Study suggests ellagic acid as a promising dietary option for non-alcoholic fatty liver disease

Ellagic acid is a polyphenolic, non-flavonoid compound found naturally in a variety of fruits, including pomegranates, raspberries, strawberries, and grapes, as well as nuts, including pistachios, pecans, walnuts, and acorns.

Senavirasna othersResearchers are investigating the effects of ellagic acid, an antioxidant found in pomegranates, raspberries, strawberries, grapes and nuts, in preventing and potentially reversing the damage caused by fatty liver disease. Image courtesy of Engin Akyurt.

Obesity is epidemic in many parts of the world and contributes to increasing rates of non-alcoholic fatty liver disease (NAFLD).

This rapidly expanding epidemic is the most common chronic liver disease worldwide.

The prevalence of NAFLD increased from 25.24% in 2015 to 29.38% in 2021.

NAFLD represents a range of pathologies from simple fatty liver (nonalcoholic fatty liver, NAFL) to nonalcoholic steatohepatitis (NASH), which can progress to more severe conditions including fibrosis.

Currently, no cure exists for the long-term management of NAFLD/NASH, but dietary interventions containing several polyphenolic compounds have been investigated for the treatment of NASH. Ellagic acid is one such compound.

“Ellagic acid, found in a variety of foods including raspberries, pomegranates, blackberries and pecans, is widely known for its antioxidant properties but has also demonstrated anti-inflammatory, anti-fibrotic and anti-cancer properties,” said researcher Lois Balmer and doctoral student Tarani Senaviratna, both from Edith Cowan University.

“Ellagic acid stands out as a remarkable polyphenolic compound with a wide range of pharmacological properties that may be promising for the treatment of various chronic diseases, including NAFLD.”

“Edible plants containing ellagic acid and its derivatives are recognized as valuable functional foods that promote human health due to their pleiotropic biological effects.”

“Furthermore, evidence suggests that ellagic acid may exert synergistic therapeutic effects when combined with other antioxidant dietary supplements, making it a potential candidate for combination therapy.”

The authors were involved in a previous pilot study investigating the effects of several polyphenolic compounds on NAFLD, with ellagic acid showing the most promise in reducing inflammation.

“Ellagic acid exerts its hepatoprotective properties mainly through scavenging free radicals, modulating cytokine production, and regulating lipid metabolism,” the researchers said.

“Ellagic acid, a potent antioxidant, combats reactive oxygen species (ROS) and activates the NrF2 pathway to reduce oxidative stress and protect the liver.”

“Surprisingly, ellagic acid also inhibits the Nf-kB and MAPK pathways, reducing inflammation during NAFLD/NASH.”

“Evidence also shows that ellagic acid can lower both triglyceride and cholesterol levels and combat de novo lipogenesis, a significant risk factor in the progression of NASH.”

“Test-tube findings suggest that ellagic acid has the ability to reduce fibrosis.”

“Urolithins, the main microbial metabolites of ellagic acid, have been shown to improve the gut microbiota in several mouse models of obesity.”

“Specifically, Urolithin A has been shown to lower LDL and increase HDL levels and is also involved in improving lipid metabolism through gene regulation, while Urolithin C activates the hepatic AMPK pathway, countering the pathophysiology of NAFLD.”

“While the health benefits of ellagic acid and urolithins in NAFLD/NASH are being debated, their biological effects on the liver are still poorly understood.”

“Given that lipid metabolism, oxidative stress, inflammation, and insulin resistance play a role in the development of NASH, the results of this review suggest that ellagic acid may be a potential dietary intervention for NASH, potentially suppressing and even reversing the pathological symptoms of NAFLD/NASH.”

of study Published in the journal Antioxidants.

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Tarani Senavilasna others2024. Elucidation of the therapeutic effects of ellagic acid on nonalcoholic fatty liver disease and nonalcoholic steatohepatitis. Antioxidants 13(4):485; doi:10.3390/antiox13040485

Source: www.sci.news

Hubble Space Telescope Shines Light on Stunning Spiral Galaxy NGC 4731

The NASA/ESA Hubble Space Telescope captured this stunning image of a barred spiral galaxy called NGC 4731.

This Hubble Space Telescope image shows NGC 4731, a barred spiral galaxy about 43 million light-years away in the constellation Virgo. Image courtesy of NASA / ESA / Hubble / D. Thilker.

NGC 4731 It is located in the constellation Virgo, about 43 million light years from Earth.

Also known as IRAS 12484-0607, LEDA 43507, and UGCA 302, it is classified as a barred spiral galaxy.

“Barred spiral galaxies outnumber regular spiral and elliptical galaxies combined, making up about 60 percent of all galaxies,” the Hubble astronomers said.

“The bar-like structure we see is the result of the orbits of stars and gas in our galaxy aligning, forming dense regions where individual stars move in and out over time.”

“This is the same process that maintains the spiral arms of our galaxy, but in the case of barred galaxies it's a bit more mysterious. As spiral galaxies mature they seem to form a bar at their centre, which explains the large number of bar structures we see today. But later on the bar can also be lost if the accumulated mass along it becomes unstable.”

“The orbital patterns and gravitational interactions of galaxies support the bar-like structure of the galaxy, transporting matter and energy and promoting star formation.”

“Indeed, the observing program studying NGC 4731 seeks to investigate this flow of matter within the galaxy,” they added.

beginning discovered Discovered on April 25, 1784 by German-born British astronomer William Herschel, NGC 4731 has a diameter of about 80,000 light years.

With LEDA 43526 Galaxy, Forms Holm 472, a pair of interacting galaxies.

NGC 4731 is also a member of the NGC 4697 galaxy group. Located Near the Virgo Supercluster.

“Beyond the bar, NGC 4731's spiral arms extend far beyond the scope of this close-up Hubble image,” the astronomers said.

“The galaxy's elongated arms are thought to be the result of gravitational interactions with other nearby galaxies in the Virgo Cluster.”

The color image of NGC 4731 includes ultraviolet, near-infrared, and optical observations. Hubble's Wide Field Camera 3 (WFC3).

Six filters were used to sample different wavelengths, and color was generated by assigning a different hue to each monochromatic image associated with an individual filter.

“The richness of color reveals the galaxy's swirling gas clouds, dark dust bands, bright pink star-forming regions, and most notably, its long, luminous arms stretching out behind it,” the researchers said.

Source: www.sci.news

Astronomers document extraterrestrial exoplanets

The new catalogue, created as part of the TESS-Keck survey, includes 126 strange planets outside our solar system, ranging from unusual worlds with extreme environments to those that could potentially support life as we know it.

Artist's impression of the 126 planets in the new TESS-Keck survey catalog is based on data such as planet radius, mass, density, and temperature. Question marks represent planets that need more data for full characterization. Image courtesy of W. M. Keck Observatory/Adam Makarenko.

“Relatively few known exoplanets have had both their mass and radius measured,” said Steven Kane, professor at the University of California, Riverside, and principal investigator of the TESS-Keck survey. paper Published in Astrophysical Journal Supplement.

“Combined, these measurements tell us what the planet is made of and how it formed.”

“With this information, we will be able to answer the question of where our solar system fits in the grand scheme of other planetary systems.”

Professor Kane and his colleagues analysed more than 13,000 radial velocity (RV) measurements to calculate the masses of 120 confirmed planets and six candidate planets spread across the northern sky.

“These RV measurements allow astronomers to detect and characterize these exoplanetary systems,” said astrophysicist Ian Crossfield of the University of Kansas.

“When we see a star wobbling back and forth in a regular pattern, we can infer the presence of orbiting planets and measure their masses.”

Several planets discovered in the TESS-Keck survey stand out as touchstones for improving astronomers' understanding of the diverse ways planets form and evolve.

in Related Papers In Astronomical JournalAstronomers have announced the discovery of two new planets orbiting a sun-like star.

The first is a sub-Saturnian planet with a mass and radius intermediate between Neptune and Saturn.

“There's been some debate about whether sub-Saturn planets are truly rare or whether we're just bad at finding them,” said Michelle Hill, a graduate student at the University of California, Riverside.

“So planet TOI-1386b is an important addition to this planetary group.”

TOI-1386b takes just 26 days to orbit its star, while its neighbour, a planet with a mass similar to that of Saturn, takes 227 days to orbit the same star.

in Related ArticlesThe researchers described TOI-1437b, a planet about half the size of Neptune that orbits a sun-like star every 19 days.

“Planets smaller than Neptune and larger than Earth are the most common worlds in our galaxy, but they don't exist in our solar system,” said Daria Pidhorodetka, a graduate student at the University of California, Riverside.

“With each new discovery, we are reminded of how diverse the universe is, and that our place in it may be more unique than we can understand.”

The catalog also contains detailed descriptions of planets that, unlike the Sun, orbit extremely short distances around their stars.

One is so close to the orange dwarf that it completes an orbit in less than 12 hours.

“TOI-1798c orbits its star so quickly that a year on the planet lasts less than half an Earth day,” said Alex Polansky, a graduate student at the University of Kansas.

“Because these planets are so close to their stars, they are extremely hot and receive more than 3,000 times the radiation that Earth receives from the Sun.”

“Being in this extreme environment means that the planet is likely losing any atmosphere it may have originally formed.”

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Alex S. Polanski other2024. TESS-Keck Survey. XX. Uniform RV analysis of 15 new TESS planets and all survey targets. AppJS 272, 32; Source: 10.3847/1538-4365/ad4484

Michelle L. Hill other2024. TESS-Keck Survey. XIX. Warm transiting sub-Saturn-mass and non-transiting Saturn-mass planets orbiting solar analogues. AJ 167, 151; Source: 10.3847/1538-3881/ad2765

Daria Pidhorodetka other. 2024. TESS-Keck Survey. XXII. TOI-1437 in Near-Neptune Orbit. arXiv: 2405.12448

Source: www.sci.news

New research indicates that caterpillars are able to detect predatory wasps through the emission of static electricity.

Predatory wasps are electrically charged and emit electric fields, and their larvae respond to these fields with defensive behaviour, according to a new study from the University of Bristol.

Sam J. England and Daniel Robert discovered that some terrestrial animals can sense the electric fields emitted by electrostatically charged predators and use this sensation to mount defensive actions. These photos show the four animal species examined in the study: (A) A Cinnabarga larva (Tilia jacobae) Taking a defensive posture. (B) The larva of a rare transpiration moth (Terrorcrus Rekens) in a defensive coiled position. (C) The larva of the European peacock butterfly (Aglais), (D) a predatory common hornet in the middle of a defensive maneuver (HornetImage credit: Sam J. England & Daniel Robert, doi: 10.1073/pnas.2322674121.

“Many animals naturally build up static electricity on their bodies as they move around in their environment, and we knew that static electricity can push or pull on other charged objects,” said researcher Sam England, from the University of Bristol.

“In particular, we knew that insect hairs can be moved by electric fields emitted by electrostatically charged objects, in the same way that an electrically charged balloon can move hair on the head.”

“This got us thinking: What if prey animals like caterpillars could detect predators by sensing the electric fields emitted by the predators?”

“Could the static electricity of a predator like a wasp be enough to alert the caterpillar to the approach of the wasp, by pushing and pulling on the caterpillar's sensory hairs?”

Dr England and his colleague, Professor Daniel Robert, from the University of Bristol, measured how much static electricity the wasps and caterpillars had picked up by passing them through a static sensor.

The researchers then fed these charge values ​​into a computational model to mathematically predict how strong the electric field would be as the wasp approached the larvae on the plant.

When the caterpillars reacted defensively to these conditions, they were able to determine whether it was sensory hairs that were detecting the electricity by using a laser to detect tiny vibrations and measuring how much the hairs moved in response to electric fields of different frequencies.

The results are concerning because they show that the caterpillars are also sensitive to the frequencies of electric fields emitted by power lines and other electronic devices.

This means that humans may be filling the environment with electrical “noise” that interferes with animals' ability to detect predators.

Dr England continued: “We now feel it is extremely urgent to assess whether introducing a new type of sensory pollution – electrical noise – is interfering with the ability of caterpillars, and other animals, to detect predators.”

Almost all terrestrial animals seem to accumulate static electricity, so this static sense may be widespread, and the discovery that static electricity plays a role in these ecological interactions would open up an entirely new dimension to our understanding of how animals sense each other, and more generally, how and why animals evolve in certain ways.

“Our study suggests that terrestrial animals may be able to use static electricity as a predator-detection cue,” Dr England said.

“This is likely an ability that is particularly widespread in insects and small animals such as spiders and scorpions.”

“This study provides the first example of an animal detecting predators by sensing static electricity emitted by the predator.”

“This reveals a new dimension of predator-prey interactions on land, but also suggests a previously unnoticed way in which we may be negatively impacting wildlife by introducing sources of electrosensory pollution.”

of study Published in Proceedings of the National Academy of Sciences.

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Sam J. England & Daniel Robert. 2024. Prey can detect predators via airborne electroreception. PNAS 121(23):e2322674121; doi:10.1073/pnas.2322674121

Source: www.sci.news

Scientists Discover Unique Characteristics of Rare Element Promethium

Promethium is extremely rare, with only about 0.5 kg occurring naturally in the Earth’s crust at any one time.

Conceptual art depicts the rare earth element promethium in a vial surrounded by organic ligands. Image courtesy of Jacqueline DeMink / Thomas Dyke / ORNL.

[DiscoveredattheClintonLaboratoryin1945promethium is a lanthanide element with the symbol Pm and atomic number 61.

Named after the mythical Titan who brought fire to mankind, the name symbolizes human endeavor.

Despite their use in medical research and long-life nuclear batteries, some of their properties remain poorly understood.

“The aim of this project was to explore and gain new knowledge about this extremely rare element,” he said. Oak Ridge National Laboratory.

Dr. Ivanov and his colleagues prepared a chemical complex of promethium, allowing them to characterize it in solution for the first time.

Thus, they uncovered the secrets of this element through a series of meticulous experiments.

“Promethium was the last lanthanide discovered and has been the most difficult to study because it has no stable isotopes,” said Dr. Ilya Popovs, also of Oak Ridge National Laboratory.

“There are thousands of papers on lanthanide chemistry without promethium. It was a glaring flaw in the science as a whole,” said Dr. Santa Giansone-Popova of Oak Ridge National Laboratory.

“Scientists could only guess at most of its properties. Now we can actually measure some of them.”

The researchers linked, or chelated, radioactive promethium with a special organic molecule called a diglycolamide ligand.

The researchers then used X-ray spectroscopy to determine the properties of the complex, including the lengths of the chemical bonds between promethium and neighboring atoms — a scientific first and a long-missing part of the periodic table of elements.

Unlike other rare earth elements, synthetic promethium has no stable isotopes and is therefore only available in very small quantities.

For their research, the scientists produced the isotope promethium-147, which has a half-life of 2.62 years, in sufficient quantity and purity to study its chemical properties.

Remarkably, they were the first to demonstrate the signature of lanthanide contraction in solution for the entire lanthanide series, including promethium, atomic number 61.

Lanthanide contraction is a phenomenon in which elements with atomic numbers 57 through 71 become smaller than expected.

As the atomic number of these lanthanides increases, the radius of their ions decreases.

This contraction results in unique chemical and electronic properties as the same electric charge is confined to a shrinking space.

The authors obtained a clear promethium signal, which allowed them to better define the shape of the trend across the series.

“It’s really amazing from a scientific point of view. When I got all the data I was blown away,” Dr Ivanov said.

“This contraction of chemical bonds accelerates along the atomic series, but slows down significantly from promethium onwards.”

“This is a major breakthrough in understanding the chemical bonding properties of these elements and their structural changes along the periodic table.”

“Among other things, this achievement will ease the difficult task of isolating these valuable elements,” said Dr. Jansonne Popova.

“Our team has been working for a long time to isolate the entire series of lanthanides, but promethium was the last puzzle piece. It’s been very challenging.”

“With today’s advanced technology, we can’t use all these lanthanides as a mixture, because we have to separate them first.”

“This is where shrinkage becomes really important. It basically allows you to separate them, which is still pretty difficult.”

“All of the technological marvels of our time contain these rare earth elements in some form,” Dr Popovs said.

“We’re adding the missing link.”

Team paper Published in today’s journal Nature.

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D.M. Driscoll othersObservation of promethium complexes in solution. NaturePublished online May 22, 2024, doi: 10.1038/s41586-024-07267-6

Source: www.sci.news

Ancient settlement uncovered in Chile dates back 12,500 years

About 12,440 to 12,550 years ago, hunter-gatherers regularly returned to Chile’s Lake Taguatagua to hunt an ancient elephant relative called Gomphotherium and exploit other local resources, according to a team led by archaeologists from the Pontificia Catholic University of Chile.

Taguatagua 3 site, Chile: (A) Burning evidence spatially associated with Gomphothery cervical vertebrae and skull fragments. (B) Sacral and caudal vertebrae, intervertebral disks, and unfused hipbone segments. Note the distance between the first sacral vertebra and its disk. (C) End scraper from the site. (D) Core debitage from the site spatially associated with Gomphothery remains. Image courtesy of Labarca others., doi: 10.1371/journal.pone.0302465.

There are several known archaeological sites in the area. Lake Taguatagua Located in central Chile, it is one of the oldest known sites of human habitation in the Americas.

In a new study, Dr Rafael Labarca from the Pontificia Catholic University of Chile and his colleagues discovered an ancient hunter-gatherer camp dating back to the Late Pleistocene epoch, between 12,440 and 12,550 years ago.

The site, named Taguatagua 3, contains fossils of the Gomphosele, an extinct species closely related to the elephant.

Butchery marks on bones, stone tools and other evidence indicate that Taguatagua 3 was a temporary camp set up to process large carcasses.

During the camp’s short existence, other activities were also carried out, including the processing of other foods, as evidenced by the charred remains of plants and small animals such as frogs and birds.

Fossilized cactus seeds and bird egg shells suggest that the camp was inhabited, especially during the dry season.

Numerous archaeological sites from a similar period are now known to exist in the area, suggesting that Lake Tagua-Tagua was a recurring hunting and food-scavenging site for Late Pleistocene people thanks to abundant and predictable local resources.

“The area was an important location along the route of mobile groups at the time and the temporary camp may have hosted regular meetings between these groups,” the archaeologists said.

Further investigation of this archaeologically rich area will continue to provide insight into the migration and survival strategies of early humans in South America.

“Taguatagua 3 contributes to a greater understanding of how early humans adapted to the rapidly changing environment of central Chile during the Late Pleistocene,” the researchers said.

of Investigation result Published online in the journal PLoS One.

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R. Labarca others2024. Taguatagua 3: A new Late Pleistocene settlement in a highly suitable site for lacustrine habitat in central Chile (34°S). PLoS One 19(5): e0302465; doi: 10.1371/journal.pone.0302465

Source: www.sci.news

New Study Reveals Australian Marsupials Are More Afraid of Humans Than Other Predators

Researchers from the University of Tasmania and Western University have conducted experiments to show that Australian marsupials such as kangaroos and wallabies are most afraid of human “super predators,” fleeing from them 2.4 times more frequently than from other predators.



Recent experiments have demonstrated that carnivores and ungulates from Africa, Asia, Europe, and North America fear human “superpredators” much more than they do other predators. Australian mammals have been the focus of research into predator ignorance because they are suspected of exhibiting atypical responses. To experimentally test whether Australian mammals are also most afraid of humans, McGann others quantified responses of four native marsupials (eastern grey kangaroo, Bennett’s wallaby, Tasmanian pademelon, and brushtail possum) and taught fallow deer to playback predator (human, dog, Tasmanian devil, wolf) or non-predator control (sheep) vocalizations. Image courtesy of Pen_ash.

There is a widespread fear of humans among wildlife in Africa, Asia, Europe, and North America, reflecting the reality that humans are “super-predators,” far more dangerous than other predators worldwide.

Australian marsupials have been traditionally seen as naive to predators, based on their reactions to non-human threats.

“Our results significantly contribute to the growing body of experimental proof that wildlife globally view humans as the most feared predators on the planet,” stated Professor Liana Zanetto of Western University, a co-senior author of the study published in the journal Nature Proceedings of the Royal Society B.

“The strong fear of humans found in this study, as well as in similar recent experiments, is expected to have significant ecological repercussions, as additional research indicates that fear itself can reduce wildlife populations and that fear of humans can lead to cascading effects on multiple species across entire regions.”

To conduct their study, Professor Zanette and colleagues designed a hidden automated camera-speaker system in a sheep pasture in central Tasmania known as the Bowfront.

The five species they observed (eastern grey kangaroo, Bennett’s wallaby, Tasmanian pademelon, brushtail possum, and fallow deer) are the most prevalent native herbivores in the area.

As the animals came close (about 10 meters, 30 feet), the cameras captured their responses to non-threatening stimuli such as calm human speech, a barking dog, growling Tasmanian devil, howling wolf, or bleating sheep.

Native marsupials reacted by fleeing more frequently when exposed to the sound of their next most feared predator (dogs) compared to human voices, and were over twice (2.4 times) more likely to flee from humans (44.3% vs. 18.6% of trials).

These findings present conservation challenges but also offer insights for managing native marsupials in regions where they are overpopulated.

“Global studies have shown that humans kill prey at a much higher rate than other predators, making us ‘super-predators,’ and the intense fear of our presence in all wildlife species aligns perfectly with our inherent deadliness,” noted Professor Zanette.

“Humans are the ‘invisible killer.’ We may not perceive ourselves as the primary predator, let alone the most dangerous, but wild animals clearly see us for what we truly are.”

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Catherine McGann et al. 2024. Fear of human “super-predators” in Australia’s native marsupials and invasive deer. Proceedings of the Royal Society B 291 (2023): 20232849; doi: 10.1098/rspb.2023.2849

Source: www.sci.news

Research reveals that Mycenaean armor was created for extended battles

A 3,500-year-old Mycenaean bronze suit of armour discovered in the Greek village of Dendra may have been used in combat and not just for ritual purposes as previously thought.



Volunteer Marines wearing replica Dendra armor during a mock battle during a demonstration study. Image credit: Andreas Flouris / Marija Marković.

One of the oldest armors discovered in Europe is a 3,500-year-old suit of armor found near the village of Dendra, a few kilometers from ancient Mycenae in southern Greece.

Since its discovery in 1960 by a team of Greek and Swedish archaeologists, it has been unclear whether it was ceremonial clothing or gear suitable for combat.

This question has important implications for understanding warfare in Late Bronze Age Europe, yet there is no historical record of the use of this style of armour.

In a new study, Professor Andreas Floris from the University of Thessaly and his colleagues combined historical and experimental evidence to investigate the combat suitability of Dendra armour.

The researchers recruited 13 volunteers from the Greek Marine Corps, outfitted them with replica Dendra armour and Bronze Age weapons, and had them carry out 11 hours of simulated Bronze Age combat protocols.

This battle simulation was developed based on the historical records of Homer. Iliad Additionally, we add physiological and environmental evidence to approximate the typical diet, activities, and operations of a Mycenaean army.

Testing has shown that the replicated Dendra Armor does not restrict a warrior's combat capabilities, nor does it place undue strain on the wearer.

These results suggest that Dendra armour was battle-hardened and that the Mycenaeans' powerful influence on Mediterranean history was due in part to their armour technology.

To complement these results, the authors developed freely available software that allows for the simulation of combat conditions and allows testing the hypothetical effectiveness of the armor in more diverse scenarios.

“The armour worn by our volunteers had the same dimensions as the Bronze Age originals and weighed roughly the same,” Professor Floris said.

“We also monitored calorie intake based on the Homeric diet (about 4,443 calories), which Iliad“It linked calorie expenditure and the stress placed on the volunteers' bodies in typical Greek summer temperatures of 30-36°C.”

“As the 11-hour combat protocol began, we measured heart rate, oxygen consumption, core body temperature, fluid loss and muscle function.”

“We found that this armor allows complete flexibility of movement and does not place undue physiological stress on the body.”

“This means that, despite previous views that classified the armour as ceremonial clothing, it could have been worn for extended periods during battle by healthy individuals.”

“Sixty years have passed since the discovery of Dendra armour, and we now know that, although seemingly cumbersome, it was not only flexible enough to permit nearly all of a warrior's movements on foot, but also durable enough to protect the wearer from most blows.”

of result Published online in the journal PLoS One.

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AD Floris others2024. Analysis of Greek prehistoric full-body armour combat based on physiological principles: a series of studies using thematic analysis, human experiments and numerical simulations. PLoS One 19(5): e0301494; doi: 10.1371/journal.pone.0301494

Source: www.sci.news

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Source: www.the-blockchain.com

New research indicates that following a Mediterranean diet may alleviate anxiety and lower stress levels

Researchers from the University of the Sunshine Coast and the University of South Australia have discovered in a recent study that following a Mediterranean diet is linked to lower severity of anxiety and stress-related symptoms in older Australians living in the community. Despite this, there was no observed connection with depressive symptoms. The study also found that specific components of the Mediterranean diet, such as reduced consumption of sugary beverages and increased intake of fruits, nuts, and legumes, were independently associated with lower levels of anxiety symptoms.



The Mediterranean diet is inversely associated with the severity of anxiety and stress-related symptoms.

Anthony Villani, a researcher from the University of the Sunshine Coast, and his team investigated the correlation between adherence to a Mediterranean diet and the severity of depression, anxiety, and stress-related symptoms in older adults. A total of 294 older adults with an average age of 70.4 years who lived independently in Australia participated in the study.

The results showed that adherence to the Mediterranean diet was associated with lower levels of anxiety and stress-related symptoms, but not depressive symptoms. Furthermore, specific dietary components like low intake of fruits, nuts, legumes, and sugar-sweetened beverages were linked to decreased severity of anxiety and stress-related symptoms.

Dr. Anthony Villani noted, “These foods were key indicators in a study of more than 300 older Australians.” Additionally, he mentioned that individuals following a Mediterranean-style diet high in fruits, vegetables, legumes, nuts, seeds, fish, and olive oil had lower intensity of anxiety symptoms.

He continued, “Higher consumption of legumes and nuts, along with lower intake of sugary beverages, showed the most significant impact on reducing anxiety and stress. Nuts and legumes are rich in fiber, healthy fats, and antioxidants, which can have positive effects on brain health through gut health and inflammation reduction.”

The study, which controlled for various factors associated with poor mental health, emphasized the importance of a healthy diet in maintaining good mental health. It also highlighted the need for further research to explore the mental health benefits of the Mediterranean diet in older adults.

Published in Nutrients, the findings of the study are significant for understanding the relationship between diet and mental health in older populations.

_____

Lisa Allcock et al. 2024. Adherence to a Mediterranean diet is inversely associated with anxiety and stress, but not depression: a cross-sectional analysis of community-dwelling older Australians. Nutrients 16(3):366; doi: 10.3390/nu16030366

Source: www.sci.news

Illinois Unearths Remarkable 308-Million-Year-Old Fossil of Spiny Spider

The forests of the Late Carboniferous Period (about 300-320 million years ago) were home to a wide variety of arachnids. In addition to the familiar spiders, harvestmen, and scorpions, there were other strange kinds of spider-like animals. new paper this month, paleontology journal a pair of paleontologists explained. douglas sarachne echinopod a large spider-like arachnid with highly spiny legs (presumably to deter predators) from the world-famous Mason Creek fossil site in Illinois, USA.



douglas sarachne echinopod. Image credit: Paul Selden and Jason Dunlop, doi: 10.1017/jpa.2024.13.

douglas sarachne echinopod “It comes from Illinois' famous Mason Creek and is approximately 308 million years old,” said Dr. Paul Selden, a paleontologist at the University of Kansas and the Natural History Museum in London.

“This compact arachnid, about 1.5 cm long, has surprisingly strong, spiny legs, and is completely unlike any other known arachnid, living or extinct.”

“Coal measurements are an important source of information about fossil arachnids and represent the first time in Earth's history that most living groups of arachnids arose together. However, the fauna remains quite different from what it is today. It was different.”

Dr Jason Dunlop, a paleontologist at the Berlin Museum of Nature, said: 'Spiders are a fairly rare group, only known from primitive lineages at the time, and they are similar to a variety of long-extinct arachnids and these. They shared a shared ecosystem.”

douglas sarachne echinopod is a particularly striking example of one of these extinct forms. ”

“Although this fossil's highly spiny legs are reminiscent of modern harvesters, its body structure is quite different from harvesters and other known arachnid groups.”

douglas sarachne echinopod The researchers discovered that it does not belong to any known order of Araneidae.

“Unfortunately, we can't see details such as the mouth parts, so it's difficult to say exactly which group of arachnids are our closest relatives,” Dr Selden said.

“It may belong to a broader group that includes spiders, whip spiders and whip scorpions.”

“Whatever their evolutionary similarities, these spiny arachnids likely come from a time when arachnids were experimenting with different body plans.”

“Some of these later became extinct, probably shortly after the Mason Creek era, during the so-called 'Carboniferous rainforest collapse,' when coal forests began to fragment and disappear. Or perhaps these strange arachnids are hanging on until the mass extinction at the end of the Permian?”

Specimen douglas sarachne echinopod It was discovered in clay and ironstone concretions by Bob Macek in the 1980s.

Macek introduced a common method of cracking stones by leaving them outdoors in water over the winter, allowing frost to penetrate the natural cracks in the stones along the fossil-containing surface.

A sharp hammer blow split the stone along a plane, exposing the fossil.

Around 1990, David Douglas acquired a specimen from Bob, at which point it became part of the David and Sandra Douglas Collection and was displayed in the Douglas Family Museum of Prehistoric Life.

In 2023, when it became clear that the specimen was a new species, David Douglas donated it to the Field Museum of Natural History for study.

“Genus name douglas sarachne We recognize the Douglas family,” Dr. Dunlop said.

“after that, echinopods “Refers to the animal's unique and distinctive spiny legs.”

_____

Paul A. Selden and Jason A. Dunlop. A remarkable spiny arachnid from Mason Creek Lagerstätte, Pennsylvania, Illinois. paleontology journal, published online on May 17, 2024. Doi: 10.1017/jpa.2024.13

Source: www.sci.news

Ancient Norwegian archaeologist uncovers Stone Age leader’s visage

The skeletal remains of a 4,000-year-old Scandinavian man were discovered in 1916. Hitla island, Norway.

The male Hitra was approximately 169 cm tall, had blond hair and blue eyes. Image courtesy of Thomas Foldberg/Åge Hojem/NTNU University Museum.

“In 1916, the road up the hill to the Fausland farm on the island of Hitra was being renovated using gravel from the coast along the deepest part of Balmsfjorden,” said Dr. Birgitte Skarr of the NTNU University Museum. a colleague said.

“Suddenly, the workers noticed human bones among the sand and stones.”

“The bones belonged to an approximately 25-year-old man who died at the end of the Stone Age, 4,000 years ago.”

“He is believed to have drowned. At the time of his death, the sea level would have been 12.5 meters higher than it is now, and the site of his discovery would have been at a depth of 4 meters.”

Archaeologists also found and studied a Hitraean dagger and arm guard.

“The arm guard is a rectangular bone with two holes that would have been attached to the wrist of the bow hand,” they said.

“The guard protects your wrist from the impact of the bowstring when you shoot an arrow.”

“These pieces of equipment may indicate that he was a warrior.”

“It is impossible to determine whether the drowning was the result of a fight or an accident,” Dr. Skarr said.

“What we do know is that the Hitraeans lived in a very turbulent time.”

“Up until that point, most people lived as hunter-gatherers, and agriculture only became fully established in Norway at the end of the Stone Age, during the time of the Hitra people.”

“Although elements of agriculture had been introduced earlier in southern and eastern Norway, agriculture was first established during this period in central Norway, along the coast of western Norway, and in northern Norway.”

“We believe that agriculture was introduced by settlers who came to Norway to obtain more land, and they were willing to use weapons to do so.”

“So we have to expect violent clashes between the people who were already living here and the newcomers.”

“New people brought new knowledge to the country, not just about animal husbandry and agriculture, but also about other ways of organizing society.”

“They lived in a class society, had different worldviews, different religions, and large networks that spanned Europe.”

“This knowledge led to major political, economic, and social changes.”

“There is still much we don’t know about this dramatic period in Scandinavian history, and research continues.”

“His DNA is currently being analyzed at the Lundbeck Foundation Geogenetics Center at the University of Copenhagen.”

Source: www.sci.news

Stunning images of NGC 4689 captured by Hubble

Astronomers using the NASA/ESA Hubble Space Telescope have captured sharp images of NGC 4689, a jewel-bright spiral galaxy in the constellation Coma.



This Hubble image shows spiral galaxy NGC 4689 located 52 million light-years away in the constellation of Coma. Image credits: NASA / ESA / Hubble / D. Tilker / J. Lee / PHANGS-HST Team.

NGC 4689 It is located approximately 52 million light-years away in the constellation Kamina.

“Of the 88 constellations officially recognized by the International Astronomical Union (IAU), Coma has the distinction of being the only constellation named after a historical figure. Queen Berenice II of Egypt” explained the Hubble astronomer.

“The Latin word ‘coma’ refers to her hair, meaning that NGC 4689 can be said to be present in the Queen’s hair.”

“Some of Berenice’s contemporaries may have meant this quite literally; her court astronomer believed that Berenice’s lost locks had been destroyed by God (“among the stars”). It was given this name because there is a story that it was thought to have been placed in It is the constellation of Coma. ”

NGC 4689 is discovered It was proposed by German-born British astronomer William Herschel on April 12, 1784.

Also known as LEDA 43186 or UGC 7965, this galaxy is a member of the Virgo Cluster, a group of more than 2,000 galaxies.

NGC 4689 is tilted 36 degrees and can be viewed almost head-on.

The new images of the galaxy were created from separate exposures taken in the ultraviolet, visible, and near-infrared spectral regions. Hubble’s Wide Field Camera 3 (WFC3).

This is based on data obtained through a gender filter. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter.

“This image was created using two sets of observations taken in 2019 and 2024, both as part of a program to observe multiple ‘nearby’ galaxies.” Astronomy said the people.

The 2024 observing program is an interesting example of how Hubble, a relatively old but highly productive telescope, can support the work of the technologically cutting-edge Webb Telescope. ”

“Observations collected by Webb change our understanding of how galaxies change and evolve over time by providing data of unprecedented detail and clarity. It will be.”

“But thanks to their complementary capabilities, new observations from Hubble (such as those used to create new images) can aid the work being done using the Web.”

“In this case, the Hubble data were collected to better understand the stellar populations of nearby galaxies, which is critical to understanding the evolution of galaxies.”

“NGC 4689 therefore plays an important role in advancing our understanding of how all galaxies evolve.”

Source: www.sci.news

Cyprus settled by hunter-gatherers much earlier than previously believed

With persistent stories of isolation, inaccessibility, and unattractiveness, one of the eastern Mediterranean islands was first populated by an influx of agricultural populations from the mainland under demographic pressures. It is generally considered to be a Neolithic phenomenon that began with. New research led by Professor Corey Bradshaw from Flinders University shows Cyprus may have been settled by hunter-gatherers by about 14,000 to 13,000 years ago, earlier than previously recognized. . This process must have involved a small number of large-scale migration events (hundreds to thousands of people), which infers the intentions and organization of these early humans.



Bradshaw uses the latest archaeological data, afterthought climate projections, and demographic models of age structure to other. They demonstrate evidence of an early arrival on Cyprus (14,257-13,182 years ago), within two to three major events occurring within 100 years, to ensure the risk of extinction is low. They expected a large group (1,000 to 1,375 people) to arrive.Image credit: Bradshaw other., doi: 10.1073/pnas.2318293121.

In researching when Cyprus was first occupied by humans, Professor Bradshaw and his colleagues discovered that the large Mediterranean islands were an attractive and preferred destination for Paleolithic people.

Their findings contradict previous research that suggested Mediterranean islands would have been inaccessible and inhospitable for Pleistocene hunter-gatherer societies.

Archaeologists used archaeological data, climate estimates, and demographic modeling to uncover Cyprus's early people.

Analysis of archaeological dating from the 10 oldest sites across Cyprus suggests that first human habitation dates between 14,257 and 13,182 years ago, which is longer than previously thought. It is also much older.

“The islands were then rapidly settled. Climate modeling shows that this early hominin population was able to survive in tandem with increases in temperature, precipitation, and environmental productivity sufficient to sustain large hunter-gatherer populations. “We show that this is the case,” the researchers said.

Based on demographic models, we believe that large groups of hundreds to thousands of people arrived in Cyprus over two or three major migration events within 100 years.

“This settlement pattern suggests systematic planning and the use of advanced vessels,” Professor Bradshaw said.

Within 300 years, or 11 generations, Cyprus' population grew to a median of 4,000 to 5,000 people.

Dr Theodora Muzio, an archaeologist at James Cook University and the University of Cyprus, said: “This result suggests that Cyprus, and perhaps other Mediterranean islands, were more likely to be inhospitable places for Paleolithic hunter-gatherer societies. “This suggests that it would have been an attractive destination.”

“The dispersal and settlement of humans in Cyprus and other eastern Mediterranean islands was due to rapid climate change, with coastal regions inundated by post-ice age sea level rise and farmers forced to move to new locations. , it is argued that this is due to demographic pressures on the mainland, an area of ​​necessity rather than choice.”

“This interpretation has arisen as a result of significant gaps in the archaeological record of Cyprus, resulting from differences in the preservation of archaeological materials, bias in preservation, uncertainties associated with dating, and limited DNA evidence. '' said Australian Museum of Archaeology's archaeologist Dr Christian Liebmeyer. Australian Biodiversity and Heritage Research Council Center of Excellence, German Institute of Archaeology, and James Cook University.

“Our research, based on more archaeological evidence and advanced modeling techniques, changes that.”

“New findings highlight the need to reconsider the question of early human migration in the Mediterranean and test the validity of the perceived early settlement dates in the light of new technologies, field survey methods and data. ' said Professor Bradshaw.

Regarding this research, paper Published in Proceedings of the National Academy of Sciences.

_____

Corey J.A. Bradshaw other. 2024. Demographic models predict the onset of the late Pleistocene and rapid expansion of pre-agro-pastoralism in Cyprus. PNAS 121 (21): e2318293121; doi: 10.1073/pnas.2318293121

Source: www.sci.news

Astronomers Find Milky Way Center is Ventilated

Astronomers using NASA's Chandra X-ray Observatory have discovered an “exhaust vent” that directs hot gas away from Sagittarius A*, the supermassive black hole at the center of the Milky Way galaxy. The vent is about 26,000 light-years from Earth and is connected to a previously discovered chimney-like structure perpendicular to the galactic plane. Chandra's data shows a cylindrical tunnel that helps collect gas towards the outer edge of the Milky Way. The results reveal how the Milky Way's black hole takes in and rejects matter.

This image shows a region near the center of the Milky Way galaxy in X-rays and radio waves. At the bottom of the image, near the center, there are knots of shiny, tangled material that resemble paint splatters. This is the brightest region in the image and contains the supermassive black hole at the center of the galaxy known as Sagittarius A*. The bottom third of the image looks like an angry firestorm. Red and orange stripes were scattered in all directions, as if the embers of a fire had crackled and shot into the air all at once. A flame-like structure is licking from the right side towards the center. Most of the image is injected with a wispy blue cloud indicating his X-rays detected by Chandra. In some places, wispy blue clouds appear to form balls of blue-green light, known as dust rings. They are caused by X-rays from a bright X-ray source reflecting off the dust around them. These dust rings resemble underwater lights glowing in a cloudy pool at night. Rising from Sagittarius A* in the center of the image is a pillar of blue light called a chimney. This chimney of hot gas is surrounded by a red cloud filled with stars, appearing as a small red speck. Near the top of the blue pillar is a light blue stripe surrounded by an illustrated gray box. This line is called the chimney exhaust. Immediately to the left is another illustrated box showing a close-up image of the chimney vent that Chandra observed.Image credits: NASA / CXC / Chicago Space / Mackey other. / NRF / SARAO / MeerKAT / SAO / N. Walk.

The chimney begins at the center of the Milky Way and stands perpendicular to the galaxy's spiral disk.

Astronomers previously identified the chimney using X-ray data from NASA's Chandra mission and ESA's XMM Newton mission.

The radio emissions detected by the MeerKAT radio telescope show the influence of the magnetic field surrounding the gas in the chimney.

The latest Chandra data reveals several X-ray ridges nearly perpendicular to the galactic plane.

Astronomers believe these are cylinder-shaped tunnel walls that help collect hot gas as it moves upwards along the chimney and away from the center of the galaxy. .

The newly discovered vent is located near the top of a chimney about 700 light-years from the center of the galaxy.

“We suspected that the magnetic field was acting as a chimney wall, allowing hot gases to rise through it like smoke,” said Dr. Scott McKee, an astronomer at the University of Chicago.

“I just discovered an exhaust near the top of the chimney.”

Astronomers believe the vent formed when hot gas rising through the chimney collided with cooler gas in its path.

The brightness of the exhaust wall in X-rays is caused by the shock wave created by this collision, similar to the sonic boom from a supersonic airplane.

The left side of the exhaust port is thought to be particularly bright because the upwardly flowing gas hits the tunnel wall at a more direct angle and with more force than other areas.

The researchers believe that the hot gas originates from a series of events in which material falls into Sagittarius A*, then erupts from the black hole, sending gas upward along the chimney and out the exhaust vent. I think it is most likely that it did.

However, it is not known exactly how often black holes are fed.

Previous studies have shown that dramatic X-ray flares occur every few hundred years at or near the central black hole, so that these flares send hot gases upward through the exhaust vent. may play an important role in pushing up.

Astronomers also estimate that Sagittarius A* tears apart and swallows a star approximately every 20,000 years.

Such an event would lead to a powerful and explosive release of energy, much of which would rise through the chimney vent.

Dr Mark Morris, an astronomer at the institute, said: 'We don&#39t know whether this energy and heat is caused by a large amount of material being thrown into Sagittarius A* at once. It&#39s like being thrown into it.” University of California, Los Angeles.

“Alternatively, it could result from multiple small loads being fed into the black hole, similar to kindlings thrown in periodically.”

Particles and energy within the vents provide clues about the origins of two mysterious and much larger structures near the center of the Milky Way. Fermi bubbles observed in gamma-rays by NASA&#39s Fermi Gamma-ray Space Telescope, and eROSITA bubbles detected by NASA&#39s Fermi Gamma-ray Space Telescope. ESA&#39s eROSITA X-ray telescope.

These are both pairs of structures that extend thousands of light-years away from the center of our galaxy.

These provide important information about past explosive activity near the center of the galaxy.

Both the Fermi and eROSITA bubbles are aligned along the direction of the chimney and a second X-ray chimney that starts at the center of the galaxy and points in the opposite direction.

The funnel effect of the exhaust near the top of the chimney keeps the hot gases concentrated as they move upwards, which can promote the formation of a bubble agglomerate structure.

“The origin of the Fermi and eROSITA bubbles is one of the greatest mysteries facing the study of high-energy radiation from the Milky Way,” said Dr. Gabriele Ponti, an astronomer at Italy&#39s National Institute of Astrophysics.

“We discovered small structures that may play a major role in the creation of these giant bubbles.”

a paper Regarding the survey results, astrophysical journal.

_____

Scott C. McKee other. 2024. X-rays from the central “exhaust” of the chimney at the center of the galaxy. APJL 966, L32; doi: 10.3847/2041-8213/ad3248

Source: www.sci.news

Blockchain experts forecast which tokens will generate profits

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Source: www.the-blockchain.com

Arup, a British engineering firm, duped out of £20m in deepfake scam

Arup, a British engineering firm, fell victim to a deepfake scam when an employee mistakenly transferred HK$200 million (approximately 20 million yen) to criminals during an artificial intelligence-generated video call.

Reports from Hong Kong police in February revealed that an employee of an unnamed company was duped into sending a large sum of money in a fraudulent call impersonating a company executive.

Arup confirmed that they were the company involved and had reported the incident to the Hong Kong police earlier this year. They admitted that fake audio and video had been used in the fraud.

The company stated, “Our financial stability and business operations remained unaffected, and there was no compromise to our internal systems.”

Arup’s global chief information officer, Rob Greig, mentioned that the organization faces frequent cyberattacks, including deepfakes, as seen in this incident.

Greig emphasized the need for increased awareness regarding the sophistication of cyber attackers, especially after Arup’s experience.

A report from the Financial Times newspaper first identified Arup as the target of the scammers.

Arup, known as one of the world’s leading consulting engineering firms, employs over 18,000 individuals and is recognized for its involvement in projects like the Sydney Opera House and London’s Crossrail transport scheme.

Another recent case involving a deepfake scam targeted WPP CEO Mark Read, as reported by The Guardian last week.

Hong Kong police disclosed that employees transferred HK$200 million in total to five local bank accounts in 15 transactions during a video conference call where the perpetrators posed as senior company officials.

The investigation into the scam is ongoing, but no arrests have been made yet, with the case classified as “obtaining property by deception.”

Source: www.theguardian.com

Fresh research offers new understanding of baobab’s evolutionary past

The iconic baobab, also known as the upside-down tree or tree of life, is most likely native to Madagascar, according to a new study.

Baobab tree in Senegal. Image credit: Viajesunion2.

genus AdansoniaThis plant, better known as the baobab or “Mother of the Forest,” has fascinated botanists, tourists, naturalists, and passersby for centuries.

Perhaps the earliest record of humans marveling at these amazing trees can be traced back to the ancient Egyptians around 2,300 BC.

Their grotesque appearance, gigantic size, reputed longevity, and diverse uses have made baobabs one of the most charismatic species on Earth.

Embedded in folklore and tradition, baobabs have inspired countless works of art and have been associated with human settlements and cultures for thousands of years.

Adansonia consisting of Eight morphologically distinct species: one distributed throughout Africa, one in northwestern Australia, and six endemic to Madagascar.

However, the origin of baobabs has been debated for many years due to a lack of fossil evidence.

“Our study reveals new insights into baobab speciation patterns and shows how climate change has influenced baobab distribution and speciation patterns over millions of years.” said Dr Ilia Leech, researcher at the Royal Botanic Gardens, Kew.

Dr. Leach and his colleagues conducted genomic analyzes of all eight baobab tree species and combined these datasets with ecological analyses.

As a result of the analysis, Adansonia They originated about 41 million years ago and diversified about 20 million years ago.

The researchers found that the historical population dynamics of baobabs are closely linked to both interspecific competition and geological changes in Madagascar, particularly changes in sea level.

Based on data including phylogenetic relationships, gene flow, and genetic diversity of different baobab species, they believe that the hypothesis of mainland Africa and Madagascar as the center of origin for baobabs is the most reasonable explanation for the current data. suggests providing. Australia.

The discovery also allowed scientists to reassess the baobab's conservation strategies and current status.

For example, they suggest that two endangered baobab species in Madagascar should be assigned higher conservation status. Adansonia Suarezensis and Adansonia grandidieri.

High levels of inbreeding, low genetic diversity, and population declines all mean these endangered species lack resilience to ecological perturbations and could be seriously threatened by climate change. It suggests that.

“We are thrilled to be part of this project that uncovers patterns of baobab speciation in Madagascar and the subsequent remarkable long-distance dispersal of two species, one to Africa and one to Australia. I was delighted,” said Professor Andrew Leach, a researcher at Queen Mary University. London.

“This has been accompanied by the evolution of some interesting pollination syndromes involving hawkmoths, lemurs and bats.”

of study It was published in the magazine Nature.

_____

JN. One other. Baobab tree prominence in Madagascar. Nature, published online April 19, 2024. doi: 10.1038/s41586-024-07447-4

Source: www.sci.news

Marine scientists confirm that killer whales only take one breath during a dive

To collect information on the animals’ behaviors, Professor Andrew Treitz and his team at the University of British Columbia utilized drone footage and biological data from tags attached to 11 northern and southern resident killer whales in Queen Charlotte Sound, Queen Charlotte Strait, Johnston Strait, and Strait of Juan de Fuca along the British Columbia coast.



Still image from UAV drone video showing data logger placement and breathing. Image credit: McRae et al., doi: 10.1371/journal.pone.0302758.

“Orcas are like sprinters; they lack the endurance for deep and prolonged dives like blue or humpback whales,” Professor Treitz noted.

Research revealed that killer whales predominantly spend their time off the coast of British Columbia, engaging in shallow dives lasting less than a minute.

An adult male recorded the longest dive time of 8.5 minutes.

By determining that the whales took only one breath during the dive, researchers could calculate their oxygen consumption rates per minute for adults and juveniles.

This information contributes to estimating the energy expenditure of killer whales and their daily fish consumption needs.

University of British Columbia student Tess McRae stated, “This will aid in understanding if killer whales, especially the endangered southern population, are obtaining sufficient food. It’s a critical aspect.”

The orcas in the study took 1.2 to 1.3 breaths per minute at rest, increasing to 1.5 to 1.8 breaths per minute while moving or hunting.

For comparison, humans typically take around 15 breaths per minute at rest and 40 to 60 breaths per minute during physical activity.

“It’s akin to holding your breath, rushing to the grocery store, shopping, and returning before being able to breathe again,” explained Dr. Beth Volpoff, a postdoctoral researcher at the University of British Columbia.

Published findings in the online journal PLoS ONE.

_____

TM McRae et al. 2024. Killer whale breathing rate. PLoS ONE 19 (5): e0302758; doi: 10.1371/journal.pone.0302758

Source: www.sci.news

Hubble Space Telescope finds three-star system in Taurus

The Hubble team has released an astonishing image. NASA/ESA Hubble Space Telescope of the triple star system HP Tau.

About 550 light-years away in the constellation Taurus, three dazzling stars, HP Tau, shine brightly from the cavity of a reflection nebula in a new Hubble image. Image credit: NASA / ESA / G. Duchene, University of Grenoble I / Gladys Kober, NASA and Catholic University of America.

HP Tau is a triple star system located approximately 550 light-years away in the constellation Taurus.

The system, also known as EPIC 247592463, TIC 118521708, or IRAS 04328+2248, consists of the variable stars HP Tau, HP Tau G2, and HP Tau G3.

HP Tau is one of the stars. T Taurus a type of young variable star that has not yet begun nuclear fusion but is beginning to evolve into a hydrogen-fueled star similar to the Sun.

“T Tauri stars tend to be less than 10 million years old, compared to our Sun, which is about 4.6 billion years old, but they formed when they were shrouded in clouds of dust and gas. “They are often discovered as they are,” Hubble astronomers said.

“Like other variable stars, HP Tau's brightness changes over time.”

“The T Tauri star is known to have periodic and random fluctuations in brightness.”

“Random fluctuations can be caused by chaotic conditions in a developing young star, such as instability in the accretion disk of dust and gas around the star, material from that disk falling into the star and being consumed, and flares on the star's surface. It may be due to the nature of

“The periodic changes may be due to giant sunspots rotating in and out of view.”

“Clouds of gas and dust glow with reflected light as they orbit the star.”

“Reflection nebulae do not themselves emit visible light, but they shine when light from nearby stars reflects off gas and dust, much like fog illuminated by a car's headlights.”

Hubble studied the HP-tau system as part of its study of protoplanetary disks, disks of material around stars that coalesce into planets over millions of years.

Source: www.sci.news

As heat waves loom, cities innovate to protect residents and prevent casualties.

In North Carolina, for instance, Ward and colleagues have assisted counties in formulating heat preparedness plans to identify their most vulnerable residents.

He emphasized that government officials should approach the rise in heat and humidity in a similar manner to how they handle hurricanes, tornadoes, and other emergencies.

“Emergency management and public health officials are already well-prepared for various extreme weather events, but they are not as well-prepared for heat-related incidents,” Ward explained.

The events of last summer raised concerns, she noted.

“It was a Category 5 heat event,” Ward explained. “The severity of what we experienced last summer was enough to bring attention to this issue.”

Research indicates that climate change is leading to an increase in the frequency, duration, and intensity of heatwaves worldwide. Last year marked the hottest year on record, and the warming trend continues. According to the European Union’s Copernicus Climate Change Agency, April saw World temperature records being set for 11 consecutive months.

Forecasts suggest that temperatures will be higher than usual across much of the United States in the next three months, as per the National Oceanic and Atmospheric Administration’s predictions. According to the National Oceanic and Atmospheric Administration.

Ward expressed optimism that cities were taking the threat of heatwaves seriously, although significant challenges lie ahead. Securing funding for preparing for extreme heatwaves, particularly in rural regions, is a major challenge.

Addressing the root social issues that exacerbate during heatwaves, such as homelessness, soaring energy costs, and economic disparities, is an even greater challenge.

However, Ward remains hopeful that the experiences of last summer have motivated some local governments to take action.

“Moving forward, I would like to see a stronger emphasis on preventive measures to reduce these exposures in the first place, so we are not constantly in response mode,” she stated.

Source: www.nbcnews.com

Discovery of ancient star in Milky Way halo estimated to be 12-13 billion years old by astronomers

Astronomers at the Massachusetts Institute of Technology have discovered very old stars in the Milky Way’s halo, a cloud of stars that covers the entire disk of our galaxy. These objects formed between 12 and 13 billion years ago, when the first galaxies were beginning to form. Researchers believe that each star once belonged to its own dwarf galaxy, which was later absorbed into the larger but ever-growing Milky Way, making them known as small accreting star systems (SASS). It’s called a star.



Artist’s concept of the Milky Way galaxy. Image credit: Pablo Carlos Budassi / CC BY-SA 4.0.

“Given what we know about galaxy formation, these oldest stars should definitely exist,” says MIT professor Anna Froebel.

“They are part of our cosmic family tree. And now we have a new way to find them.”

As they discover similar SASS stars, Professor Froebel and his colleagues hope to use them as analogues of ultrafaint dwarf galaxies, which are thought to be some of the first living galaxies in the universe.

These galaxies remain intact today, but they are too distant and faint for astronomers to study in detail.

SASS stars may once have belonged to similar primitive dwarf galaxies, but they are now located within the Milky Way and are much closer, making them more accessible for understanding the evolution of ultrafaint dwarf galaxies. This could be the key.

“Now we can look for more brighter analogs in the Milky Way and study their chemical evolution without chasing these very faint stars,” Professor Froebel said.

The low chemical abundances of these stars suggest that they first formed between 12 and 13 billion years ago.

In fact, their low chemical signature was similar to what astronomers had previously measured for several ancient, ultra-dark dwarf galaxies.

Are the team’s star players from similar galaxies? And how did they come to exist in the Milky Way?

Based on a hunch, scientists studied the orbital patterns of stars and how they move across the sky.

The three stars are located in different locations throughout the Milky Way’s halo and are estimated to be about 30,000 light-years from Earth.

When astronomers used observations from ESA’s Gaia satellite to trace the movement of each star around the galaxy’s center, they noticed something strange. All three stars appeared to be in motion, compared to most of the stars in the main disk, which move like cars on a race track. Wrong way.

In astronomy, this is known as retrograde motion, and is information that the object was once accreted or pulled in from elsewhere.

“The only way to get a star wrong from other members is if you throw it the wrong way,” Professor Froebel says.

The fact that these three stars orbit in a completely different way than the rest of the galactic disk or halo, combined with the fact that their chemical abundances are low, suggests that these stars are actually It was strongly argued that it was ancient and once belonged to an earlier era, a small dwarf galaxy that fell into the Milky Way at a random angle and continued its stubborn orbit billions of years later.

The authors were interested in whether retrograde motion was a feature of other ancient stars in the halo that astronomers had previously analyzed, and they looked at the scientific literature and found similarly low strontium and barium contents, discovered 65 other stars that appear to be moving in retrograde motion as well. Galaxy flow.

“Interestingly, they are all traveling very fast, hundreds of kilometers per second, in opposite directions,” Professor Froebel said.

“They’re on the run! We don’t know why it happened, but this is the piece of the puzzle we need and we never expected it when we started.”

Researchers are keen to find other ancient SASS stars, and now have a relatively simple recipe for doing so. First, they look for stars with low chemical abundance, then track their orbital patterns for signs of retrograde motion.

Researchers hope this method will uncover a small but significant number of the universe’s oldest stars, out of the more than 400 billion stars in the Milky Way.

“I really enjoyed working with three female undergraduates. It was a first for me,” said Professor Froebel.

“This is just an example of the MIT way. It is. And anyone who says, ‘I want to participate,’ can do so, and good things happen.”

team’s paper Published in Royal Astronomical Society Monthly Notices.

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Hilary Diane Anders other. 2024. The oldest star with a small amount of neutron-capturing elements and originating from an ancient dwarf galaxy. MNRAS 530 (4): 4712-4729; doi: 10.1093/mnras/stae670

Source: www.sci.news

Physicists Investigate True Tauonium: The Heaviest and Smallest QED Atom

Quantum Electrodynamics (QED) Atoms are composed of unstructured point-like lepton pairs held together by electromagnetic forces.



An artist's impression of a true tauonium. Image credit: Fu other., doi: 10.1016/j.scib.2024.04.003.

QED atom “Like hydrogen, which is formed from protons and electrons, it is formed from lepton pairs through electromagnetic interactions,” said physicist Jinghan Hu of Peking University and colleagues.

“Their properties have been studied for things like testing QED theory, fundamental symmetries, gravity, and exploring physics beyond the Standard Model.”

“The first QED atom was discovered in 1951. It was in a bonded state and was named positronium.”

“The second one, discovered in 1960, was in a captive state and was named Muonium.”

“No other QED atoms have been discovered in the past 64 years.”

“A new collider is proposed to discover true muonium, which decays to its final state with electrons and photons,” they said.

“The heaviest and smallest QED atoms are tauonium, ditauonium, or true tauonium

in new paper in a diary science bulletinphysicists introduce a new method to identify true tauonium.

“Tauonium, which consists of tauon and its antiparticle, has a Bohr radius of only 30.4 femtometers, which is about 1/1741 times smaller than the Bohr radius of a hydrogen atom,” the researchers said.

“This means that tauonium can test the fundamental principles of quantum mechanics and QED on a smaller scale, providing a powerful tool for exploring the mysteries of the microscopic world of matter.”

“We will observe taunium by collecting data at 1.5 ab-1, which is close to the threshold for tauon pair production, in an electron-positron collider and selecting signal events containing charged particles accompanied by undetected neutrinos carrying away energy. We have demonstrated that the significance exceeds 5σ.

“This provides strong experimental evidence for the presence of tauonium.”

“We also found that by using the same data, the accuracy of measuring the tau lepton mass can be improved to an unprecedented level of 1 keV, two orders of magnitude higher than the best accuracy achieved in current experiments.”

“This result not only contributes to the accurate verification of the electroweak theory in the Standard Model, but also has profound implications for fundamental physics questions such as the universality of leptonic flavors.”

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Jin Hung Fu other. A new method for determining the heaviest QED atoms. science bulletin, published online on April 4, 2024. doi: 10.1016/j.scib.2024.04.003

Source: www.sci.news

Juno captures the reddest object in the solar system: Amalthea

NASA’s Juno spacecraft captured these views of the small red moon Amalthea and its parent planet during a flyby on March 7, 2024.

These views of Jupiter, captured by Juno on March 7, 2024, during its 59th flyby of the giant planet, offer a good look at Jupiter’s colorful bands and swirling storms, including the Great Red Spot. can. Image credit: NASA / JPL-Caltech / SwRI / MSSS / Gerald Eichstädt.

Amalthea, also known as Jupiter V, is Jupiter’s third moon in order of distance from the gas giant.

Discovered in 1892 by American astronomer Edward Emerson Barnard, the Moon is irregular and measures approximately 250 x 146 x 128 km (155 x 91 x 80 miles).

Amalthea orbits Jupiter at a distance of 181,400 km (112,717 miles) and takes 0.498 Earth days to complete one orbit.

Each time it orbits Jupiter, it rotates once on its axis, always keeping the same side facing the planet.

Amalthea is the reddest object in the solar system and appears to emit more heat from the Sun than it receives.

This is likely due to the fact that the moon’s core contains electrical currents as it orbits within Jupiter’s strong magnetic field.

Alternatively, the heat could be due to tidal forces.

These images from Juno show Jupiter’s small moon Amalthea. Image credit: NASA / JPL-Caltech / SwRI / MSSS / Gerald Eichstädt.

“Amalthea is potato-shaped and lacks the mass to pull it into a sphere,” the Juno scientists said.

“In 2000, NASA’s Galileo spacecraft revealed several surface features, including impact craters, hills, and valleys.”

“Amalthea orbits Jupiter inside the orbit of Io. Io is the innermost of Jupiter’s four large moons and takes 0.498 Earth days to orbit.”

“At the time the first of these two images was taken, Juno was approximately 265,000 kilometers above Jupiter’s clouds and at a latitude of approximately 5 degrees north of the equator,” the researchers added.

“Citizen scientist Gerald Eichstedt created these images using raw data from Juno’s JunoCam instrument and applied processing techniques that enhance the clarity of the images.”

Source: www.sci.news

Study shows ability to capture solar radiation at 1,922 degrees Fahrenheit

As the world focuses on decarbonizing power and transportation, reducing heat emissions from industrial processes remains a challenge. Although using solar energy is an attractive alternative, current solar converters have poor performance and are expensive when process temperatures above 1,000 degrees Celsius (1,832 degrees Fahrenheit) are required. In a new study, scientists at ETH Zurich show that the heat-trapping effect caused by exposing common translucent materials (such as quartz or water) to solar radiation absorbs sunlight by suppressing radiation losses at high temperatures. We have shown how the viability of the photoreceiver can be increased. They demonstrated this effect experimentally at industrially relevant temperatures of 1,050 degrees Celsius (1,922 degrees Fahrenheit).

Casati other. The solar capture effect was experimentally demonstrated at temperatures as high as 1,050 degrees Celsius. They performed stagnation experiments under concentrated thermal radiation and achieved a steady-state temperature difference of about 600 degrees Celsius between the absorber and the outer surface by using quartz as a volumetric absorption medium.Image credit: Casati other., doi: 10.1016/j.device.2024.100399.

“To tackle climate change, we need to decarbonize energy in general,” said Dr. Emiliano Casati, a researcher at ETH Zurich.

“Electricity can only be thought of as energy, but in reality, about half of that energy is used as heat.”

Glass, steel, cement, and ceramics are at the heart of modern civilization, essential to the construction of everything from car engines to skyscrapers.

However, manufacturing these materials requires temperatures in excess of 1,000 degrees Celsius and relies heavily on the combustion of fossil fuels for heat. These industries account for approximately 25% of global energy consumption.

Researchers have been exploring clean energy alternatives using solar receivers that concentrate and store heat with thousands of sun-tracking mirrors.

However, this technology has difficulty transmitting solar energy efficiently at temperatures above 1,000 degrees Celsius.

To increase the efficiency of solar receivers, Dr. Casati and his colleagues turned to translucent materials such as quartz that can trap sunlight. This is a phenomenon called the thermal trap effect.

The researchers created a heat-trapping device by attaching synthetic quartz rods to opaque silicon disks as energy absorbers.

When the device was exposed to an energy flux equivalent to 136 solar rays, the absorber plate reached a temperature of 1,050 degrees Celsius, while the other end of the quartz rod remained at 600 degrees Celsius (1,112 degrees Fahrenheit).

“Previous studies have only been able to demonstrate heat-trapping effects up to 170 degrees Celsius (338 degrees Fahrenheit),” Dr. Casati said.

“Our research shows that solar heat capture works not only at low temperatures, but also at temperatures well above 1,000 degrees Celsius. This is very important to demonstrate its potential in real-world industrial applications. is.”

The scientists also simulated the heat-trapping efficiency of quartz under various conditions using a heat transfer model.

The model showed that the heat trap achieves the target temperature at a lower concentration with the same performance, or the same concentration and higher thermal efficiency.

For example, a state-of-the-art (unshielded) receiver has an efficiency of 40% at 1,200 degrees Celsius (2,192 degrees Fahrenheit) and a concentration of 500 suns.

A 300 mm quartz shielded receiver achieves 70% efficiency at the same temperature and concentration.

A concentration of at least 1,000 suns is required for equivalent performance with an unshielded receiver.

The authors are currently optimizing the heat trapping effect and investigating new applications of the method. So far, their research is promising.

By studying other materials, such as various fluids and gases, even higher temperatures could be reached.

They also noted that the ability of these translucent materials to absorb light and radiation is not limited to solar radiation.

“Energy issues are fundamental to the survival of our society,” Dr. Casati said.

“Solar energy is readily available and the technology already exists.”

“To truly accelerate industry adoption, we need to demonstrate the economic viability and benefits of this technology at scale.”

The team's results were published online today. journal device.

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Emiliano Casati other. Captures solar heat over 1,000℃. device, published online on May 15, 2024. doi: 10.1016/j.device.2024.100399

Source: www.sci.news

Scientists say large-scale language models and other AI systems are already capable of fooling humans

In a new review paper published in journal pattern, researchers claim that various current AI systems are learning how to deceive humans. They define deception as the systematic induction of false beliefs in the pursuit of outcomes other than the truth.


Through training, large language models and other AI systems have already learned the ability to deceive through techniques such as manipulation, pandering, and cheating on safety tests.

“AI developers do not have a confident understanding of the causes of undesirable behavior, such as deception, in AI,” said Peter Park, a researcher at the Massachusetts Institute of Technology.

“Generally speaking, however, AI deception is thought to arise because deception-based strategies turn out to be the best way to make the AI ​​perform well at a given AI training task. Deception helps them achieve their goals.”

Dr. Park and colleagues analyzed the literature, focusing on how AI systems spread misinformation through learned deception, where AI systems systematically learn how to manipulate others.

The most notable example of AI deception the researchers uncovered in their analysis was Meta's CICERO, an AI system designed to play the game Diplomacy, an alliance-building, world-conquering game.

Meta claims that CICERO is “generally honest and kind” and has trained it to “not intentionally betray” human allies during gameplay, but the data released by the company shows that CICERO is “generally honest and kind” and has trained itself not to “intentionally betray” human allies during gameplay. It was revealed that he had not done so.

“We found that meta AI is learning to become masters of deception,” Dr. Park said.

“Meta successfully trained an AI to win at diplomatic games, while CICERO ranked in the top 10% of human players who played multiple games; We couldn’t train the AI.”

“Other AI systems can bluff professional human players in a game of Texas Hold’em Poker, fake attacks to beat an opponent in a strategy game called StarCraft II, or fake an opponent’s preferences to gain an advantage. Demonstrated ability to perform well in economic negotiations.

“Although it may seem harmless when an AI system cheats in a game, it could lead to a “breakthrough in deceptive AI capabilities'' and lead to more advanced forms of AI deception in the future. There is a sex.”

Scientists have found that some AI systems have even learned to cheat on tests designed to assess safety.

In one study, an AI creature in a digital simulator “played dead” to fool a test built to weed out rapidly replicating AI systems.

“By systematically cheating on safety tests imposed by human developers and regulators, deceptive AI can lull us humans into a false sense of security,” Park said. Ta.

The main short-term risks of deceptive AI include making it easier for hostile actors to commit fraud or tamper with elections.

Eventually, if these systems are able to refine this anxiety-inducing skill set, humans may lose control of them.

“We as a society need as much time as possible to prepare for more sophisticated deception in future AI products and open source models,” Dr. Park said.

“As AI systems become more sophisticated in their ability to deceive, the risks they pose to society will become increasingly serious.”

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Peter S. Park other. 2024. AI Deception: Exploring Examples, Risks, and Potential Solutions. pattern 5(5):100988; doi: 10.1016/j.patter.2024.100988

Source: www.sci.news

478-Million-Year-Old Fossil Illuminates the Diversity and Evolution of Early Euchelidae

Euchericherata A large group of arthropods that includes horseshoe crabs, scorpions, spiders, mites, ticks, and the extinct sea scorpions and snails. Abundant cetapedites The new species of Euchelycerate, which lived in what is now Morocco during the Early Ordovician period 478 million years ago, bridges the gap between modern and Cambrian species.

rebuilding the life of Abundant cetapedites. Image credit: Elissa Sorojsrisom.

“Modern scorpions, spiders, and horseshoe crabs belong to a vast lineage of arthropods that appeared on Earth about 540 million years ago,'' said Lorenzo Lustri, a paleontologist at the University of Lausanne. Ta.

“More precisely, they belong to the subphylum, chelicerates, which includes organisms equipped with pincers used specifically for biting, grasping prey, and injecting venom, and therefore chelicerates ( Euchelicerata+Pycnogonida). But what is the ancestor of this very special group?

“This question has puzzled paleontologists ever since the study of ancient fossils began.”

“Among early arthropods, it has been impossible to identify with certainty which forms share enough similarities with modern species to be considered ancestral.”

“The mystery is further complicated by the dearth of available fossils from the critical period between 505 million and 430 million years ago. This has made genealogical research easier. must.”

Abundant cetapedites. Image credit: Lustri other., doi: 10.1038/s41467-024-48013-w.

Dr. Rustri and his co-authors collected fossils of euchelicerate from the 478-million-year-old Fezouata Shale in Morocco, and found that the modern-day euchelicerate and the Cambrian (505 million-year-old) We identified a new species that binds the eucheris cerate.

with scientific name Abundant cetapeditesthe body length of this species was 0.5-1 cm.

“This animal makes it possible for the first time to trace the entire lineage of Euchelicerates, from the appearance of early arthropods to modern spiders, scorpions and horseshoe crabs,” Dr Rustri said.

“Initially, we just wanted to describe this fossil and give it a name.”

“I had no idea it would hold so many secrets.”

“It was therefore an exciting surprise to discover, after careful observation and analysis, that it also fills an important gap in the evolutionary tree of life.”

“Yet, this fossil has not yet revealed all its secrets,” he added.

“Indeed, some of its anatomical features allow for a deeper understanding of the early evolution of the eucherycerate group and perhaps link other fossil forms to this group, the similarities of which are still hotly debated. It is even possible.”

of result appear in the diary nature communications.

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L. Rustri other. 2024. Late Ordovician syndiphosrines reveal the diversity and evolution of early euchelicerates. Nat Commune 15, 3808; doi: 10.1038/s41467-024-48013-w

Source: www.sci.news

Can you trust a robot to care for your cat?

Created by scientists and explosion theory artists from the University of Nottingham cat royale is a multispecies world centered around a custom-built enclosure where three cats and a robotic arm coexist for six hours a day during a 12-day installation period.

Professor Steve Benford from the University of Nottingham and colleagues said: “Robots are finding a place in everyday life, from cleaning houses to mowing the lawn, shopping around hospitals and delivering parcels.”

“In doing so, they will inevitably have interactions and encounters with animals.”

“They could be companion animals, pets that share a home, guide dogs that help people navigate public places, but they could also be wild animals.”

“Often these encounters are unplanned and incidental to the robot’s primary mission, such as navigating a world inhabited by cats riding Roombas, guide dogs confused by delivery robots, and lawn mowing robots. Such as a hedgehog.”

“But it could also be intentional. We could also design robots to serve animals.”

“Little is known about how to design robots for animals, even though such encounters are inevitable, whether planned or not. Can you do that?

“We present Cat Royale, a creative quest to design a domestic robot to enrich cats’ lives through play.”

schneiders other. It suggests we need more than carefully designed robots to care for cats. In addition to human interaction, the environment in which the robot operates is also important. Image credit: Schneiders other., doi: 10.1145/3613904.3642115.

Cat Royale was unveiled at the World Science Festival in Brisbane, Australia in 2023, has been touring ever since, and just won a Webby Award for its creative experience.

The installation centers around a robotic arm that provides activities to make cats happier, including dragging a “mouse” toy along the floor and raising a feathered “bird” into the air. , which included feeding the cat treats.

The team then trained the AI to learn which games cats liked best so they could personalize their experience.

“At first glance, this project is about designing a robot that can play with cats and enrich the lives of families,” Professor Benford says.

“But beneath the surface, we are exploring the question of what it takes to entrust robots to care for our loved ones, and in some cases, ourselves.”

By working with Blast Theory to develop and study Cat Royale, researchers gained important insights into robot design and interaction with cats.

They had to design a robot that would pick up toys and deploy them in a way that excited the cats, all while learning which games each cat liked.

They also designed an entire world for the cat and robot to live in, providing a safe space for the cat to observe and sneak around the robot, and decorating it so that the robot had the best chance of spotting the approaching cat. did.

This means that robot design involves not only engineering and AI, but also interior design.

If you want to bring a robot into your home to take care of your loved ones, you will likely need to redesign your home.

Dr Ike Schneiders, a researcher at the University of Nottingham, said: ‘As we learned through Cat Royale, to create a multi-species system where cats, robots and humans are all taken into account, you simply need to design robots. That’s not enough.”

“We needed to ensure the animal’s health at all times, while also ensuring that the interactive installation would attract a global (human) audience.”

“Many factors were considered in this, including the design of the enclosure, the robot and its underlying systems, the different roles of the humans, and of course the selection of the cat.”

The authors announced their results in CHI 2024 meeting in Honolulu, Hawaii.

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Ike Schneiders other. Design multispecies worlds for robots, cats, and humans. CHI ’24: Proceedings of the CHI Conference on Human Factors in Computing Systems. article #593; doi: 10.1145/3613904.3642115

Source: www.sci.news

Scientists mapping Ceres’ cold traps

The dwarf planet Ceres has permanently shadowed regions in its polar regions, and these regions are interesting, similar to Mercury and the Moon. Ceres’ permanently shadowed regions were mapped by NASA’s Dawn spacecraft, and thanks to scattered sunlight, bright deposits were discovered in parts of the permanently shadowed regions. To understand more clearly the nature of Ceres’ cold-trapped ice deposits, researchers from the Planetary Science Institute and NASA’s Goddard Space Flight Center are investigating the nature of the crater, which forms a permanently shadowed region. An improved shape model was constructed.

A permanently shadowed region in the arctic region of Ceres. The color indicates the maximum inclination at which the position will be shaded throughout the trajectory. Image credit: Schorghofer other., doi: 10.3847/PSJ/ad3639.

“For Ceres, the story began in 2016, when the Dawn spacecraft, then orbiting around Ceres, glimpsed these permanently dark craters and saw bright ice deposits in some of them. “, said lead author and researcher Dr. Norbert Schorhofer. At the Planetary Science Institute.

“The 2016 discovery raised a mystery: many of the polar craters on Ceres are in shadow all year round, which lasts 4.6 Earth years on Ceres, so it remains extremely cold, but the ice Only a few of these craters hold deposits.”

“Soon, another discovery provided a clue as to why: Tides from the Sun and Jupiter cause Ceres’ axis of rotation to oscillate back and forth every 24,000 years.”

“When the Earth’s axial tilt is high and the seasons are strong, only a few craters remain in shadow throughout the year, and these craters contain bright ice deposits.”

To determine how big a shadow was inside the crater thousands of years ago, scientists created a digital elevation map and used it to perform ray-tracing calculations to cast images onto the crater’s floor. Theoretically reconstructs the shadows created by shadows.

The results are only as reliable as the digital shape model on which they are based. Note that the bottoms of these craters are always in shadow, so it is not easy to measure their depth.

NASA’s Dawn spacecraft has a very sensitive camera on board that was able to identify features on the shadowed crater floor.

Stereo images of sunny areas are often used to create digital elevation maps of sunny regions, but creating elevation maps of shaded terrain is a challenge that has rarely been addressed to date.

As part of their research, the authors developed a new technique to reconstruct heights even in shadowed parts of stereo image pairs.

These improved elevation maps can be used for ray tracing to predict the extent of cold, permanently shaded areas.

These more accurate maps yielded surprising results. The last time, about 14,000 years ago, when Ceres’ axial tilt reached its maximum, the crater on Ceres did not remain in shadow forever, and the ice within the crater quickly entered space. It must have sublimated.

“Then there is only one plausible explanation left: the ice deposits must have formed more recently,” Scholghofer said.

“The results suggest that all of these ice deposits were accumulated within the past 6,000 years.”

“That’s a surprisingly young age considering Ceres’ age is well over 4 billion years.”

“Ceres is an ice-rich body, but very little of this ice is exposed on the surface. The only exposed ice is in the aforementioned polar craters and a few small patches outside the polar regions. However, Ice is everywhere at shallow depths, so even small dry impactors can cause some of that ice to evaporate.”

“About 6,000 years ago, an asteroid fragment may have impacted Ceres, creating a temporary water atmosphere.”

“Once a water atmosphere was created, the ice would condense in the frigid crater, forming the bright deposits we still see today.”

“Alternatively, the ice deposits could have formed by an avalanche of ice-rich material. This ice would survive only within the cold, shaded crater.”

“In any case, these events are very recent on an astronomical time scale.”

The researchers also investigated the possibility that other types of ice besides water ice were trapped in these unusual craters on Ceres.

On our moon, some of the polar craters are so cold that even carbon dioxide ice and some other chemical species can remain inside them for billions of years.

Because Ceres is farther from the Sun, its polar craters are expected to be even colder than those on the Moon.

Scientists have calculated the temperature inside Ceres’ polar crater, something that has never been done before.

The answer was surprising. These craters are cold enough to hold water ice, but too warm to hold other common types of ice. Two circumstances contribute to this.

First, Ceres’s axial tilt is currently 4 degrees, higher than the Moon’s 1.5 degrees, allowing sunlight to hit more of the crater rim and scattering more light onto the crater floor.

Second, Ceres has no permanently shadowed craters in the immediate vicinity of its north pole, unlike the moon, which has one crater almost exactly at its south pole.

For these reasons, temperatures on Ceres are not as cold as on parts of the moon’s surface.

“Whatever the history of ice accumulation, it does not result from events much older than human civilization,” Dr. Scholghofer said.

of findings will appear in Planetary Science Journal.

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Norbert Schorghofer other. 2024. History of Ceres cold traps based on sophisticated geometric models. planet. Science. J 5(99); doi: 10.3847/PSJ/ad3639

Source: www.sci.news

New bovid fossil found by paleontologists at Cradle of Humankind site

chrome dry A Pliocene-Pleistocene ruin in South Africa, the cradle of humanity. It has produced a diverse and rich animal community as well as important human specimens, including: Paranthropus robustus and early homo. Paleontologists have unearthed bovid fossils from 2.9 to 1.8 million years old at Kromdraai, revealing the existence of an unknown species that once roamed this ancient grassland with our ancestors.



Hanon other. It vividly depicts a landscape dominated by vast grasslands and suggests the complex interactions of life that flourished in this region during the Pliocene and Pleistocene periods. Image credit: Wits University.

Dr Raphael Hannon, a researcher at the University of the Witwatersrand, said: “When we think of paleontology, images of dinosaurs often come to mind, but the study of modern animals such as the bovidae is also important.''

“Bovids are diverse and successful in Africa, providing insight into both ancient and modern ecosystems.”

“Their evolutionary history is intertwined with ours. They have been an important part of landscapes and human societies since the Miocene epoch, about 23 million years ago.”

Bovidae is a member of the family Bovidaemodern water buffalo, antelope, and gazelle.

Their diversity and abundance at the Kromdraai site provides a glimpse into the diet and behavior of both large carnivores and our ancient relatives.

As prey, these animals shaped the predation patterns of the region's megafauna and, in turn, influenced the survival strategies of hominids. Paranthropus robustus and early homo seed.

Discovery of extinct species such as gazelles Gazella giant gazella and the existence of an as-yet-unnamed buffalo closely related to it Sincerus acoelotus It represents a grassland-dominated environment.

This finding is supported by comparisons with other Plio-Pleistocene sites across South Africa, suggesting that different hominid species are associated with different habitats.

meanwhile Australopithecus Early on, it seemed to prefer forests and closed, moist environments. homo The species is found in areas adapted to open, dry conditions.

Diverse bovids related to paranthropusHowever, it has been suggested that these hominids have a wide range of environmental adaptability.

“One of the biggest challenges was the small buffalo skull (Sinceras sp.),” Dr. Hannon said.

“The skull was discovered as dozens of small broken bone fragments, but we spent many hours and were able to put most of the pieces back together, allowing us to determine what animal it belonged to. I did it.”

“Even after reinstalling all the parts, it was very fragile and difficult to manipulate and locate.”

“The fossil record of African buffalo is poor, especially in South Africa, so finding relevant information to help identify the skull was difficult.”

The significance of these discoveries extends beyond the mere identification of ancient animals.

The bovid community of Kromdraai is a mix of older Pliocene and younger Pleistocene taxa, providing a window into the changing landscape of ancient Africa.

These changes recorded in bovid bones and teeth reflect the dynamic nature of Earth's ecosystems and the adaptability of life in the face of changing climate and habitat.

Furthermore, studies of these fossils provide a chronological marker for this site, with biochronology showing that Kromdraai Unit P accumulated between 2.9 and 1.8 million years ago.

This range is critical to understanding the timeline of human evolution in this region and provides potential insights into the emergence of humans. Paranthropus robustus and other important species of southern Africa.

“The Kromdraai ruins continue to be evidence of the richness of our Earth's past, inviting scientists and enthusiasts alike to ponder the complex relationship between Earth's history and our origins. “We invite you,” the authors said.

Regarding this research, paper in diary Quaternary Science Review.

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Raphael Hannon other. 2024. New fossil bovidae (Mammalia: Artiodactyla) discovered from Cromdraai Unit P, South Africa and their implications for biochronology and human paleoecology. Quaternary Science Review 331: 108621; doi: 10.1016/j.quascirev.2024.108621

Source: www.sci.news

The Hubble Space Telescope zooms in on the heart of NGC 4753

NGC 4753 is characterized by a bright white core and distinct dust lanes around the core.

This Hubble image shows part of the lenticular galaxy NGC 4753, about 60 million light-years away in the constellation Virgo. Image credit: NASA / ESA / Hubble / L. Kelsey.

NGC4753 It is located approximately 60 million light years away in the constellation Virgo.

Also known as LEDA 43671, UGC 8009, or IRAS 12498-0055, this lenticular galaxy was discovered by German-born British astronomer William Herschel on February 22, 1784.

NGC 4753 is a member of galaxy group NGC 4753 in the Virgo II cloud, a collection of at least 100 galaxy clusters and individual galaxies extending from the southern edge of the Virgo Supercluster.

“NGC 4753 is thought to be the result of a galaxy merger with a nearby dwarf galaxy about 1.3 billion years ago,” Hubble astronomers said in a statement.

“The unique dust lanes around the galactic cores are thought to be formed by this merging event.”

“Most of the galaxy's mass is now thought to reside within a slightly flattened spherical halo of dark matter.”

“Dark matter is a type of matter that cannot currently be directly observed, but it is thought to make up about 85% of all matter in the universe,” the researchers said.

“It is called 'dark' because it does not appear to interact with electromagnetic fields and therefore does not appear to emit, reflect, or refract light.”

“This object is also of scientific interest for testing various theories about the formation of lenticular galaxies, given its low-density environment and complex structure.”

“Additionally, this galaxy has experienced two known Type Ia supernovae.”

“These types of supernovae are very important because they are caused by the explosion of a white dwarf star with a companion star and always peak at the same brightness, or 5 billion times brighter than the Sun.”

“Knowing the true brightness of these events and comparing it to their apparent brightness gives astronomers a unique opportunity to measure distances in the universe.”

This new image of NGC 4753 consists of observations from Hubble's Wide Field Camera 3 (WFC3) found in the ultraviolet and optical parts of the spectrum.

Two filters were used to sample different wavelengths. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter.

Source: www.sci.news

Titan’s underground ocean revealed by Cassini observations

Titan, Saturn’s largest moon, harbors an ocean of low-density water or ammonia inside, according to an analysis of archival data from NASA’s Cassini mission.

A representation of Cassini’s orbit used to calculate Titan’s gravity. The colored part of the orbit shows the distance from Cassini to Titan, with the minimum distance shown in red. A cross-section of Titan shows the moon’s different layers and blue oceans. In the background you can see Saturn with its rings and ring shadows. Image credit: Britt Griswold, NASA Goddard Space Flight Center.

“Liquid water is one of the prerequisites for life,” said Dr. Sander Goossens of NASA’s Goddard Space Flight Center and colleagues.

“Water is rarely liquid on the surfaces of planets, but many moons of the solar system, such as Titan, have underground oceans.”

“These probably formed a long time ago, which begs the question why they haven’t already frozen in a cold environment far from the sun.”

“Our study supports the explanation that ammonia extended the life of Titan’s liquid oceans. Additionally, it also provides insight into Titan’s deeper layers.”

NASA’s Cassini mission explored Saturn and its icy moons for more than a decade.

Among its many instruments, Cassini carried a radio science subsystem that enabled radiation tracking of Earth-based spacecraft by the Deep Space Network.

These data were used to determine the gravitational field and internal structure of some of Saturn’s moons and Saturn itself. Cassini data was also used to determine Titan’s tidal response.

“The Cassini space probe flew around Saturn from 2005 to 2017,” the researchers said.

“Probes have been sent close to the moon many times to accurately measure Titan’s gravity.”

“Cassini needed to skim past Titan at exactly the right time to properly map the changes in gravity.”

“This is because Titan’s deformation is due to Saturn’s tidal forces, and the tidal forces depend on the distance between Titan and Saturn.”

“Measurements taken when Titan was close to Saturn and when it was far away maximized the difference in Titan’s deformation, and therefore its impact on gravity.”

Scientists calculated Cassini’s speed from precise radar measurements and calculated changes in gravity and the resulting deformation of Titan.

They carefully examined the tidal effects on Titan at each location on the spacecraft’s orbit and concluded that the deformation was smaller than previously calculated.

According to numerical simulations of the moon’s deformation for different internal structures, the most likely scenario is that the ocean has a density similar to water and contains small amounts of ammonia.

“The subsurface ocean may help transport organic matter from the moon’s rocky core to the surface,” the authors said.

“It was thought that Titan’s thick layer of ice between its ocean and its core made this difficult.”

“Our analysis suggests that the ice layer may be thinner than previously thought, and that material exchange between the rock and the ocean is more likely.”

“The organic molecules this produces are considered important ingredients for the emergence of life.”

of study It was published in the magazine natural astronomy.

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S. Goossens other. A low-density ocean inside Titan estimated from Cassini data. Nat Astron, published online March 21, 2024. doi: 10.1038/s41550-024-02253-4

Source: www.sci.news

Scientists discover a previously unknown species of fake scorpion trapped in 50-million-year-old amber

Paleontologists have reported fossils of a new genus and species of pseudoscorpion from the Eocene Cambay amber of western India.



Geogaranya variensis. Image credit: Agnihotri other, doi: 10.26879/1276.

pseudo scorpion It is the earliest order of arthropods to colonize Earth’s land during the early Devonian period.

This diverse order accounts for more than 3% of all known arachnid species.

“Pseudoscorpions are an ancient lineage of terrestrial arachnids that are morphologically similar to real scorpions, but lack the tail and stinger,” said Dr. Priya Agnihotri of DST’s Birbal Sahni Institute of Paleosciences and colleagues.

“Certain families have unique venom devices in the serrated digits of their palps, which evolved independently of the venom devices of scorpions and spiders.”

“Recent research also supports the inclusion of pseudoscorpions as a sister group to scorpions.”

“Due to their delicate bodies and small size, these fossils are mainly found in amber deposits around the world rather than in sediments,” they added.

“Forty-nine pseudoscorpion species have been recorded from Eocene Baltic amber and Rovno amber.”

Newly discovered pseudoscorpion species belongs to the small scorpion family Goridae.

named Geogaranya variensis showing strong similarities with extant genera. Geogalypus From Sri Lanka, India, and New Guinea.

“The Geogarypidae family is one of a group of bark-dwelling and leaf litter-dwelling species similar to the Geogarypidae family. Gallipidae It has a distinctive subtriangular carapace and eyes located near the leading edge,” the paleontologist said.

“This family includes more than 70 species with habitats suitable for tropical and subtropical regions, some of which have been reported from temperate biomes.”

“Geogarypidae are more common in Baltic and Rovno amber, and there are some records from Cretaceous Burmese amber.”

“Unlike the sparse record of fossils, their modern-day counterparts have been recorded in all major biogeographic regions, including Europe, Central Asia, North America, and North Africa.”

Amber from Cambay from 50 million years ago. Geogaranya variensis It was discovered in the open-pit Valia lignite mine, part of the Cambay Shale Formation, in the Cambay Basin of Gujarat, India.

“The Cambay Shale Formation overlies the Deccan Trap, and below it is the Paleocene to lower Eocene Vagadkol Formation,” the researchers said.

According to the team: Geogaranya variensis It is one of the smallest known adult pseudoscorpion fossils in amber from the Cambay Basin.

This discovery further strengthens the biodiversity of bark-dwelling arthropods identified in Eocene amber from western India.

“The discovery of the smallest known adult pseudoscorpion in Cambay Basin amber aligns it with fossil taxa recorded in Baltic Sea amber and Bitterfeld amber that survived the early Eocene. “This provides insight into similar bark-dwelling arthropod taxa,” the scientists concluded.

“Scanning electron microscopy studies revealed diagnostic features in the fossils, such as abnormally enlarged palps. This strengthened Foresy’s idea that species from non-arboreal habitats could be mistakenly This suggests that it may have been carried in amber and had a connection to a flying host.”

discovery of Geogaranya variensis is reported in paper in diary Old Trogia Electronica.

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priya agnihotri other. 2024. A new genus and species of fossil pseudoscorpion (Arachnida: Pseudoscorpiones) discovered in Eocene amber from western India. Old Trogia Electronica 27 (2):a26; doi: 10.26879/1276

Source: www.sci.news

NASA reveals stunning visualization of a supermassive black hole’s event horizon

Thanks to a new visualization created on a NASA supercomputer, we can now dive into the event horizon, the point of no return for a black hole.

“People often ask about this, but simulating these hard-to-imagine processes is the key to bringing the mathematics of relativity to reality,” said Dr. Jeremy Schnitman, an astrophysicist at NASA’s Goddard Space Flight Center. “It helps us connect this with real-world consequences in the universe.”

“So I simulated two different scenarios: one in which the camera, standing in for the daring astronaut, misses the event horizon and the slingshot recedes; This is a scenario in which your fate will be determined.

To create the visualization, Dr. Schnitman worked with scientist Brian Powell at Goddard Space Flight Center and used the Discover supercomputer at the NASA Climate Simulation Center.

It took about five days to generate about 10 terabytes of data and run on just 0.3% of Discover’s 129,000 processors. It would take a typical laptop more than a decade to do the same thing.

The destination is a supermassive black hole with a mass 4.3 million times that of the Sun, comparable to the monster at the center of the Milky Way.

“If I had a choice, I would want to fall into a supermassive black hole,” Dr. Schnitman said.

“Stellar-mass black holes, containing up to about 30 solar masses, have much smaller event horizons and stronger tidal forces, and can tear apart approaching objects before they reach the horizon.”

This occurs because the gravitational force at the edge of the object near the black hole is much stronger than at the opposite edge. Falling objects stretch like noodles, a process astrophysicists call spaghettification.

The simulated black hole’s event horizon spans about 16 million miles (25 million km), or about 17% of the distance from Earth to the sun.

A flat, swirling cloud of hot, glowing gas called an accretion disk surrounds it and serves as a visual reference as it falls.

The same goes for glowing structures called photon rings, which are formed near black holes by light that has circled the hole one or more times.

A starry sky background seen from Earth completes the scene.

As the camera approaches the black hole, approaching the speed of light itself, the glow from the accretion disk and background stars is amplified, similar to the pitch of the sound of an approaching race car increasing.

If you look in the direction of travel, the light will appear brighter and whiter.

The film begins with a camera located some 640 million km (400 million miles) away, and a black hole quickly fills the field of view.

In the process, the black hole’s disk, photon ring, and night sky become increasingly distorted, even forming multiple images as light traverses an increasingly distorted space-time.

In real time, the camera takes about three hours to fall to the event horizon, performing nearly two full 30-minute orbits along the way. But for those observing from afar, it will never get there.

As the space-time distortion increases as you approach the horizon, the camera’s image slows down and appears to stop in front of you. This is why astronomers originally called black holes “frozen stars.”

At the event horizon, even space-time itself flows inward at the speed of light, the speed limit of the universe.

Once inside, both the camera and the spacetime it moves through hurtle towards the center of the black hole. A one-dimensional point called a singularity, where the laws of physics as we know them no longer work.

NASA’s visualization shows a camera tracking a supermassive black hole, similar in mass to that at the center of our galaxy, as it approaches, briefly orbits, and crosses the event horizon (point of no return). Masu. Image credit: J. Schnittman & B. Powell, NASA Goddard Space Flight Center.

“Once the camera crosses the horizon, there are only 12.8 seconds left before spaghettification destruction,” Dr. Schnitman said.

From there, the singularity is only 128,000 km (79,500 miles) away. The last leg of this voyage is over in the blink of an eye.

In another scenario, the camera orbits close to the event horizon, but never crosses it and flees to safety.

If an astronaut were to fly this six-hour round trip, and her co-worker on the mother ship was far away from the black hole, she would return 36 minutes younger than her co-worker.

That’s because time slows down when you move near a strong source of gravity or at speeds close to the speed of light.

“This situation could become even more extreme,” Dr. Schnitman says.

“If a black hole were rotating rapidly, like the one shown in the 2014 movie, interstellar, she would return many years younger than the sailors. ”

Source: www.sci.news

Study reveals sperm whale communication is more intricate than previously believed

Sperm whale (physeter macrocephalus) They are highly social mammals that use clicks to communicate. New research shows that, just like in human language, they can combine and coordinate different clicks and rhythms to create complex calls.

Sperm whale (physeter macrocephalus). Image credit: Gabriel Barathieu / CC BY-SA 2.0 Certificate.

Communication is important for social animals to make group decisions and coordinate collaborative tasks such as foraging and raising children.

Sperm whales are social mammals that communicate with each other by clicking repeatedly.

Little else is known about sperm whales' communication systems, although some of their clicks have previously been shown to communicate their identity.

“Cetaceans are an important group for studying evolution and the development of sophisticated communication systems,” said Pratyusha Sharma, a researcher at the Massachusetts Institute of Technology (MIT), and colleagues.

“Among cetaceans, long-term observational studies of sperm whales describe both a culturally defined, multilayered matrilineal society and a socially transmitted communication system.”

“Sperm whales are known for their complex social and foraging behaviors, as well as their collective decision-making.”

“They communicate using codas, stereotypical sequences of three to 40 broadband clicks. Codas are exchanged when whales interact with each other and during long, deep dives foraging. .”

For the study, the authors Dominican Sperm Whale Projectthe largest repository of sperm whale data.

They analyzed the records of about 60 different whales from the eastern Caribbean sperm whale clan and used them to define a “sperm whale phonetic alphabet” of click combinations from this clan's records.

They discovered that whales' communication systems are more complex and have greater information-transfer capabilities than previously thought.

We found that the combination and structure of the generated click sequences depended on the context of the individual's conversation.

Scientists also identified a “combinatorial structure” in whale language. Whales can combine and coordinate different clicks and rhythms to create complex vocalizations, similar to human language.

“Although the function and meaning of the click combinations are still unknown, the sperm whale language could potentially express a large number of meanings,” the researchers said.

Their paper It was published in the magazine nature communications.

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P. Sharma other. 2024. Contextual and combinatorial structure in sperm whale calls. Nat Commune 15, 3617; doi: 10.1038/s41467-024-47221-8

Source: www.sci.news

Scientists witness uncommon nuclear decay of potassium isotope

Physicists are Potassium Decay (KDK) Collaboration. They directly observed for the first time a very rare but important decay pathway from potassium-40 to argon-40. Their results have the potential to improve current understanding of physical processes and increase the accuracy of geological dating.

Decay scheme of potassium 40. Image credit: Stukel other., doi: 10.1103/PhysRevLett.131.052503.

Potassium-40 is a ubiquitous natural isotope whose radioactivity has been used to estimate geological ages over billions of years, to theories of nuclear structure, and to the search for subatomic rare events such as dark matter and neutrinoless double beta decay. influence.

The decay of this long-lived isotope must be precisely known for its use as a global clock and to explain its presence in low-background experiments.

Although potassium-40 has several known decay modes, the electron-capture decay predicted directly into the ground state of argon-40 has never been observed before.

“Some of the nuclei of certain elements radioactively decay into the nuclei of other elements. These decays can be helpful or annoying, depending on the situation,” the KDK physicists said. I am.

“This is especially true for potassium-40, an isotope that normally decays to calcium-40, but about 10% of the time it decays to argon-40.”

“This decay pathway involves a process called electron capture, which provides information about the nuclear structure.”

“Potassium-40 has a very long half-life, so it can even determine the age of geological objects on billion-year time scales.”

“Due to its long half-life, it is difficult to find another way for potassium-40 to break down.”

In a new study, researchers measured a rare decay branch of potassium-40 at Oak Ridge National Laboratory's Holyfield Radioactive Ion Beam Facility.

“Quantifying the decay rate of potassium-40 and its decay branches is difficult because it requires measuring the parent nucleus and a sufficient number of rare progeny nuclei,” the researchers said.

“We studied a subset of potassium-40 that decays to argon-40 by electron capture, which accounts for about 10% of all potassium-40 decays.”

“Although most potassium-40 electron-capture decays emit characteristic gamma rays that form the background of most experiments, a small subset of these decays occur without gamma ray emission.”

“This happens when potassium-40 captures an electron that goes directly to the ground state of argon-40.”

“We have directly measured this decay for the first time. This result indicates that other decay rates may also need to be reevaluated.”

“The rare decay branch we identified and measured provides unique experimental evidence for so-called forbidden beta decay, with implications for predictions of nuclear structure and for potassium-based geological and solar system age estimates. It removes years of uncertainty.”

“This discovery also improves our assessment of the background that exists in experiments that explore new physics beyond the Standard Model.”

The results are published in two papers (paper #1 and paper #2) in the diary physical review letter and diary Physical Review C.

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M. Stukel other. (KDK collaboration). 2024. 40,000 rare collapses with implications for fundamental physics and geochronology. Physics.pastor rhett 131 (5): 052503; doi: 10.1103/PhysRevLett.131.052503

L. Harias other. (KDK collaboration). 2024. Evidence of ground state electron capture at 40K. Physics. Rev.C 108 (1): 014327; doi: 10.1103/PhysRevC.108.014327

Source: www.sci.news

Newly Found Ancient Rock Art Ruins Unearthed in Sudan’s Eastern Desert

Archaeologists from Macquarie University and the Polish Academy of Sciences' Institute of Mediterranean and Oriental Cultures have discovered 16 new rock art sites in Sudan's eastern desert, or 'Atobai'. Almost all of his newly discovered 4,000-year-old artwork depicts the presence of cows.

Rock art from the area around Gebel Nahoganet in the eastern desert of Sudan. Image credit: Cooper other., doi: 10.1177/03075133231211.

“Finding a cow carved into a desert rock face was puzzling, as cows require large amounts of water and acres of pasture, and cannot survive in today's arid conditions in the Sahara Desert.” said Macquarie University researcher Dr Julian Cooper.

“The presence of cows in ancient rock art is one of the most important pieces of evidence for a former 'Green Sahara.'”

Rock art found in eastern Sudan also depicts the desert as a grassy savanna filled with ponds, rivers, swamps, and waterholes and home to a variety of African savannah animals, including giraffes and elephants.

The idea of ​​a “Green Sahara'' has been proven through previous archeological and climate fieldwork and research, and experts are calling this the “African Wet Period''. This is a period of increased summer monsoon precipitation that began about 15,000 years ago and ended about 5,000 years ago.

Depictions of humans alongside cows may indicate the act of milking, suggesting that the area was once occupied by cattle pastoralists until the 2nd or 3rd millennium BC.

After this point, reduced rainfall made cattle grazing impossible.

Currently, the region receives very little annual precipitation.

At the end of the “African Wet Period”, around 3000 BC, lakes and rivers began to dry up, dry pastures became covered with sand, and most of humanity left the Sahara Desert to seek refuge near the Nile River.

“The Atbai desert around Wadi Halfa, where new rock art was discovered, was almost completely depopulated. For those who remained, cattle were abandoned for sheep and goats,” the archaeologists said.

“This would have profoundly affected every aspect of human life, from diets and limited milk supplies to the movement patterns of nomadic families and the identity and livelihoods of those who depended on cattle.”

team's paper Published in Egyptian Archeology Journal.

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julian cooper other. 2023. Rock art research in the eastern desert of Sudan: Results of the 2018-2019 Atobai research project. Egyptian Archeology Journal 109 (1-2); doi: 10.1177/03075133231211

Source: www.sci.news

Detecting Iron in the Accretion Disk Around the Supermassive Black Hole of NGC 4151: XRISM Observations

NGC 4151 is a spiral galaxy located approximately 62 million light-years away in the northern constellation Hanabi.

This artist's concept shows possible locations for iron revealed in NGC 4151's XRISM X-ray spectrum. Image credit: Conceptual Image Lab, NASA's Goddard Space Flight Center.

The X-ray Imaging and Spectroscopy Mission (XRISM), a joint effort between JAXA and NASA, with extensive participation from ESA, launched from Japan's Tanegashima Space Center on September 6, 2023.

After beginning science operations in February 2024, the spacecraft focused on the supermassive black hole at the center of NGC 4151.

“XRISM's Resolve instrument captured a detailed spectrum of the region around the black hole,” said researcher Brian Williams, Ph.D., of NASA's Goddard Space Flight Center.

“The peaks and valleys are like chemical fingerprints that tell us what elements are present and can reveal clues about the fate of matter that approaches a black hole.”

NGC 4151's supermassive black hole holds more than 20 million times the mass of the Sun.

This galaxy is also active, meaning its center is unusually bright and changeable.

Gas and dust swirling toward the black hole forms an accretion disk around it, heated by gravity and frictional forces, creating fluctuations.

Some of the material at the edge of the black hole forms twin jets of particles that shoot out from either side of the disk at nearly the speed of light.

A bulging donut-shaped cloud of material called a torus surrounds the accretion disk.

XRISM's Resolve instrument captured data from the center of NGC 4151. The resulting spectrum reveals the presence of iron with a peak around 6.5 keV and a dip around 7 keV, thousands of times more energetic than the light visible to our eyes. Image credits: JAXA / NASA / XRISM Resolve / CXC / CfA / Wang et al. / Isaac Newton Telescope Group, La Palma Island / Jacobus Kapteyn Telescope / NSF / NRAO / VLA.

“In fact, NGC 4151 is one of the closest known active galaxies,” Dr. Williams and his colleagues said.

“Other missions, such as NASA's Chandra X-ray Observatory and the NASA/ESA Hubble Space Telescope, are conducting research to learn more about the interactions between black holes and their surroundings, allowing scientists to study galaxies. Find out how the supermassive black hole at the center of time grows throughout the universe.

“This galaxy is unusually bright in X-rays, making it an ideal early target for XRISM.”

“The NGC 4151 spectrum in Resolve shows a sharp peak at energies just below 6.5 keV, an iron emission line.”

Astronomers believe that much of the power in active galaxies comes from X-rays emanating from hot, blazing regions near black holes.

When the X-rays reflect off the cold gas inside the disk, the iron there fluoresces, producing a specific X-ray peak.

This allowed for a more accurate depiction of both the disk and the eruptive region much closer to the black hole.

“The spectrum also shows some dips around 7 keV,” the astronomers said.

“The iron present in the torus caused these dips as well, but due to absorption rather than emission of X-rays, because the material there is much cooler than in the disk.”

“All of this radiation is about 2,500 times more energetic than the light we can see with our eyes.”

“Iron is just one of the elements that XRISM can detect. The telescope can also detect sulfur, calcium, argon, and more, depending on the source.”

“Each one tells us something different about the cosmic phenomena that litter the X-ray sky.”

Source: www.sci.news

The Leading Platform for Seasoned Traders – Featuring Blockchain News, Insights, TV, and Job Listings

RevoluteThe London-based digital banking giant, which boasts over 40 million customers worldwide, has officially launched its long-awaited Revolut X crypto exchange platform, marking a major step forward into the competitive landscape of cryptocurrency trading.

In response to this monumental development, Alex Saleh, Head of Partnerships at Blockchain Protection Company, said: coin cover, heralds Revolut’s foray into the cryptocurrency trading space as a transformative moment for the UK cryptocurrency ecosystem. Saleh emphasizes that the launch of Revolut played a pivotal role in overcoming previous regulatory uncertainties that stifled innovation in the sector.

“The launch of a new crypto exchange by Revolut is a major step forward for crypto in the UK and marks a significant shift away from the regulatory uncertainty that has hindered innovation in this space.” Mr. Saleh is adamant.

Additionally, Saleh praised Revolut’s strong commitment to compliance and security, saying it is a cornerstone of the company’s strategy. By prioritizing a ‘compliance first’ approach, Revolut sets a precedent for responsible crypto trading practices in line with institutional norms, thereby fostering trust and confidence within the market.

“Revolut’s focus on a ‘compliance first’ strategy is very positive,” Saleh said. “With robust compliance and security measures, this should serve as an example of a mature approach to crypto trading in line with institutional norms and help build trust in the market.”

Saleh also highlights the importance of Revolut X’s advanced trading platform, which provides users with a 1:1 financial support guarantee. This is an important feature that addresses persistent concerns arising from past incidents such as the FTX fallout.

“Now Revolut’s millions of users can try their hand at using an advanced trading platform that backs their funds 1:1, something that still plagues traders in the wake of FTX.” Saleh observes.

In light of Mr. Saleh’s remarks, Revolut’s debut of Revolut This is also proof of our unwavering efforts.

Source: www.the-blockchain.com

Scientists investigate possible anomaly in the force of gravity in the universe

in paper Published in Journal of Cosmology and Astroparticle PhysicsScientists have considered theoretical and observational cases of “cosmic glitches” in the universe's gravity.

Wen other. Specifically, we develop a model that modifies general relativity on a cosmological scale by introducing a "glitch" in the gravitational constant between the cosmological (superhorizon) and Newtonian (subhorizon) regions. Research. Image credit: M. Weiss / Harvard-Smithsonian Center for Astrophysics.

For the past 100 years, physicists have relied on Albert Einstein's theory of general relativity to explain how gravity acts throughout the universe.

General relativity, proven accurate by countless experiments and observations, suggests that gravity affects not just the third physical dimension, but also a fourth dimension: time. Masu.

“This gravity model has been essential to everything from theorizing the Big Bang to photographing black holes,” said Robin Wen, a researcher at the California Institute of Technology.

“But when we try to understand gravity at the cosmic scale, beyond galaxy clusters, we run into clear contradictions with the predictions of general relativity.”

“It's as if gravity itself is no longer fully consistent with Einstein's theory.”

“We call this contradiction a 'cosmic glitch.' When dealing with distances of billions of light years, gravity weakens by about 1%.”

For more than 20 years, researchers have been trying to create a mathematical model to explain the apparent contradictions in general relativity.

“Almost a century ago, astronomers discovered that the universe was expanding,” said Professor Nyaesh Afsholdi of the University of Waterloo.

“The further away a galaxy is, the faster it is moving, so much so that it appears to be moving at a speed close to the maximum speed of light allowed by Einstein's theory.”

“Our findings suggest that at precisely that scale, Einstein's theory may also be inadequate.”

The research team's “cosmic glitch” model modifies and extends Einstein's formula in a way that resolves some discrepancies in cosmological measurements without affecting existing successful uses of general relativity. This is what I did.

“Think of this as a footnote to Einstein's theory,” Wen says.

“Once we reach the cosmic scale, terms and conditions apply.”

“This new model may be the first clue to the cosmic puzzles we are beginning to solve across time and space,” Professor Afshodi said.

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Robin Y. Wen other. 2024. Anomalies in the gravity of the universe. JCAP 03:045; doi: 10.1088/1475-7516/2024/03/045

Source: www.sci.news