Moon's volcanic history trapped in tiny glass beads: A valuable clue for NASA

Source: earth.com
Astronauts have discovered
tiny glass beads
, called 'Moon beads,' in lunar soil brought back by the
Apollo 17 mission
. These beads are valuable to scientists to learn more about the Moon's past. The size of these beads is less than a millimeter, and they were formed 3.3 billion years ago, during volcanic eruptions of the moon.
As the molten lava blasted into space, it cooled and solidified instantly, forming tiny glass beads that contain valuable information about the Moon's volcanic history. The orange ones, rich in titanium, provide clues about the Moon's magma and volcanic activity. Scientists are now focusing on the outside of these beads, where tiny minerals reveal clues about ancient volcanic activity.
Know about the moon beads discovered
The moon beads contain trapped gases that haven't escaped. Studies have found that these beads contain water, challenging the previous notion that the Moon is dry. The moon beads are composed of sphalerite, starting with high iron content at the base and becoming purer zinc towards the top, indicating that volcanic eruption clouds cooled and thinned as the beads travelled. The sparkle on the glass beads comes from tiny mounds of zinc sulfide, just billionths of an inch high.
Similar beads have been found from other areas, which have coatings of sodium chloride, gallium, or fluorine, supporting the idea that the eruption clouds contained volatile metals. Despite being only a few hundred atoms thick, these films provide detailed information about pressure, temperature, and gas composition, and also explain why the beads sparkle against the lunar landscape.
by Taboola
by Taboola
Sponsored Links
Sponsored Links
Promoted Links
Promoted Links
You May Like
Solicite sua Certidão. Envio para todo o Brasil.
DocnoBr
New instruments reveal insights about moon beads
According to the journal published in
Icarus (ScienceDirect.com)
, Ogliore's lab utilized a NanoSIMS instrument that strikes samples with ions and counts fragments one atom at a time. Microscopes and an atom probe tomography system at partner institutions helped scientists in providing a better picture. Today's advanced equipment can precisely analyse these thin coatings, mapping every element with high detail, unlike earlier Apollo studies that could only note the bead's colour and couldn't inspect coatings thinner than a red blood cell.
What moon beads reveal about the lunar history
Understanding how volatiles behaved in ancient lunar eruptions can help scientists better model the distribution of resources such as sulfur and zinc on the moon. The tiny mineral coatings provide valuable information about gas flow and volcanic activity, which can be used to calibrate the seismic and orbital data.
This is particularly important for NASA's Artemis mission, which aims to land near pyroclastic plains similar to where the beads were found. The beads reveal that the Moon's volcanic past was more dynamic than previously thought, with eruptions ejecting material into space and preserving complex gas chemistry. By analysing the minerals on the bead surfaces, scientists can now study the rapid changes in gas pressure and composition that occurred during these eruptions, providing new insights into volcanic activity in a vacuum
Study of the moon beads
The study of these
lunar glass beads
sheds light on the Moon's volcanic past and provides insights into similar processes that might occur on the airless worlds, like Mercury or asteroids. By understanding these processes, scientists can better interpret samples from future missions to other celestial bodies.
This broader perspective helps researchers compare the geological histories of different planets and refine their understanding of how planetary bodies interact with volatiles. Further research aims to analyse beads from different core samples to track changes in eruption styles and search for signs of extremely low-pressure eruptions. The Moon still holds many secrets, but continued advancements in technology and collaboration between scientists will help uncover its hidden history.
Also read:
Astronomers discover high-altitude clouds darkening skies in YSES-1 system

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Time of India

32 minutes ago

• Time of India

NASA issues alarming warning: 'City killer' asteroid could strike Moon in 2032, threatening Earth's satellites

A potentially catastrophic asteroid , dubbed a 'city killer', is on a collision course with the Moon, and scientists warn the impact could have dangerous ripple effects for Earth . The asteroid, named 2024 YR4, no longer poses a direct threat to our planet, but NASA has identified a 4.3% chance of it striking the lunar surface on December 22, 2032. If it hits, the resulting explosion could eject around 10,000 tonnes of debris from the Moon into space, with Earth's gravity potentially pulling a significant portion of it into orbit, putting vital satellites and infrastructure at serious risk. NASA simulations reveal asteroid may trigger historic lunar impact According to simulations by Dr. Paul Wiegert of the University of Western Ontario, the asteroid, measuring 60 metres in diameter, could crash into the Moon at speeds exceeding 29,000 mph. The impact would likely create a crater 0.6 miles wide, making it the largest lunar collision in over 5,000 years. Though the Moon would absorb the direct hit, the concern lies in the debris that would be hurled into space from the blast. Earth may be in the line of fire by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Hausbesitzer jubeln! Wer Heute noch ohne Solar lebt sollte nun die Lauscher aufsperren. Solar Nachrichten Aktuell Mehr erfahren Undo Dr. Wiegert's team estimates that between 10% and 30% of the ejected lunar material, ranging from 0.1 to 10 millimetres in size, could be funneled toward Earth by its gravitational pull. While seemingly small, these high-speed fragments could cause major disruption by damaging or disabling satellites. 'We were a little bit surprised at the possibility of there being a substantial amount of material at the Earth,' Dr. Wiegert told New Scientist. A decade's worth of satellite damage in days The simulations show that this space shrapnel could increase particle impact rates by 10 to 1,000 times above normal levels, potentially causing satellite failures across multiple orbits. Dr. Wiegert warns that systems like SpaceX's Starlink and other satellite constellations could suffer 'hundreds to thousands' of micro-impacts. This could result in widespread communication blackouts and GPS malfunctions. Risks to lunar missions and astronaut safety The threat isn't limited to Earth. NASA's upcoming Lunar Gateway space station and Artemis lunar missions could also be in harm's way. Rovers, landers, and even astronauts on or near the Moon could be exposed to debris travelling at lethal speeds. A 1mm particle could damage solar cells or pierce space suits, while larger fragments up to 10mm could breach spacecraft interiors. A coordinated space response needed Professor Mark Burchell of the University of Kent emphasised the severity of multiple satellite failures occurring at once. 'A lot of satellites failing at once is worse than occasional failures spread over a decade,' he said, noting that simultaneous outages would stretch resources and emergency response systems. Preventive strategies and shielding technologies may become urgent priorities in the coming years. Although the risk of impact is currently calculated at 4.3%, NASA and other international agencies are continuing to monitor asteroid 2024 YR4 closely. Emergency observations by the James Webb Space Telescope initially helped rule out an Earth-bound strike, but as new data comes in, the trajectory toward the Moon will be reassessed. Scientists agree that while the event is far from certain, preparing for its potential consequences is critical.

Time of India

an hour ago

• Time of India

Experts suggest that THIS common habit could be making kids depressed

Alarming rates of youth depression prompt urgent questions from parents. A UCSF study reveals a link between increased social media use in preteens and a rise in depressive symptoms. Researchers found that as children's social media time increased, so did their depression. Cyberbullying and disrupted sleep are potential contributing factors. 'Why is my child depressed?' - Most parents today are asking themselves this question. As the rates of depression and related suicide among youth are rising at an alarming pace, many parents are left grappling for answers. Is it academic pressure? Bullying? Hormonal changes? New research suggests that there might be something more insidious at play, something that's hidden in plain sight. A new study by researchers at the UC San Francisco has found the answers to it. The experts looked at whether social media was making kids depressed or if the depressed kids simply spent more time on social media. The findings published in JAMA Network Open were shocking. Causes of depression in kids The researchers found that as preteens used more social media, their symptoms of depression increased. However, what was surprising was that it isn't true that kids who became more depressed didn't start using social media more later. In the study, which took over three years, the researchers found that children's social media use rose from seven to 73 minutes per day. This also led to a 35% increase in their depressive symptoms. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Buy Brass Idols - Handmade Brass Statues for Home & Gifting Luxeartisanship Buy Now Undo The researchers examined data of tracked nearly 12,000 children, starting when they were 9 to 10 years old and following up three years later at ages 12 to 13. 'There has been ongoing debate about whether social media contributes to depression or simply reflects underlying depressive symptoms. These findings provide evidence that social media may be contributing to the development of depressive symptoms,' Jason Nagata, MD, MSc, who led the study and is an associate professor in UCSF's Department of Pediatrics, said, in a statement. Findings Though it is unclear why social media increases depressive symptoms, previous research has suggested that cyberbullying and disrupted sleep could be some of the contributing factors. The same researchers have recently published a separate study in The Lancet Regional Health on the effects of cyberbullying. That study suggested that kids aged between 11 to 12 years who were cyberbullied were 2.62 times more likely to report suicidal ideation or a suicide attempt one year later. Also, those children were 2.31 times more likely to be involved in substance abuse (4.65 times more likely with marijuana, 3.37 with nicotine, and 1.92 with alcohol) in the following year. Early signs of myopia seen in kids What can be done So, how can depression in children be addressed effectively? The American Academy of Pediatrics suggested using the tools in its Family Media Plan to create healthier digital habits for both kids and parents. 'As a father of two young kids, I know that simply telling children to 'get off your phone' doesn't really work. Parents can lead by example with open, nonjudgmental conversations about screen use. Setting screen-free times for the whole family, such as during meals or before bed, can help build healthier digital habits for everyone, including adults,' Nagata added. One step to a healthier you—join Times Health+ Yoga and feel the change

Time of India

2 hours ago

• Time of India

Scientists have found a breakthrough in cancer treatment, and it is deep within the ocean

A team of scientists led by the University of Mississippi has discovered a rare sugar in sea cucumbers that may help stop cancer from spreading, without the dangerous side effects of traditional treatments. What does the discovery say? The study published in the journal Glycobiology reveals that a compound called fucosylated chondroitin sulfate, found in the sea cucumber Holothuria floridana, blocks Sulf-2, an enzyme that cancer cells use to grow and metastasize. The compound could become a critical tool in future cancer therapies. Play Video Pause Skip Backward Skip Forward Unmute Current Time 0:00 / Duration 0:00 Loaded : 0% 0:00 Stream Type LIVE Seek to live, currently behind live LIVE Remaining Time - 0:00 1x Playback Rate Chapters Chapters Descriptions descriptions off , selected Captions captions settings , opens captions settings dialog captions off , selected Audio Track default , selected Picture-in-Picture Fullscreen This is a modal window. Beginning of dialog window. Escape will cancel and close the window. Text Color White Black Red Green Blue Yellow Magenta Cyan Opacity Opaque Semi-Transparent Text Background Color Black White Red Green Blue Yellow Magenta Cyan Opacity Opaque Semi-Transparent Transparent Caption Area Background Color Black White Red Green Blue Yellow Magenta Cyan Opacity Transparent Semi-Transparent Opaque Font Size 50% 75% 100% 125% 150% 175% 200% 300% 400% Text Edge Style None Raised Depressed Uniform Drop shadow Font Family Proportional Sans-Serif Monospace Sans-Serif Proportional Serif Monospace Serif Casual Script Small Caps Reset restore all settings to the default values Done Close Modal Dialog End of dialog window. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Play War Thunder now for free War Thunder Play Now Undo 'Marine life produces compounds with unique structures that are often rare or not found in terrestrial vertebrates,' said Marwa Farrag, a fourth-year doctoral student and lead author of the study. 'The sugar compounds in sea cucumbers are unique. They aren't commonly seen in other organisms. That's why they're worth studying.' Sulf-2 plays a key role in altering glycans, sugar molecules that coat the surface of all human cells and regulate communication and immune responses. When this enzyme modifies glycans, it helps cancer cells break away and spread. Blocking Sulf-2 may stop tumors from invading healthy tissues. Live Events 'This sugar essentially stops the pruning of the cellular 'forest,'' said Dr. Vitor Pomin, associate professor of pharmacognosy. 'If we can inhibit that enzyme, we are fighting against the spread of cancer.' The research team, which also included scientists from Georgetown University, used lab testing and computer modeling to confirm the sugar's effect. Both methods produced consistent results. Safe for human use Unlike some Sulf-2 inhibitors already known, this sea cucumber sugar does not affect blood clotting, making it safer for use in humans. 'If a molecule interferes with blood coagulation, you risk life-threatening bleeding,' said Dr. Joshua Sharp, associate professor of pharmacology. 'This one doesn't.' Lack of abundance The team now faces a new challenge: sea cucumbers aren't abundant enough to harvest for mass production. 'One of the problems in developing this as a drug would be the low yield,' said Dr. Pomin. 'So, we have to develop a chemical route.' The scientists are currently working to synthesize the compound in the lab so it can be tested in animal models. If successful, this breakthrough could pave the way for cleaner, safer, and more sustainable cancer treatments, originating not from synthetic chemicals or land animals, but from the ocean floor.