that these North American species may have evolved independently from their European relatives, likely descending from Asian ancestors or unique North American lineages.

“Phylogenetic analysis indicates that while Cyneros is paraphyletic, it does support the monophyly of Pardochyon, with the new species identified as its most basal member,” the authors noted.

“This underscores the long-distance evolutionary ties between species, with European Cyneros (e.g., Kineros rugocidens and Kineros remanensis) and Pardochyon supporting their classification as distinct genera.”

This significant discovery is detailed in a recent article published in the Mammal Evolution Journal.

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J. Morales et al.. 2026. Discovery of a new species Pardochyon (Carnivora: Amphicyonidae) from the early Miocene of Els Casots, Valles Penedes Basin, Barcelona, Spain. J. Mammal. Evol 33, 29; doi: 10.1007/s10914-026-09814-6

Source: www.sci.news

El Niño Has Arrived: What You Need to Know About Potential Disasters

Prepare for extreme weather events including intense heat, drought, and flooding—it’s officially El Niño season. The National Weather Service reported on Thursday.

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NWS models indicate this El Niño event could rank among the most powerful recorded.

“There is a 63% likelihood of a very strong El Niño from November to January, potentially marking one of the largest events in history,” said Ariel Cohen, meteorologist with the NWS in Los Angeles, during a press conference at the Aquarium of the Pacific in Long Beach, California. “We are already witnessing sustained warm temperatures.”

El Niño is a natural climate phenomenon that leads to elevated surface temperatures in the tropical Pacific. This increase is linked with a rise in global average temperatures, exacerbating climate change impacts. Typically, it is associated with fewer hurricanes in the Atlantic and increased hurricane activity in the Pacific.

In the U.S., El Niño’s effects peak in winter, altering the usual jet stream flow that influences Northern Hemisphere weather patterns, pushing the jet stream southward.

This year, the Pacific Northwest faces drought conditions following a dry winter with lower snowfall. Conversely, southern states may experience unusually wet winters, leading to flooding.

El Niño can trigger powerful ocean heatwaves, disrupting marine ecosystems and causing mass fish mortality, along with bringing tropical fish species into coastal areas.

Andrew Rising, research oceanographer at NOAA’s Southwest Fisheries Science Center, noted that two marine heatwaves have already impacted the Pacific. One is near California’s coastline, while another is occurring offshore.

Though not directly caused by El Niño, NOAA models indicate that ocean temperatures in the Pacific are expected to rise more rapidly this fall, intensifying ongoing heatwaves, according to Liesing.

“For marine life, the duration of heat exposure is critical,” Rising explained. “After a previous heat wave in Southern California, we’re about to face another due to El Niño.”

Past prolonged marine heatwaves have reduced plankton, essential to the food web, leading to harmful algae blooms that produce neurotoxins detrimental to marine life and increasing whale entanglements as they come closer to shore.

Rising highlighted that while some species might thrive during heatwaves, such as jellyfish and certain rockfish, many others face dire consequences.

In 2015, an exceptional marine heatwave known as “the Blob” caused ocean temperatures to soar by approximately 7°F, severely impacting marine ecosystems. Sea lions, seals, baleen whales, and seabirds perished due to food scarcity and increased algal toxins, according to Liesing.

The Blob significantly disrupted fisheries worth millions on the West Coast, leading to instances of Pyrosome proliferation—a jelly-like organism clogging fishing nets.

Rising noted that the back-to-back heatwaves experienced in 2015 were more severe than those anticipated this year.

Another indicator of El Niño may involve unusual fish sightings along the West Coast.

“These events may attract unique visitors,” explained Nate Jarosz, vice president of animal care at the Aquarium of the Pacific. Historical El Niño events have introduced rare species to the California coast, including yellowfin tuna, dolphinfish, and whale sharks.

Shark sightings tend to spike in Southern California during previous heatwaves.

“Warmer waters appeal to shark species such as mako and great white sharks, potentially shifting their ranges further north,” Jarosz added. “During past heatwaves, coastal species, including blues and macaws, have dense populations along the West Coast.”

El Niño typically contributes to rising global temperatures, with climate change as the primary driver behind recent record warmth. The hottest year documented was 2024, with temperatures approximately 2.65°F (1.47°C) above the mid-19th century average, according to NASA. Scientists noted that the El Niño pattern raised temperatures that year, while 2025 recorded as the third warmest year despite the cooling influence of La Niña. (La Niña is the opposite of El Niño.) The past 11 years represent the hottest years on record globally.

Source: www.nbcnews.com

Unlocking the Mystery: How the Venus Flytrap Snaps Shut

Venus flytrap closing

How Venus Flytraps Capture Prey

Credit: Jeanne Bourdier, Corentin Maurier

The intriguing mechanism behind how Venus flytraps close quickly to ensnare insect prey has seen substantial investigation.

The Venus flytrap (Dionaea muscipula) reacts instantly when its sensitive hairs are stimulated twice, leading to a swift trap closure. This plant is known for its ability to capture various insects, including a tiny frog. However, the exact workings of this fascinating process have remained elusive to scientists since the days of Charles Darwin.

Many experts believe that the closure mechanism involves a rapid transfer of water through the trap’s tissues, causing one side to contract while the other expands, thereby facilitating the quick closure. To test this theory, Yoel Forterre and a team from the University of Aix-Marseille, France, investigated the water’s transit time across both isolated cells and tissue in the trap.

They found that water movement took approximately 30 to 60 seconds, leading researchers to conclude that this mechanism would be too slow, as trap closure typically occurs within a second.


Subsequently, researchers observed that the trap’s surface texture changed to a bumpier state after activation, indicating a reduction in cell wall stiffness. They employed fine probes to measure mechanical forces within the epidermal cells to examine if this softening contributed to the trap’s closure.

“When the trap is stimulated, we found that the outer epidermal layer’s cell walls softened almost instantaneously,” stated Forterre. Upon triggering the hairs, electrical signals and waves of calcium ions travel throughout the leaf. He likened these signals to the plant’s version of neural impulses, enabling rapid communication regarding the touch contact from the trigger hairs to distant cells within moments.

Upon receiving these signals, the outer surface of the trap quickly decreases in mechanical stiffness, releasing internal stress and allowing pressurized inner cells to contract further on one side. Consequently, the outer edge expands while the inner surface remains hard, bending the trap shut.

Despite these findings, researchers still lack clarity on the specific molecules responsible for these swift changes in cell wall dynamics. “We grasp the initial sensing mechanism and the final trapping movement, but understanding the molecular connections between these events remains elusive,” emphasized Forterre.

Professor Sergei Shabara from the University of Western Australia expressed skepticism about the proposed mechanism, arguing that water might not flow continuously through the cells as suggested. He believes cell wall stiffness adaptations could take several minutes instead of being instantaneous. “Although the methodology of this study is impressive, it does not definitively rule out water movement as a driving force,” stated Shabara.

Nevertheless, Forterre highlighted that their measurements regarding tissue swelling time support the idea that water transport across the trap is too slow to account for rapid closure, emphasizing the unexpectedly swift decrease in cell wall stiffness.

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Source: www.newscientist.com

Discover the Global Underground Fungal Network: A Comprehensive Map Unveils Its Vastness

Exploring Fungal Networks and Plant Interactions

Andrea Obzerova/Alamy

Just beneath Earth’s surface, a carbon-rich network of fungi spans approximately 110 quadrillion kilometers. This extensive infrastructure is part of our planet’s mycelial network. These fungi not only facilitate nutrient exchange with plants but also play a crucial role in climate regulation.

Arbuscular mycorrhizal fungi, an ancient group of soil fungi found in nearly all terrestrial ecosystems, forge symbiotic relationships with around 70% of the world’s plant species. They provide essential nutrients and water in exchange for carbon. “Plants are often seen as saviors of these fungi, but in reality, it’s a mutual relationship—these fungi also support plant life,” states Justin Stewart from the Association for Underground Network Protection. “Those plants not partnered with arbuscular mycorrhizal fungi are anomalies in nature.”

Recognizing the significance of fungi, Stewart and his team aimed to quantify this hidden infrastructure. “We set out to answer: Can we map Earth’s subsurface circulation system?” remarks team member Toby Kiers from the same association.

The researchers analyzed data from 16,000 soil samples worldwide, pulling insights from 322 past studies. They also utilized robotic imaging to assess over 300,000 fungal threads cultivated in the lab, enabling them to estimate the total biomass and carbon stored within this vast network. By merging this data, they broadened their estimates across various ecosystems, including deserts, tundra, and forests where direct measurements were scarce.

The findings indicate that the global arbuscular mycorrhizal fungal network sequesters roughly five times more carbon than all current human biomass combined. “They are pivotal for numerous Earth functions,” Stewart explains. “For instance, they sequester carbon underground, which is vital in combating climate change.”

Researchers also estimate that approximately 40% of the world’s arbuscular mycorrhizal fungi thrive within grassland ecosystems, particularly in regions like South Sudan, the Florida Everglades, and the Tibetan Plateau. This is concerning, as grasslands are rapidly converting into farmland.

Conversely, the prevalence of fungi significantly diminishes in agricultural settings, resulting in about 50% lower network density in heavily cultivated soils compared to untouched ecosystems. This trend arises because fungicides can directly eliminate fungi, while tillage disrupts fungal networks, and excessive use of fertilizers can hinder the nutrient and carbon exchanges critical to sustaining these symbiotic relationships, according to Stewart.

Last year, Laura Carter from the University of Leeds uncovered that azole antifungals, commonly used to combat fungal diseases such as mold and rot in crops, reduced mycelial density by approximately 70%. Moreover, the beneficial fungi’s colonization of plant roots decreased by up to 80%. These findings, alongside the current research, suggest that existing agricultural practices may be damaging crucial natural allies in crop growth. “Supporting arbuscular mycorrhizal fungi isn’t just an ecological concern, but a viable strategy for enhancing soil health, resilience, and long-term agricultural productivity,” Carter asserts.

Stephen Allison, a professor at the University of California, Irvine, expressed alarm over the thinning fungal network beneath farmland. “With significant biomass loss, our crops could be deprived of vital benefits, including nutrient access, drought resilience, and effective carbon storage.”

Arbuscular Mycorrhizal Fungi Networks Producing Reproductive Spores

Loreto Oyarte Galvez – VU Amsterdam, AMOLF

Despite the challenges, there are hopeful prospects. With the quantification of the loss, designing interventions to restore fungal biomass becomes more feasible. “Farmers can introduce fungal spores back into the soil,” Allison suggests. “This research may also encourage farmers to modify practices, such as reducing cultivation intensity or minimizing fertilizer use.”

While the study highlights a vast fungal network, Stewart clarifies that it does not imply a universal “wood wide web” exists—an underground network for plants to share resources and information. “Our research measured the density of threads on Earth, not their linkage into a singular network.”

Alongside the study, the researchers released an interactive map, detailing the global distribution of fungal networks with unprecedented clarity. Kiers intends to present these findings to policymakers at the upcoming United Nations Desertification Summit in Mongolia this August.

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Source: www.newscientist.com

Discovering the Hidden Truth: Amazon’s Short-Eared Dog More Common Than Previously Believed

Discover the short-eared dog (Aterocynus microtis): A rare canid thriving in Bolivia and Peru. This elusive species, often referred to as the world’s least-known canid, flourishes in the pristine high-altitude forests of Latin America. Learn more in the official research article.

According to Dr. Robert Wallace and his colleagues at the Wildlife Conservation Society, “The short-eared dog, also known as the ghost dog, is likely the least understood medium-to-large mammal in the neotropics, and its habitat distribution remains largely unknown.”

Recent analyses reveal that short-eared dogs are forest specialists. Studies in southern Peru indicate they prefer terra firma, or highland forests, far from rivers.

Previously, Bolivia recorded only six localities, four museum specimens, and two field sightings by trained biologists. However, extensive efforts to document mammal distribution have uncovered more habitats for this fascinating species.

Between 2001 and 2024, researchers conducted 34 camera trap surveys in the Greater Madidi Tambopata landscape and the Llanos de Moxos biocultural landscape, resulting in 4,635 photographs depicting 594 independent short-eared dog events across 21 of 34 camera trap surveys.

Dr. Wallace stated, “This research demonstrates the power of modern conservation techniques like camera trapping, providing valuable insights into one of the Amazon rainforest’s least-known species.”

Camera traps have unveiled the distinct features of the short-eared dog: a dark, dense coat ranging from blackish-gray to reddish-brown, a prominent head with tiny rounded ears, short legs, and a bushy tail. Remarkably, they possess partially webbed feet, a trait unique among Amazonian canids.

Despite their mythic reputation, new findings suggest that short-eared dogs are more common than previously believed, with capture rates estimating around 15 individuals per 100 square kilometers.

Active primarily during daylight hours, with peak activity between 6 a.m. and 12 p.m., short-eared dogs are true forest specialists, thriving in untouched highland forests, which explains their elusive nature.

Given their dependence on intact forest ecosystems, the conservation of short-eared dogs hinges on the establishment and effective management of protected areas. Researchers found that their relative abundance was significantly higher in protected areas and indigenous territories compared to unprotected zones.

According to the authors, “The most critical management strategy is to safeguard the Amazon forest canopy through the creation and effective management of protected regions, paired with sustainable practices in indigenous lands.” This knowledge illustrates how short-eared dogs are quietly flourishing in the dense forests of Bolivia and Peru, emphasizing the urgent need for habitat protection.

This important study was published in Neotropical Biology and Conservation on March 27, 2026.

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RB Wallace et al. 2026. Delivering Insights: Short-Eared Dog (Aterocynus microtis) Distribution and Ecology in Bolivia. Neotropical Biology and Conservation 21 (1): 49-66; doi: 10.3897/neotropical.21.e183324

Source: www.sci.news

First-Ever Images of Cozumel Dwarf Fox Captured by Scientists

Groundbreaking research has yielded the first photograph of the Cozumel Dwarf Fox (Urokion sp.), a rare and elusive species native to Cozumel Island, located off Mexico’s Yucatán Peninsula. Captured in September 2023, these images represent the first confirmed evidence of this animal’s existence since 2001.



This photograph shows a Cozumel Dwarf Fox (Urokion sp.) taken on September 14, 2023. The adult male fox was partially hidden behind leaves before its capture by the Cozumel Foundation. The image serves as significant evidence of its survival on the island since its last confirmed sighting in 2001. Image credit: Rafael Chacón.

The Cozumel Dwarf Fox belongs to the genus Urocyon. Despite its close relation to the North American gray fox, this unique species has dramatically decreased in population due to its isolation on the island.

Subfossil remains indicate that this species is 60-80% smaller than its mainland counterparts, a result of thousands of years of insular adaptation, with origins dating back around 37,000 years.

“The genus Urocyon consists of two species, the Gray Fox (Urocyon cinereoargenteus) and the Island Fox (Urocyon littoralis), which is endemic to six of California’s Channel Islands,” stated Travis Bayer, lead author of the study.

“The Island Fox is a well-documented example of dwarfism and rapid evolution following isolation on islands.”

“Clear morphological, genetic, and ecological distinctions exist compared to its mainland relatives.”

“Archaeological findings suggest that the dwarf fox has inhabited Cozumel for thousands of years, possibly even before early Maya settlements.”

“This population has never been officially documented or recognized as a taxonomically unique group.”

“Sightings of this species are exceedingly rare, consisting of limited observations and anecdotal reports, the latest of which dates back to 2001.”

The only physical evidence of this species’ existence comes from subfossil remains, indicating significant island dwarfism (60-80% size reduction), suggesting isolation began between 5,000 and 37,000 years ago.



A full-body photo of an adult male Cozumel Dwarf Fox following its release into the Laguna Colombia State Reserve. Captured after a health check on September 17, 2023. Image credit: Rafael Chacón.

The research team reported that the adult male Cozumel Dwarf Fox was found disoriented near the coastal highway early on September 14, 2023, following a report from a local resident.

Rafael Chacón, one of the study’s authors, along with rescuers from the Cozumel Foundation, retrieved the fox.

After monitoring it for several days, the animal was released back into the protected Laguna Colombia State Reserve in southern Cozumel.

“One of the key lessons from this study is that species can quietly vanish without anyone noticing,” Bayer remarked. “Many perceive extinction as a sudden and dramatic event, but it often occurs slowly and unnoticed, especially among rare species in less-studied habitats.”

“This rediscovery of the Cozumel Fox might not represent a conservation success yet, but it provides a crucial second chance.”

Researchers emphasize the urgent need for field surveys, ongoing population monitoring, and habitat protection, particularly in southern Cozumel, where development, invasive species, and other threats are jeopardizing the island’s ecosystem.

“The greatest challenge facing the Cozumel Fox is that our knowledge about it is limited, including insights into its population size, distribution, and ecology,” Bayer stated.

“This uncertainty poses significant risks, complicating efficient conservation efforts.”

“Ultimately, we hope this research will enhance the Cozumel Fox’s status from a little-known species to an essential part of Cozumel’s ecosystem.”

“We aim to illustrate that the need for protection is often greatest when certainty is at its lowest, and that uncertainty can spur action.”

The team’s research paper was published online on May 4, 2026, in Neotropical Biology and Conservation.

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TD Bayer et al. 2026. The first photographic evidence of a dwarf fox from the island (Urokion sp.) located on the Mexican island of Cozumel. Neotropical Biology and Conservation 21 (2): 123-129; doi: 10.3897/Neotropical.21.e187967

Source: www.sci.news

Exploring the Toy Universe: Is Time Just a Quantum Illusion?

Does time exist?

Does time actually exist?

Bruce Rolfe/StockTrek Images/Getty Images

The nature of time may be nothing more than an illusion generated through quantum interactions within the universe. This intriguing concept arises from innovative space toy models, potentially offering insights into the true essence of time in our cosmos.

Giovanni Barontini, while studying at the University of Birmingham in England, contemplated the nature of time as he observed his six-year-old son’s imaginative play. “He was constructing his own microcosms; it struck me that this mirrors our work in the lab with ultracold atomic systems,” he reflects. “However, I began to ponder that this universe could be perceived as rather dull, as inactivity implies no passage of time.”

To delve into whether time is genuinely an illusion within these systems, Barontini employed lasers and electromagnetic forces to cool approximately 20,000 rubidium atoms to temperatures near absolute zero. He divided these atoms into two sectors, likening one to ‘dark matter’, labeling one region as “bright” and the other as “dark”.

Despite this initial state of timelessness, Barontini directed lasers to facilitate atomic exchanges and interactions at a quantum level, thereby modifying the entropy or disorder of this universe—asserting that the flow of time correlates with increasing entropy. He successfully defined an internal concept of time for this toy universe, employing the Schrödinger equation to calculate the quantum state of atoms, which aligned with the experimental findings.

This idea that time is not an inherent feature but results from quantum correlations was initially proposed by physicist Neville Mott in the 1930s, and it has since been the subject of theoretical exploration. It wasn’t until 2013 that Dr. Marco Genovese and his team at the Italian National Institute of Metrology first demonstrated its feasibility through experiments involving entangled light particles, further establishing the concept that the essence of time emerges from quantum correlations.

“This study builds on previous concepts and brings notable advancements,” comments Genovese. Notably, the cold-atom universe exhibits greater complexity than previous light-based models. Barontini innovatively applied the Schrödinger equation within the internal framework of this system, a feat previously unachievable.

Klaus Kiefer from the University of Cologne suggests that this experimental paradigm links to broader questions surrounding the unification of gravitational and quantum theories into a comprehensive framework applicable across all scales of the universe. While this inquiry persists, some physicists propose that such a comprehensive theory might fundamentally lack a predetermined notion of time. Kiefer notes substantial differences—such as the limited interactions between ultracold atoms transitioning between sectors compared to complexities in the actual universe.

In contrast, Carlo Rovelli from the University of Aix-Marseille cautions that such experiments may not unveil new insights about time, as they largely rely on established physics. Nevertheless, approaching them as analogs to significant unsolved issues might inspire innovative treatments of uncharted physics, akin to the enduring conundrum of quantum gravity.

Barontini regards this study as empirical support for long-standing hypotheses, underscoring their acceptance within the scientific community, although he concedes that it does not elucidate the mechanisms of time across various scales.

As Barontini continues to explore this intriguing frozen miniverse, he intends to use lasers to create a confined area, echoing the gravitational dynamics of a black hole—raising further questions about the nature of time and space.

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Source: www.newscientist.com

Unexplained Shift: Earth’s Core Changes Direction—What It Means for Our Planet

A river of molten iron, flowing 1,400 miles beneath the Pacific Ocean in Earth’s outer core, has surprised scientists by changing direction.

This phenomenon offers new insights into the behavior of the liquid outer core, which is crucial for generating Earth’s magnetic field. Without this protective magnetic shield, Earth would face dangerous levels of solar radiation exposure.

Researchers at the University of Edinburgh reviewed ground-based observations and satellite data spanning from 1997 to 2025. According to a study published in the Deep Earth Research Journal, a significant area of iron-rich fluid in the equatorial Pacific Ocean transitioned from weak westward migration to pronounced eastward migration.

https://c02.purpledshub.com/uploads/sites/41/2026/06/2605_026_AR_EN.mp4
This video illustrates large-scale flows in a molten core from 1997 to 2025.

Frederik Dahl Madsen, lead author of the study, stated, “The massive flow reversal beneath the Pacific Ocean raises new questions about the behavior of Earth’s deep interior.”

“Researchers are eager to determine whether this reversal signifies a short-lived fluctuation, part of a recurring oscillation, or a new stable equilibrium state of nuclear circulation.”

Elisabetta Iorfida, a geoscientist at the European Space Agency, remarked that the Pacific inversion challenges the prevailing notion that the outer core is characterized by a stable westward circulation.

“This study highlights how quickly regional changes can materialize within just 10 years,” she added. “Such discoveries could aid scientists in exploring potential interactions among Earth’s outer core, inner core, and lower mantle, leading to greater understanding of the core-mantle boundary—an essential region for deep Earth dynamics.”

Recent data from the ESA suggests that the eastward flow may be weakening again after peaking a few years ago, raising the possibility that this phenomenon could represent a temporary oscillation or part of a broader natural cycle of nuclear dynamics.

While these changes occur deep below the Earth’s surface and pose no immediate threat to people or climate, they are pivotal for understanding planetary processes and how the outer core generates Earth’s protective magnetic field.

The magnetic field is dynamic and evolves over time as core flows change, impacting navigation systems, spacecraft operations, and models of near-Earth space weather.

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Source: www.sciencefocus.com

Reducing Cancer Risks: How Quitting Cigarettes and Vaping Can Mitigate Smoking’s Impact

Emerging Evidence: E-Cigarettes and Health Risks

Credit: Dead Mitiei/Shutterstock.

A groundbreaking study involving over 4.5 million participants reveals alarming statistics: smokers who switched to vaping post-cessation face more than a 50% increased risk of developing lung cancer compared to those who quit smoking entirely. Nonetheless, the research also emphasizes that using e-cigarettes to aid in quitting is a safer alternative than continued cigarette smoking.

As noted by Becky Freeman from the University of Sydney, Australia, who was not part of the study, “This research contributes to a growing body of evidence indicating that e-cigarettes may not be as low-risk as initially suggested. It’s essential for those attempting to quit smoking to explore safer options, yet effective cessation methods should be prioritized first.”

In the UK, over 40% of smokers are expected to use e-cigarettes in 2024, with 20% of ex-smokers continuing to vape over a year after quitting. Although e-cigarettes are often praised as a cessation tool, research links them to airway inflammation, diminished lung function, and increased cancer risk in animal studies.

To delve deeper into the effects of e-cigarettes, Kim Young Wook and a team from Seoul National University analyzed data from South Korea’s National Health Checkup Program from 2018 to 2023, tracking participants classified as current smokers, short-term quitters, or long-term quitters. Throughout the five-year span, 35,887 individuals developed lung cancer, leading to 12,807 related deaths.

Upon analyzing e-cigarette usage among different participant groups, researchers discovered that ex-smokers who continued to vape exhibited a significantly higher risk of dying from lung cancer compared to non-vapers. “Those who used e-cigarettes after quitting had a 56% elevated risk when compared to individuals who quit smoking completely,” Kim noted.

While the need for extended research is clear, certain studies suggest that e-cigarette chemicals may cause DNA damage, and vaping has been associated with oxidative stress, epigenetic changes, and inflammation in respiratory and oral tissues.

However, Kim’s team emphasizes that causation cannot be definitively established, stressing the necessity for further investigations, particularly involving diverse populations outside South Korea.

Remarkably, it was found that ex-smokers who utilized e-cigarettes had a significantly lower overall mortality risk compared to current smokers, reinforcing the substantial health benefits of quitting smoking altogether.

According to Nicole Lee from Curtin University in Perth, Australia, the study underscores that quitting both smoking and vaping entirely is more effective in preventing lung cancer than merely transitioning to e-cigarettes during the quitting phase. “The implications of this study are crucial for those who have stopped smoking,” she stated.

“Our ongoing recommendation to smokers is that complete cessation is the safest option. However, if quitting is unachievable for some, switching to e-cigarettes is certainly a less harmful alternative compared to continued smoking,” Lee advised.

Lastly, Bernard Stewart, a professor at the University of New South Wales in Sydney, emphasized the need for further research before implementing public health policies that may introduce additional e-cigarette regulations.

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Source: www.newscientist.com

Must-Watch Movie Before Steven Spielberg’s Disclosure Day: Essential Viewing Guide

New Scientist: Explore science news and in-depth articles by expert journalists on advancements in science, technology, health, and the environment.

In “Close Encounters,” humans connect with extraterrestrial life.

Credit: Columbia/Kobal/Shutterstock

Steven Spielberg famously stated, “If you believe it, it’s scientific fact. If you don’t, it’s science fiction. I sit between these beliefs, viewing it as scientific speculation.”

These words came from Spielberg in 1977, reflecting on one of his cinematic masterpieces: Close Encounters of the Third Kind. This film encapsulates scientific wonder while seamlessly blending spirituality and grounded elements. With the release of Spielberg’s latest film, Information Release Date, a conspiracy thriller highlighting a whistleblower revealing extraterrestrial evidence, “Close Encounters” is a must-see companion piece.

In Close Encounters, we follow Roy Neary (Richard Dreyfuss), an ordinary electrical worker in pursuit of truth amidst an unfulfilling life in Muncie, Indiana. His family, filled with love yet marked by tension, transforms into an unhappy unit.


It highlights the unique Spielberg blend of sentimentality and cynicism.

Struggling with a sense of purpose, Roy’s life takes a dramatic turn when a UFO appears during a power outage investigation, igniting an obsession to uncover the truths beyond our world.

Roy is not alone in his experience; three-year-old Billy (Cary Guffey) begins to witness his toys moving at night, nearly lured into a spaceship by a force his mother, Gillian (Melinda Dillon), intervenes to stop.

Both Gillian and Roy are among the few who have encountered a UFO firsthand. They are drawn to a mysterious flat-topped object of unknown origin. Meanwhile, an enigmatic government agent disrupts a group of enthusiastic sky watchers, while scientists work secretly to explain the bizarre return of missing planes and ships, devoid of their crews.

Close Encounters is notable for popularizing UFO researcher J. Allen Hynek’s classification system for alien sightings. The film’s strengths lie not only in its captivating storyline but also in its stunning visuals. It epitomizes Spielberg’s signature style, effortlessly navigating moments of irony.

Despite this darker layer, Close Encounters remains timeless and relevant today. The complexities of a family in crisis resonate even more now. Spielberg has indicated a desire to alter the film’s bittersweet conclusion, but for many, it remains the pinnacle of his narrative.

Since 1977, Spielberg’s views have evolved. In a recent statement, he expressed, “I have a strong suspicion we are not alone,” sharing this insight at the South by Southwest Film Festival in Austin. His journey from speculative fiction to a belief in extraterrestrial existence exemplifies a shift in perspective.

No matter your conclusions, the insights behind Close Encounters will undoubtedly inspire you to gaze up at the sky.

Additional Recommendations…

Spielberg: Retrospective
Richard Schickel
Thames & Hudson

This comprehensive guide chronicles Spielberg’s illustrious career through 2022, providing fascinating insights into his early works, including his directorial debut, Firelight, which, intriguingly, was also a UFO-themed film.

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Source: www.newscientist.com

Award-Winning Photo Captures Ibis Journey to Winter Home

New Scientist provides insightful science news, innovative technology updates, and comprehensive coverage of health and environmental issues.

Gunnar Hartmann’s Winning Image at Nature Scientist at Work Photo Contest 2026

Gunnar Hartmann

The bald ibis (Geronticus eremita), once pushed to the brink of extinction by poaching and climate change over 400 years ago in the northern foothills of the Alps, is now on the journey back home.

The photograph captures Helena Wehner in an ultralight plane, singing a German tune through a megaphone to guide the birds to their winter homes. Wehner, along with pilot Johannes Fritz and the Austrian Waldrup team (named after the ibis’ local moniker), is dedicated to re-establishing healthy populations of this species in Europe.

The juvenile ibises are human-raised and have developed such strong bonds that they willingly follow their caretakers, even in flight. Since launching in 2004, the relocation project has garnered support from local communities along the birds’ migration path. This ambitious 50-day journey spans approximately 2800 kilometers from southeastern Germany to southwestern Spain.

The stunning image of the birds soaring over Jaén’s olive groves in southern Spain, taken by student Gunnar Hartmann, earned him the top award at Nature Scientist at Work Photo Contest 2026. Hartmann volunteered with the conservation team in 2024 while studying at the Faculty of Science at Koblenz University in Germany. Upon receiving the award, he expressed that the image brings forth a torrent of emotions, saying, “You can smell the air and imagine the sounds of that day.”

Another remarkable photograph captured by marine biologist Uli Kunz highlights scientists setting up hatching chambers over coral reef ecosystems in the Red Sea near Saudi Arabia. This project aims to explore the differences in coral species, particularly Acropora, and to address the challenges posed by climate change on these vital ecosystems.

Uli Kunz’s Winning Image: An Incubation Chamber Above a Coral Reef Ecosystem

Uli Kunz

Another award-winning photograph by Robert Harcourt showcases biologist Michael Doan diving to collect microbial samples from a whale shark (Lyncodon typus) at Ningaloo Reef off Western Australia.

Exploring Marine Life: Michael Doan with a Whale Shark in Robert Harcourt’s Winning Image

Robert Harcourt

In another notable image, captured from above, we see a harmful algae bloom at Dog Lake in Ontario, Canada, predominantly of Microcystis aeruginosa and Dolichospermum floss aquae. Haorun (Allen) Tian, a doctoral student and photographer from Queen’s University, explains the lake accumulates a “layer of toxic, foul-smelling decay” each summer, which inversely affects fish populations and clogs local water supplies. The image features scientists taking water samples for environmental DNA analysis.

Algal Blooms at Dog Lake, Ontario, Photographed by Haorun (Allen) Tian.

Haorun (Allen) Tian

Lastly, Shayanta Chowdhury’s photo features entomologists at the University of Notre Dame examining yellow fever mosquitoes (Aedes aegypti) under a microscope. Researchers are investigating the potential of nitisinone to combat these pests, with mosquitoes having been fed a mixture of sugar containing both the drug and a fluorescent dye.

Shayanta Chowdhury’s Award-Winning Photo of an Entomologist Observing Yellow Fever Mosquitoes

Shayanta Chowdhury

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Source: www.newscientist.com

Comprehensive Guide to Earthquakes Triggering Tsunamis in Japan: A Historical Overview – Sciworthy

In 2011, significant geological activity occurred beneath the Japan Trench, leading to earthquakes that altered the ocean floor and triggered a catastrophic tsunami. Located off Japan’s Tohoku region, this area is part of the massive tectonic plate that comprises the Pacific Ocean. The Tektonicic Plate is being subducted beneath Japan, pushing into the Earth’s interior. Researchers speculate that friction between rocks from this plate and those deep below Japan increased pressure until the lower plate slid, releasing pent-up energy and resulting in an earthquake.

Plate movement can lead to two primary outcomes. The first occurs several kilometers deep within the Earth’s crust, generating tremors that are too weak to produce tsunamis. The second type results in significant slip events that initiate deep within the crust, like the 2011 event that reached the Japan Trench and deformed its underwater landscape. This movement displaces seawater, generating a tsunami. These occurrences are referred to as trench-slip earthquakes.

Japan has a long history of earthquakes leading to tsunamis, indicating that such phenomena extend beyond just the 2011 incident. Charlotte Peiser and her research team delved into the sediment layers of the Japan Trench in an effort to uncover its geological history linked to trench-slip earthquakes.

Over time, the Japanese archipelago continuously deposits sediment, which accumulates in ocean trenches and forms distinct horizontal layers. Trench-slip earthquakes can bend and distort these sedimentary layers. The research group hypothesized that locating and dating these deformations in the Japan Trench would allow them to catalogue a comprehensive archive of trench-slip earthquakes that have occurred in the region.

Because younger earthquakes can obscure the geological records left by their predecessors, the researchers selected a study site within the Japan Trench, approximately 100 kilometers (60 miles) north of the most intense seismic activity. This location, being distant from the epicenter, showed minimal deformation caused by trench-slip earthquakes, facilitating the identification of individual seismic events.

Peiser and her team utilized data previously collected by other researchers to reconstruct the seismic history of Japan. They compiled three main types of data, with two comprising images of sediment layers within ocean trenches obtained from seismic reflection studies. Seismic profiles.

The first seismic profile captured the entire ocean trench, extending over 1 kilometer (approximately 0.6 miles) deep, at a resolution of 5 meters (16 feet), which means layers thinner than 5 meters will not be visible. The second seismic profile focused solely on the upper 40 meters (130 feet) of sediment, detecting layers as thin as 10 centimeters (4 inches).

The final data source consisted of a 36-meter (120-foot) sediment core extracted from the trench’s bottom. Sediment core studies have previously linked layers within this core to historical seismic events. The researchers identified two significant earthquakes in the area, the Kyotoku earthquake of 1454 AD and the Jogan earthquake of 869 AD, both believed to have triggered tsunamis.

Peiser’s team was able to observe the depths of the seismic layers associated with the Keitoku and Jogan earthquakes, using high-resolution seismic profiles of the ocean trench. They noted deformation in the sediment corresponding to the Jogan earthquake layer, indicating that trench deformation occurred during this seismic event in 869 AD.

While high-resolution data was limited to deposits from more recent earthquakes since 869 AD, low-resolution profiles showcasing the entire trench revealed deeper and older sediment records. Upon deeper examination, the researchers found deformation related to the 869 AD earthquake that extended outward from the collision zone where the plate interacted with Japan. They identified at least six other similarly deformed layers, suggesting additional trench-slip events, though the exact dates of these occurrences are still unknown.

In conclusion, Peiser and her colleagues determined that trench-slip earthquakes are a persistent phenomenon within the Japan Trench. Their work emphasizes the importance of continued research at this site to enhance understanding of Japan’s tsunami risks in the future.

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Source: sciworthy.com

Do You Have a Great Sense of Humor? Discover What Makes It Unique!

New Scientist - Your source for the latest in science news, technology advancements, health updates, and environmental insights.

Feedback is New Scientist. A trusted source for the latest science and technology news. Share your thoughts and recommendations by emailing us at feedback@newscientist.com.

Provocative Insights

While scientific papers may not evoke strong emotional reactions, an intriguing study surfaced this week that surely piqued our interest.

Assistant News Editor Alexandra Thompson highlighted a study conducted by Paul Silvia, a social psychologist from the University of North Carolina at Greensboro. The study, titled “Who Laughs at Their Own Jokes? Metacognitive Judgments of Self-Evaluated Funniness in Creative Humor Production Tasks,” challenges our perceptions of humor.

This research prompts us to consider: Do we overestimate our own humor capabilities? What if this study reveals that those of us who provide feedback may find our jokes hilarious even when others don’t?

The paper opens with a bold statement: “When asked to think of someone funny, your mind may leap to a specific person—perhaps an ex-partner or your own parent renowned for corny dad jokes.” It conjured up familiar images reminiscent of David Brent or Michael Scott (insert preference here).

Sylvia and his colleagues reveal that “most individuals believe they possess a superior sense of humor,” supported by data showing that less than 2% of survey participants rated their humor sense as below average. They delve into the challenges posed by the ill-defined concept of humor, emphasizing its role as a vehicle for unrealistic self-perceptions.

As we dig deeper, questions arise: Are we truly interesting? Have we done anything noteworthy?

Sylvia’s research includes a series of intriguing experiments where participants were prompted to craft humorous responses and then rate their creativity. For instance, one prompt asked participants to imagine the reaction of a friend after receiving a dreadful meal from a food truck.

Findings indicate that individuals tend to deem their ideas entertaining when they possess high self-confidence, believe they are inherently funny, score high on extroverted or narcissistic traits, and—rather interestingly—when they identify as male.

While we remain quite safe from such judgments, it raises an essential question: How do we respond to humor-induced prompts?

The Clash of Perspectives

In “The Death of the Author,” Roland Barthes posits that a reader’s interpretation stands equal to that intended by the author. George Orwell may see Animal Farm as a political allegory, yet if I perceive it as commentary on pigs being unkind, it holds as much weight.

This thought was echoed in a press release sent to us by reporter Carmela Padavich Callahan, which discussed Timothy Barbaree’s upcoming lecture titled “The Meteorite and Dante’s Hell: Examining the Fall of Satan as a Shocking Event.” Barbaree, from Marshall University, aims to examine Dante Alighieri’s Divine Comedy from a fresh angle: the geophysical ramifications of Satan’s fall.

The release elaborates: “Dante envisioned Satan as a high-velocity impactor crashing into the southern hemisphere and delving deep into the Earth’s core.”

Barbaree posits that the depiction of Satan serves as a metaphorical asteroid, akin to the intact Hoba meteorite. He theorizes that Satan’s fall fundamentally altered Earth’s geophysical structure.

This radical perspective allows for an innovative interpretation of Dante’s work. From this angle, the nine circles of Hell represent not merely abstract notions of sin but might mirror the layered formations found in impact basins across our solar system.

While we’re skeptical about such a radical interpretation, it certainly pushes the boundaries of Barthes’ theory.

Waymo’s Driving Dilemma

A recent incident in Atlanta highlighted issues with Waymo’s driverless vehicles, which were reported to have “invaded” the area, aimlessly circulating cul-de-sacs. As detailed in the Atlanta Journal Constitution, Waymo attributed the issue to “route guidance problems.”

Visuals shared by BBC News depicted cars endlessly looping through cul-de-sacs, interfering with one another, and creating a rather chaotic scene. While humans might navigate dead ends with ease, it’s clear that the technology still struggles.

Kudos to the anonymous user on Bluesky, “The Capitalist with a Heart of Gold,” who aptly described the situation as “transportation without a means of transport.”

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Source: www.newscientist.com