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A recent study by the University of California, Santa Barbara has identified four policies that could reduce plastic waste pollution globally by over 90 percent and cut associated carbon emissions by nearly a third by 2050. The findings highlight a comprehensive approach involving increased recycled content, a cap on plastic production, enhanced waste management investment, and a packaging fee to address the plastic waste crisis effectively.

Proposed Policies to Combat Plastic Waste

The study titled “Pathways to reduce global plastic waste mismanagement and greenhouse gas emissions by 2050,” by researchers at the University of California Berkeley and the University of California Santa Barbara was published in Science. The study recommends mandating that new plastic products contain at least 40 percent post-consumer recycled materials and capping new plastic production at 2020 levels. It advocates for significant investments in waste management infrastructure, including landfills and collection systems, especially in underserved regions. Lastly, a minor fee on plastic packaging is suggested to discourage single-use items and promote sustainability.

According to Professor Douglas McCauley, an environmental science expert at UC Santa Barbara and UC Berkeley, these policies could substantially minimise plastic pollution if adopted globally. The potential impact is comparable to removing 300 million gasoline-powered cars from roads for a year, underscoring the considerable climate benefits.

Busan Summit to Finalise Global Plastics Treaty

The study’s release comes just ahead of critical negotiations for the Global Plastics Treaty, set to take place in Busan, South Korea, from November 25 to December 1. This legally binding agreement aims to provide a framework to curb plastic pollution, with over 190 countries expected to participate.

Researchers, including Dr. Roland Geyer, Professor of Industrial Ecology at UC Santa Barbara, are optimistic that these policy recommendations will guide treaty negotiations, providing a data-driven approach to mitigate plastic pollution and emissions. “This policy work shows that we can reach minimal mismanaged plastic waste if we can come together in action,” said Dr. Nivedita Biyani, a researcher at the Benioff Ocean Science Laboratory.

Without action, the study warns, plastic consumption and emissions could rise by 37 percent by 2050. The research underscores the environmental and social costs of plastic waste, particularly for the Global South, which disproportionately suffers from pollution due to limited waste management resources.

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Scientists Transform Lead into Gold, But Only for a Fleeting Moment

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May 20, 2025

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Scientists Transform Lead into Gold, But Only for a Fleeting Moment

Medieval alchemists would have been stunned to see lead turned into gold – but that’s what scientists at CERN’s Awesomely Large Hadron Collider (LHC) have done. Through near-miss collisions rather than head-on atomic bashes, the team at the ALICE collaboration can convert lead to gold at a rate of 89,000 atoms each second. Although each gold atom survived only a tiny fraction of a second, the experiment is a testament to the precision of modern particle physics. It serves as a testament to the LHC’s growing ability to change the very structure of the atom.

CERN Scientists Create Gold from Lead Using Proton Removal at LHC—But Only for a Split Second

As per the report from CERN, three protons are stripped from the lead nuclei, transforming them into gold. These odd metamorphoses occurred when lead atoms barely missed each other, resulting in powerful electric and magnetic fields that could have shuffled the particles. Their detectors would work on both large and small particle-event scales “because it’s the small ones that you need to see that those tiny changes would be different,” ALICE project chief Marco Van Leeuwen mentioned.

Despite the astonishing atom-per-second count, the total mass of gold created between 2015 and 2018 added up to just 29 picograms — far less than visible to the naked eye. Uliana Dmitrieva, a physicist from the collaboration, highlighted that it represents the first observation of this type of gold production at the LHC and with their sophisticated detectors. Though recent upgrades have almost doubled output, the gold remains more symbolic, scientifically, than economically.

The findings have a broader significance than mere novelty. As physicist John Jowett explains, this is fine-tuning of electromagnetic dissociation in theoretical models, and it helps estimate beam losses, which are important for improving the LHC as well as future colliders. While commercial alchemy remains in the realm of science fiction, it helps push forward the understanding of particle manipulation and atomic science.

This transient artifice of gold illustrates not only human creativity but the distance technology today has travelled from the desires of the alchemists of old.

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Scientists Discover Three-Eyed Sea Moth From Half a Billion Years Ago

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May 20, 2025

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Scientists Discover Three-Eyed Sea Moth From Half a Billion Years Ago

Scientists have discovered a half a million years old three eyed “sea moth” from a cache of museum fossils in Canada. These finger-sized feisty predators are speculated to lurk in the primordial seas, hooking prey into its mouth while breathing through long gills on its butt. This species is named Mosura fentoni because of its resemblance to the fictional Japanese monster Mothra. This species, belonging to the group of ancestral arthropods called radiodonts, gives valuable insight towards the surprising diversity and adaptations in the ancient arthropods.

About the species

According to a study by Paleontologists Joseph Moysiuk and Jean-Bernard Caron, earliest-diverging arthropods, the radiodonts, exhibited comparatively limited variability in tagmosis. Unlike them, the newly found species M. fentoni exhibits up to 26 trunk segments, the highest number reported for any radiodont, despite being among the smallest known.

The species also had the longest gills relative to body length of all known radiodonts. the back-end gills were most likely a specialized system for respiration; horseshoe crabs, wood lice and some other living arthropods have subsequently evolved a similar system. Researchers aren’t certain why M. fentoni needed the long butt gills, but they speculated it was an adaptation to low-oxygen environments or an active lifestyle.

While paleontologists are still learning why Mosura fentoni had a third eye, researchers believe the eye may have been used to detect light and the seascape it moved through. Perhaps Mosura fentoni’s median eye was used to orient themselves during high-speed hunts, according to the U.K. Natural History Museum.

Key Insights

Arthropods are a large group of invertebrates with hard exoskeletons, segmented bodies and jointed legs. Today, they make up around three-quarters of all living animals, including insects, arachnids and crustaceans. One of the reasons for their evolutionary success is their specialized body segments. Radiodonts are probably the first group of arthropods to branch out in the evolutionary tree, so they provide key insight into ancestral traits for the entire group. The new species emphasizes that these early arthropods were already surprisingly diverse and were adapting in a comparable way to their distant modern relatives.

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NASA’s LROC Captures ispace RESILIENCE Landing Site Ahead of June 2025 Lunar Touchdown



Acer AI TransBuds With Ear-Hook Design Unveiled at Computex 2025

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NASA’s LROC Captures ispace RESILIENCE Landing Site Ahead of June 2025 Lunar Touchdown

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May 20, 2025

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NASA's LROC Captures ispace RESILIENCE Landing Site Ahead of June 2025 Lunar Touchdown

NASA’s LROC (Lunar Reconnaissance Orbiter Camera) has taken high resolution picture of the landing area for the ispace SMBC and HAKUTO-R Mission 2 lunar lander. It has been named RESILIENCE. This is scheduled to land on June 5, 2025, at a plain lava site near the north of the Moon, and within Mare Frigoris, dispersed with large-scale wrinkle ridges. This image gives enough details to the researchers preparing for this mission of lunar attempted ambition. This view is around 3.13 miles wide below the north. 

Ancient Lunar Terrain of Mare Frigoris

According to the research by NASA’s  Goddard Space Flight Center, Mare Frigoris is a basaltic plain built before 3.5 billion years, at the time of volcanic activities on the Moon. Image formed by LROC displays a terrain formed by the ancient lava flow with wrinkle ridges, built by tectonic features due to the cooling crust of the Moon. Such formations give valuable clues regarding geological history of the Moon and the driving forces that shaped its surface.

Why Mare Frigoris Was Chosen

This landing site has been chosen for relative smoothness and scientific interests. Mare Frigoris provides a stable surface, ideal for its soft landing. Ispace’s RESILIENCE is the second Japanese-led mission if it touches down successfully after HAKUTO-R in 2023, which ended due to a crash descent.

A Commercial Step Toward the Moon

The mission quite valuable because it is a commercial venture operated by Japans ispace in collaboration with SMBC Group. The ander is designed to showcase key technologies for future lunar logistics, long-term lunar infrastructure and resource exploration. There is a need to build a sustainable lunar economy with the rise in international interest in the Moon including Artemis program and more. 

Mapping the Path to Lunar Success

With the June launch window coming near, the new image generation by LROC helps the scientists to refine their landing path and allow them to understand the site. With the success of RESILIENCE, there will be another step forward to humanity’s renewed presence on the Moon.

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