Scientists have discovered that pairing bread wheat with a special soil fungus can significantly enhance its nutritional value. This partnership leads to bigger grains rich in zinc and phosphorus—without increasing anti-nutrients that block absorption. As a result, the wheat becomes a healthier option for human diets. Researchers believe this fungal strategy could offer a natural, sustainable way to fortify global crops with essential nutrients.

Scientists in Svalbard were shocked to find rain and greenery instead of snow during Arctic winter fieldwork. The event highlights not just warming—but a full seasonal shift with major consequences for ecosystems, climate feedback, and research feasibility.

A colossal 7.7 magnitude earthquake rocked central Myanmar in March 2025, marking the strongest quake in over a century. What makes this event groundbreaking isn't just the seismic power—it’s the unprecedented footage captured by a CCTV camera near the fault line. Researchers at Kyoto University used this rare video to measure the fault’s movement in stunning detail, confirming a rapid, pulse-like rupture and a subtle curve in the slip path. This real-time visual data opens a new frontier in earthquake science, potentially transforming how we understand and predict seismic behavior.

A groundbreaking study involving genetic data from over five million people has uncovered how our DNA can predict obesity risk as early as childhood. The new polygenic risk score outperforms previous methods, helping to identify high-risk children before weight issues develop paving the way for early lifestyle interventions.

What made ribose the sugar of choice for life's code? Scientists at Scripps Research may have cracked a major part of this mystery. Their experiments show that ribose binds more readily and selectively to phosphate compared to other similar sugars, forming a structure ideal for RNA formation. This discovery hints at how nature might have selected specific molecules long before enzymes or life existed, and could reshape our understanding of life’s chemical origins.

New research from the University of Sydney sheds light on how coronaviruses emerge in bat populations, focusing on young bats as hotspots for infections and co-infections that may drive viral evolution. By analyzing thousands of samples over three years, scientists discovered that juvenile bats frequently host multiple coronaviruses simultaneously—offering a real-time window into how new strains might arise. These findings, while involving non-human-infecting viruses, provide a powerful model to forecast how dangerous variants could eventually spill over into humans, especially as environmental pressures bring bats closer to human habitats.

Scientists have uncovered hidden bony armor—called osteoderms—beneath the skin of 29 goanna species across Australasia, a discovery that radically changes what we thought we knew about lizard evolution. Using museum specimens and advanced scanning, researchers found these structures are far more widespread than previously known, suggesting they may help with survival in harsh environments, not just offer protection. The revelation redefines how we understand lizard adaptation, ancient evolution, and the untapped potential of museum collections.

Scientists in Australia have uncovered the biological triggers behind oil production in oats, a discovery that could revolutionize how oats are processed and marketed. By using advanced imaging and molecular techniques, researchers identified key enzymes that drive oil synthesis in oat grains. This opens the door to developing low-oil oat varieties that are easier to mill and better suited for high-demand markets like plant-based foods and oat flour.

Scientists have observed a brand-new and exotic atomic nucleus: aluminium-20. Unlike anything seen before, it decays through a stunning three-proton emission sequence, shedding light on nuclear behavior far beyond the limits of stability. This breakthrough, involving researchers from China and Germany, not only adds a new isotope to the nuclear chart but also hints at broken symmetry and unexpected quantum properties deep within matter.

A surprising discovery from Emory University shows that psilocin, the active metabolite of psychedelic mushrooms, can delay cellular aging and extend lifespan. Human cells lived over 50% longer, and mice treated with psilocybin not only lived 30% longer but also looked and aged better.

Ancient river landscapes buried beneath the East Antarctic Ice Sheet have been uncovered by radar, revealing vast, flat surfaces formed over 80 million years ago before Antarctica froze. These hidden features, stretching across 3,500 kilometers, are now acting as natural brakes on glacier flow, potentially moderating current ice loss. Their discovery adds a new piece to the puzzle of Earth's climate history and could help scientists better forecast how this enormous ice sheet will behave as the planet warms.

NASA’s Roman Space Telescope is set to embark on a deep-sky survey that could capture nearly 100,000 cosmic explosions, shedding light on everything from dark energy to black hole physics. Its High-Latitude Time-Domain Survey will revisit the same region of the sky every five days for two years, catching transient phenomena like supernovae — particularly type Ia, which are cosmic mileposts for tracking the universe’s expansion. Roman’s simulations suggest it could push the boundary of what we know about the early universe, observing ancient supernovae over 11.5 billion years old.

Scientists at Rice University and the University of Houston have created a powerful new material by guiding bacteria to grow cellulose in aligned patterns, resulting in sheets with the strength of metals and the flexibility of plastic—without the pollution. Using a spinning bioreactor, they’ve turned Earth’s purest biopolymer into a high-performance alternative to plastic, capable of carrying heat, integrating advanced nanomaterials, and transforming packaging, electronics, and even energy storage.

Millions of tons of plastic in the ocean aren't floating in plain sight—they're invisible. Scientists have now confirmed that the most abundant form of plastic in the Atlantic is in the form of nanoplastics, smaller than a micrometer. These particles are everywhere: in rain, rivers, and even the air. They may already be infiltrating entire ecosystems, including the human brain, and researchers say prevention—not cleanup—is our only hope.

What scientists once dismissed as junk DNA may actually be some of the most powerful code in our genome. A new international study reveals that ancient viral DNA buried in our genes plays an active role in controlling how other genes are turned on or off, especially during early human development. These sequences, originally from long-extinct viruses, have evolved to act like tiny genetic switches. Using new analysis tools and large-scale experiments, researchers discovered that certain viral DNA fragments are especially strong at activating genes and may even have helped shape what makes humans different from other primates.

Beneath Yellowstone’s stunning surface lies a hyperactive seismic world, now better understood thanks to machine learning. Researchers have uncovered over 86,000 earthquakes—10 times more than previously known—revealing chaotic swarms moving along rough, young fault lines. With these new insights, we’re getting closer to decoding Earth’s volcanic heartbeat and improving how we predict and manage volcanic and geothermal hazards.

A new UK study shows that vaccinating pregnant women against RSV has led to a staggering 72% drop in hospitalizations of newborns with severe lung infections. By passing virus-fighting antibodies to their babies, vaccinated mothers are helping shield infants during their most vulnerable early months.

What if mRNA vaccines could be made more powerful and less irritating? Scientists at the University of Pennsylvania have found a way to do just that—by tweaking a key molecule in the vaccine’s delivery system. Using a century-old chemical trick called the Mannich reaction, they added anti-inflammatory phenol groups to the lipids that carry mRNA into cells. The result? A new class of lipids that reduce side effects, boost gene-editing success, fight cancer more effectively, and supercharge vaccines like those for COVID-19. This breakthrough could change how we build the next generation of vaccines and therapies.

People in richer countries aren t moving less they re just eating more. A new Duke study shows that diet, not laziness, is fueling the obesity epidemic across industrialized nations.

Using a clever combo of iron and radical chemistry, scientists have unlocked a safer, faster way to create carbenes molecular powerhouses key to modern medicine and materials. It s 100x more efficient than previous methods.