Welcome to the Overnight News Digest with a crew consisting of founder Magnifico, regular editors side pocket, maggiejean, Chitown Kev, eeff, Magnifico, annetteboardman, Rise above the swamp, Besame, jck and jeremybloom. Alumni editors include (but not limited to) Interceptor 7, Man Oh Man, wader, Neon Vincent, palantir, Patriot Daily News Clearinghouse (RIP), ek hornbeck (RIP), rfall, ScottyUrb, Doctor RJ, BentLiberal, Oke (RIP) and jlms qkw.
OND is a regular community feature on Daily Kos, consisting of news stories from around the world, sometimes coupled with a daily theme, original research or commentary. Editors of OND impart their own presentation styles and content choices, typically publishing each day near 12:00 AM Eastern Time.
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Antarctica's 'Doomsday Glacier' Began Melting In Mid-20th Century, Study Finds
According to a new study published in the journal Proceedings of the National Academy of Sciences, West Antarctica's Thwaites Glacier began rapidly receding in the 1940s -- much earlier than scientists had previous thought. The Hill notes that it's often referred to as the "doomsday glacier" due to the potentially catastrophic consequences of its hypothetical collapse. From the report: While scientists had already observed the glacier's accelerated retreat by the 1970s, they did not know when it began. Coupled with earlier research about Thwaites's neighboring Pine Island Glacier, the study also provides new, potentially alarming, insight into the cause of the glacier's melting. Scientists tried to reconstruct the glacier's history using analysis of the marine sedimentary record, and they found the Thwaites and Pine Island glaciers both lost contact with the seafloor highs in the 1940s -- at around the same time. These significant changes happened against the backdrop of a massive El Nino weather phenomenon, the scientists found, showing the glaciers "were responding to the same driver(s)."
"The synchronous ice retreat of these two major ice streams suggests that, rather than being driven by internal dynamics unique to each glacier, retreat in the Amundsen Sea drainage sector results from external oceanographic and atmospheric drivers, which recent modeling studies show are modulated by climate variability," the study read. The scientists note that the glaciers' continued retreat shows how difficult it can be to reverse some of the consequences of naturally occurring weather events -- which they say is made even more difficult by human activity. "That ice streams such as Thwaites Glacier and Pine Island Glacier have continued to retreat since then indicates that they were unable to recover after the exceptionally large El Nino event of the 1940s," the scientists wrote. "This may reflect the increasing dominance of anthropogenic forcing since that time but implies that this involved large-scale, in additional to local, atmospheric and ocean circulation changes."
Microplastics Found In Every Human Placenta Tested In Study
Microplastics have been found in every human placenta tested in a study, leaving the researchers worried about the potential health impacts on developing fetuses. The scientists analyzed 62 placental tissue samples and found the most common plastic detected was polyethylene, which is used to make plastic bags and bottles. A second study revealed microplastics in all 17 human arteries tested and suggested the particles may be linked to clogging of the blood vessels. [...] Prof Matthew Campen, at the University of New Mexico, US, who led the research, said: "If we are seeing effects on placentas, then all mammalian life on this planet could be impacted. That's not good." He said the growing concentration of microplastics in human tissue could explain puzzling increases in some health problems, including inflammatory bowel disease (IBD), colon cancer in people under 50, and declining sperm counts. A 2021 study found people with IBD had 50% more microplastics in their feces. Campen said he was deeply concerned by the growing global production of plastics because it meant the problem of microplastics in the environment "is only getting worse."
The research, published in the Toxicological Sciences journal, found microplastics in all the placenta samples tested, with concentrations ranging from 6.5 to 790 micrograms per gram of tissue. PVC and nylon were the most common plastics detected, after polyethylene. The microplastics were analyzed by using chemicals and a centrifuge to separate them from the tissue, then heating them and analyzing the characteristic chemical signature of each plastic. The same technique was used by scientists at the Capital Medical University in Beijing, China, to detect microplastics in human artery samples. The concentration of microplastics in placentas was especially troubling, Campen said. The tissue grows for only eight months, as it starts to form about a month into pregnancy. "Other organs of your body are accumulating over much longer periods of time," he added.
'Mathematically Perfect' Star System Being Investigated For Potential Alien Tech
Astronomers are investigating a star system 100 light-years away with six sub-Neptune planets in near-perfect orbital resonance, piquing the interest of scientists searching for alien technology, or technosignatures. Space.com reports: To be clear, no such evidence was found in the system, dubbed HD 110067. However, the researchers say they're not done looking yet. HD 11067 remains an interesting target for similar observations in the future. In our own tiny pocket of the cosmos, radio waves from satellites and telescopes beaming out in the plane of our solar system, meaning that if somebody outside our solar system watched Earth cross the face of our sun, they'd maybe be able to pick up a signal that coincides with the planet's transit.
HD 110067 is viewed edge on from Earth, so we are seeing the six planets in the plane of their system -- a view that gives us an excellent chance of picking up such a signal if there exists one, study co-author Steve Croft, a radio astronomer working with the life-searching Breakthrough Listen program at the University of California, Berkeley, told Space.com "Our technology in our own solar system has spread outside the habitable zone," Croft told Space.com. So technology-friendly civilization in HD 110067, if any, may have communication relays set up on multiple planets in the system, he said. "Even if it is a negative result, that still tells us something."
When HD 110067's discovery was announced, Croft and his team used the world's largest fully steerable telescope, the Green Bank Telescope (GBT) in West Virginia, and searched the system for signs of alien technology. The researchers looked for signals that were continuously present when the telescope was pointed at the system and absent when directed away, the smoking gun of technosignatures local to HD 110067. But such signals are difficult to distinguish from natural sources of radio waves and humankind's own technological signals, such as radio waves beaming from cell phones connected to Wi-Fi, SpaceX's Starlink satellite network in low Earth orbit. This creates a haystack of signals in which researchers look for a needle of a potential extraterrestrial signal, said Croft. "I should add we don't know if there are needles in the haystack," he said. "We don't really know what the needles look like." The research has been published in the journal Research Notes of the AAS.
The Strange and Turbulent Global World of Ant Geopolitics
Over the past four centuries quadrillions of ants have created a strange and turbulent global society that shadows our own. An excerpt from an Aeon article: In their native ranges, these multi-nest colonies can grow to a few hundred metres across, limited by physical barriers or other ant colonies. This turns the landscape to a patchwork of separate groups, with each chemically distinct society fighting or avoiding others at their borders. Species and colonies coexist, without any prevailing over the others. However, for the 'anonymous societies' of unicolonial ants, as they're known, transporting a small number of queens and workers to a new place can cause the relatively stable arrangement of groups to break down. As new nests are created, colonies bud and spread without ever drawing boundaries because workers treat all others of their own kind as allies. What was once a patchwork of complex relationships becomes a simplified, and unified, social system. The relative genetic homogeneity of the small founder population, replicated across a growing network of nests, ensures that members of unicolonial species tolerate each other. Spared the cost of fighting one another, these ants can live in denser populations, spreading across the land as a plant might, and turning their energies to capturing food and competing with other species. Chemical badges keep unicolonial ant societies together, but also allow those societies to rapidly expand.
Ultraprocessed Foods Linked To Heart Disease, Diabetes, Mental Disorders and Early Death, Study Finds
Eating ultraprocessed foods raises the risk of developing or dying from dozens of adverse health conditions, according to a new review of 45 meta-analyses on almost 10 million people. From a report: "We found consistent evidence linking higher intakes of ultra-processed foods with over 70% of the 45 different health outcomes we assessed," said senior author Wolfgang Marx, a senior research fellow at the Food & Mood Centre at Deakin University in Geelong, Australia, in an email. A higher intake was considered about one serving or about 10% more ultraprocessed foods per day, said Heinz Freisling, a scientist in the nutrition and metabolism branch of the World Health Organization's International Agency for Research on Cancer, in an email.
"This proportion can be regarded as 'baseline' and for people consuming more than this baseline, the risk might increase," said Freisling, who was not involved in the study. Researchers graded each study as having credible or strong, highly suggestive, suggestive, weak or no evidence. All the studies in the review were published in the past three years, and none was funded by companies involved in the production of ultraprocessed foods, the authors said. "Strong evidence shows that a higher intake of ultra-processed foods was associated with approximately 50% higher risk of cardiovascular disease-related death and common mental disorders," said lead author Dr. Melissa Lane, a postdoctoral research fellow at Deakin, in an email. Cardiovascular disease encompasses heart attacks, stroke, clogged arteries and peripheral artery disease. The study: Ultra-processed food exposure and adverse health outcomes: umbrella review of epidemiological meta-analyses (BMJ)
Astronomers measure heaviest black hole pair ever found
Nearly every massive galaxy hosts a supermassive black hole at its center. When two galaxies merge, their black holes can form a binary pair, meaning they are in a bound orbit with one another. It's hypothesized that these binaries are fated to eventually merge, but this has never been observed [1]. The question of whether such an event is possible has been a topic of discussion amongst astronomers for decades. In a recently published paper in The Astrophysical Journal, a team of astronomers have presented new insight into this question.
The team used data from the Gemini North telescope in Hawai'i, one half of the International Gemini Observatory operated by NSF's NOIRLab, which is funded by the U.S. National Science Foundation, to analyze a supermassive black hole binary located within the elliptical galaxy B2 0402+379. This is the only supermassive black hole binary ever resolved in enough detail to see both objects separately [2], and it holds the record for having the smallest separation ever directly measured -- a mere 24 light-years [3]. While this close separation foretells a powerful merger, further study revealed that the pair has been stalled at this distance for over three billion years, begging the question; what's the hold-up?
Astronomers reveal a new link between water and planet formation
Researchers have found water vapour in the disc around a young star exactly where planets may be forming. Water is a key ingredient for life on Earth, and is also thought to play a significant role in planet formation. Yet, until now, we had never been able to map how water is distributed in a stable, cool disc -- the type of disc that offers the most favourable conditions for planets to form around stars. The new findings were made possible thanks to the Atacama Large Millimeter/submillimeter Array (ALMA), in which the European Southern Observatory (ESO) is a partner.
"I had never imagined that we could capture an image of oceans of water vapour in the same region where a planet is likely forming," says Stefano Facchini, an astronomer at the University of Milan, Italy, who led the study published today in Nature Astronomy. The observations reveal at least three times as much water as in all of Earth's oceans in the inner disc of the young Sun-like star HL Tauri, located 450 light-years away from Earth in the constellation Taurus.
Ultraviolet radiation from massive stars shapes planetary systems
To find out how planetary systems such as our Solar System form, an international research team including scientists from the University of Cologne studied a stellar nursery, the Orion Nebula, using the James Webb Space Telescope (JWST). By observing a protoplanetary disc named d203-506, they discovered the key role massive stars play in the formation of planetary systems that are less than a million years old. The study, led by Dr Olivier Berné from the National Centre for Scientific Research (CNRS) in Toulouse, was published under the title 'A far-ultraviolet-driven photoevaporation flow observed in a protoplanetary disk' in Science.
These stars, which are around ten times more massive, and, more importantly, 100,000 times more luminous than the Sun, expose any planets forming in such systems nearby to very intense ultraviolet radiation.
Ice shell thickness reveals water temperature on ocean worlds
Cornell University astrobiologists have devised a novel way to determine ocean temperatures of distant worlds based on the thickness of their ice shells, effectively conducting oceanography from space.
Available data showing ice thickness variation already allows a prediction for the upper ocean of Enceladus, a moon of Saturn, and a NASA mission's planned orbital survey of Europa's ice shell should do the same for the much larger Jovian moon, enhancing the mission's findings about whether it could support life.
The researchers propose that a process called "ice pumping," which they've observed below Antarctic ice shelves, likely shapes the undersides of Europa's and Enceladus' ice shells, but should also operate at Ganymede and Titan, large moons of Jupiter and Saturn, respectively. They show that temperature ranges where the ice and ocean interact -- important regions where ingredients for life may be exchanged -- can be calculated based on an ice shell's slope and changes in water's freezing point at different pressures and salinities.
Could fiber optic cable help scientists probe the deep layers of the moon?
An increasing number of seismologists are using fiber optic cables to detect seismic waves on Earth -- but how would this technology fare on the Moon, and what would it tell us about the deep layers of our nearest neighbor in space?
In Seismological Research Letters, Wenbo Wu of Woods Hole Oceanographic Institute and colleagues explore the idea of deploying a fiber seismic network on the Moon, discussing some of the challenges to overcome.
They also test this hypothetical network using artificial seismograms created from data collected by seismometers placed on the Moon's surface by the Apollo missions. Based on their results, Wu and colleagues say a fiber seismic network could identify the kind of seismic waves that would provide more information about the Moon's deep core structure.
How molecular 'handedness' emerged in early biology
Molecules often have a structural asymmetry called chirality, which means they can appear in alternative, mirror-image versions, akin to the left and right versions of human hands. One of the great mysteries about the origins of life on Earth is that virtually all of the fundamental molecules of biology, such as the building blocks of proteins and DNA, appear in just one chiral form.
Scripps Research chemists, in two high-profile studies, have now proposed an elegant solution to this mystery, showing how this single-handedness or "homochirality" could have become established in biology.
The studies were published in the Proceedings of the National Academy of Sciences on February 5, 2024, and in Nature on February 28, 2024. Together, they suggest that the emergence of homochirality was due largely to a chemistry phenomenon called kinetic resolution, in which one chiral form becomes more abundant than another due to faster production and/or slower depletion.
How first cells could have formed on Earth
Roughly 4 billion years ago, Earth was developing conditions suitable for life. Origin-of-life scientists often wonder if the type of chemistry found on the early Earth was similar to what life requires today. They know that spherical collections of fats, called protocells, were the precursor to cells during this emergence of life. But how did simple protocells first arise and diversify to eventually lead to life on Earth?
Now, Scripps Research scientists have discovered one plausible pathway for how protocells may have first formed and chemically progressed to allow for a diversity of functions.
The findings, published online on February 29, 2024, in the journal Chem, suggest that a chemical process called phosphorylation (where phosphate groups are added to the molecule) may have occurred earlier than previously expected. This would lead to more structurally complex, double chained protocells capable of harboring chemical reactions and dividing with a diverse range of functionalities. By revealing how protocells formed, scientists can better understand how early evolution could have taken place.
Double trouble at chromosome ends
Half a century ago, scientists Jim Watson and Alexey Olovnikov independently realized that there was a problem with how our DNA gets copied. A quirk of linear DNA replication dictated that telomeres that protect the ends of chromosomes should have been growing shorter with each round of replication, a phenomenon known as the end-replication problem.
But a solution was forthcoming: Liz Blackburn and Carol Greider discovered telomerase, an enzyme that adds the telomeric repeats to the ends of chromosomes. "Case closed, everybody thought," says Rockefeller's Titia de Lange.
Now, new research published in Nature suggests that there are two end-replication problems, not one. Further, telomerase is only part of the solution -- cells also use the CST-Polα-primase complex, which has been extensively studied in de Lange's laboratory. "For many decades we thought we knew what the end-replication problem was and how it was solved by telomerase," says de Lange. "It turns out we had missed half the problem."
Predatory fish use rapid color changes to coordinate attacks
Striped marlin are some of the fastest animals on the planet and one of the ocean's top predators. When hunting in groups, individual marlin will take turns attacking schools of prey fish one at a time. Now a new study reported in the journal Current Biology on February 5 helps to explain how they might coordinate this turn-taking style of attack on their prey to avoid injuring each other. The key, according to the new work, is rapid color changes.
"We documented for the first time rapid color change in a group-hunting predator, the striped marlin, as groups of marlin hunted schools of sardines," says Alicia Burns of Humboldt University in Berlin, Germany.
"We found that the attacking marlin 'lit up' and became much brighter than its group-mates as it made its attack before rapidly returning to its 'non-bright' coloration after its attack ended."
Scientists use blue-green algae as a surrogate mother for 'meat-like' proteins
We all know that we ought to eat less meat and cheese and dig into more plant-based foods. But whilst perusing the supermarket cold display and having to choose between animal-based foods and more climate-friendly alternative proteins, our voices of reason don't always win. And even though flavour has been mastered in many plant-based products, textures with the 'right' mouthfeel have often been lacking.
Furthermore, some plant-based protein alternatives are not as sustainable anyway, due to the resources consumed by their processing.
But what if it was possible to make sustainable, protein-rich foods that also have the right texture? New research from the University of Copenhagen is fueling that vision. The key? Blue-green algae. Not the infamous type known for being a poisonous broth in the sea come summertime, but non-toxic ones.
How 40Hz sensory gamma rhythm stimulation clears amyloid in Alzheimer's mice
Studies at MIT and elsewhere are producing mounting evidence that light flickering and sound clicking at the gamma brain rhythm frequency of 40 Hz can reduce Alzheimer's disease (AD) progression and treat symptoms in human volunteers as well as lab mice. In a new study in Nature using a mouse model of the disease, researchers at The Picower Institute for Learning and Memory of MIT reveal a key mechanism that may contribute to these beneficial effects: clearance of amyloid proteins, a hallmark of AD pathology, via the brain's glymphatic system, a recently discovered "plumbing" network parallel to the brain's blood vessels.
"Ever since we published our first results in 2016, people have asked me how does it work? Why 40 Hz? Why not some other frequency?" said study senior author Li-Huei Tsai, Picower Professor of Neuroscience and director of The Picower Institute and MIT's Aging Brain Initiative. "These are indeed very important questions we have worked very hard in the lab to address."
The new paper describes a series of experiments, led by Mitch Murdock when he was a Brain and Cognitive Sciences doctoral student at MIT, showing that when sensory gamma stimulation increases 40 Hz power and synchrony in the brains of mice, that prompts a particular type of neuron to release peptides. The study results further suggest that those short protein signals then drive specific processes that promote increased amyloid clearance via the glymphatic system.
New study links placental oxygen levels to fetal brain development
A new study shows oxygenation levels in the placenta, formed during the last three months of fetal development, are an important predictor of cortical growth (development of the outermost layer of the brain or cerebral cortex) and is likely a predictor of childhood cognition and behaviour.
"Many factors can disrupt healthy brain development in utero, and this study demonstrates the placenta is a crucial mediator between maternal health and fetal brain health," said Emma Duerden, Canada Research Chair in Neuroscience & Learning Disorders at Western University, Lawson Health Research Institute scientist and senior author of the study.
The connection between placental health and childhood cognition was demonstrated in previous research using ultrasound, but for this study, Duerden, research scientist Emily Nichols and an interdisciplinary team of Western and Lawson researchers used magnetic resonance imaging (MRI), a far superior and more holistic imaging technique. This novel approach to imaging placental growth allows researchers to study neurodevelopmental disorders very early on in life, which could lead to the development of therapies and treatments.
Blindness from some inherited eye diseases may be caused by gut bacteria
Sight loss in certain inherited eye diseases may be caused by gut bacteria, and is potentially treatable by antimicrobials, finds a new study in mice co-led by a UCL and Moorfields researcher.
The international study observed that in eyes with sight loss caused by a particular genetic mutation, known to cause eye diseases that lead to blindness, gut bacteria were found within the damaged areas of the eye.
The authors of the new paper, published in Cell and jointly led by researchers in China, say their findings suggest that the genetic mutation may relax the body's defences, thus allowing harmful bacteria to reach the eye and cause blindness.
Russia Acknowledges Continuing Air Leak From Its Segment of Space Station
Russian space officials have acknowledged a continuing air leak from the Russian segment of the International Space Station, but said it poses no danger to its crew. From a report: The Roscosmos state corporation said that specialists were monitoring the leak and the crew "regularly conducts work to locate and fix possible spots of the leak." It said in a statement carried by Russian news agencies: "There is no threat to the crew or the station itself." Joel Montalbano, Nasa's station project manager, had noted on Wednesday that the leak in the Russian segment has increased but emphasised that it remained small and posed no threat to the crew's safety or vehicle operations.
As the space outpost is ageing, the crew has to spend more time to repair and maintain it, Roscosmos said. Russian space officials first reported a leak in the Zvezda module in August 2020 and later that year Russian crew members located what they believed was its source and tried to fix it. In November 2021, another potentially leaky spot was found in a different part of the Russian section of the station. Roscosmos and Nasa have said the leak posed no danger to the crew and did not affect operations on the station. There have been other glitches. In October, coolant leaked from an external backup radiator for Russia's new science lab, Nauka, although its main thermal control system was working normally and space officials said the crew and the station were not in danger.
More schooling is linked to slowed aging and increased longevity
Participants in the Framingham Heart Study who achieved higher levels of education tended to age more slowly and went on to live longer lives as compared to those who did not achieve upward educational mobility, according to a new study at Columbia University Mailman School of Public Health and The Robert N. Butler Columbia Aging Center. Upward educational mobility was significantly associated with a slower pace of aging and lower risk of death. The results are published online in JAMA Network Open.
The Framingham Heart Study is an ongoing observational study first initiated in 1948 that currently spans three generations.
The Columbia analysis is the first to connect educational mobility with pace of biological aging and mortality. "We've known for a long time that people who have higher levels of education tend to live longer lives. But there are a bunch of challenges in figuring out how that happens and, critically, whether interventions to promote educational attainment will contribute to healthy longevity," said Daniel Belsky, PhD, associate professor of Epidemiology at Columbia Mailman School and the Aging Center and senior author of the paper.