Naturally occurring “space weather station” elucidates new way to study habitability of planets orbiting M dwarf stars

Artist's renditions of the space weather around M dwarf TIC 141146667. The torus of ionized gas is sculpted by the star's magnetic field and rotation, with two pinched, dense clumps present on opposing sides of the star.
Illustrations Credit: Navid Marvi, courtesy Carnegie Science.

How does a star affect the makeup of its planets? And what does this mean for the habitability of distant worlds? Carnegie’s Luke Bouma is exploring a new way to probe this critical question—using naturally occurring space weather stations that orbit at least 10 percent of M dwarf stars during their early lives. He is presenting his work at the American Astronomical Society meeting this week. 

We know that most M dwarf stars—which are smaller, cooler, and dimmer than our own Sun—host at least one Earth-sized rocky planet. Most of them are inhospitable—too hot for liquid water or atmospheres, or hit with frequent stellar flares and intense radiation. But they could still prove to be interesting laboratories for understanding the many ways that stars shape the surroundings in which their planets exist.

“Stars influence their planets. That’s obvious. They do so both through light, which we’re great at observing, and through particles—or space weather—like solar winds and magnetic storms, which are more challenging to study at great distances,” Bouma explained. “And that’s very frustrating, because we know in our own Solar System that particles can sometimes be more important for what happens to planets.” 

But astronomers can’t set up a space weather station around a distant star. 

The Mechanical Ratchet: A New Mechanism of Cell Division Uncovered

A zebrafish embryo during the first cell division cycle, with the structural protein actin labelled, which marks the cell boundary and ingressing furrow. The image shows a time course from dark orange (before ingression) to brighter orange and finally white as ingression proceeds.
Image Credit: © Alison Kickuth, Brugués Lab

Cell division is an essential process for all life on earth, yet the exact mechanisms by which cells divide during early embryonic development have remained elusive – particularly for egg-laying species. Scientists from the Brugués group at the Cluster of Excellence Physics of Life (PoL) at Dresden University of Technology have revealed a novel mechanism that explains how early embryonic cells may divide without forming a complete contractile ring, traditionally seen as essential for this process. The findings, published in Nature, challenge the long-standing textbook view of cell division, revealing how parts of the cytoskeleton, and material properties of the cell interior (or cytoplasm) cooperate to drive division through a ‘ratchet’ mechanism.     

We finally know how the most common types of planets are created

Astronomers have now witnessed four baby planets in the V1298 Tau system in the process of becoming super-Earths and sub-Neptunes.
Image Credit: Astrobiology Center, NINS  

Thanks to the discovery of thousands of exoplanets to date, we know that planets bigger than Earth but smaller than Neptune orbit most stars. Oddly, our sun lacks such a planet. That’s been a source of frustration for planetary scientists, who can’t study them in as much detail as they’d like, leaving one big question: How did these planets form? 

Now we know the answer. 

An international team of astrophysicists from UCLA and elsewhere has witnessed four baby planets in the V1298 Tau system in the process of becoming super-Earths and sub-Neptunes. The findings are published in the journal Nature. 

“I’m reminded of the famous ‘Lucy’ fossil, one of our hominid ancestors that lived 3 million years ago and was one of the ‘missing links’ between apes and humans,” said UCLA professor of physics and astronomy and second author Erik Petigura. “V1298 Tau is a critical link between the star- and planet-forming nebulae we see all over the sky, and the mature planetary systems that we have now discovered by the thousands.”

Oil residues can travel over 5,000 miles on ocean debris, study finds

Petroleum residues can survive long-distance transport by adhering to floating debris, dramatically extending how far oil pollution can travel in the marine environment.
Photo Credit: Diane Buhler, Friends of Palm Beach

When oily plastic, glass, and rubber washed ashore on Florida beaches in 2020, it appeared at first to be a local mystery. But through a collaboration that paired community observations with world-leading oceanographic and chemical expertise, scientists traced the contamination across more than 5,200 miles of ocean.

In a new study published in ACS Environmental Science & Technology, researchers from Woods Hole Oceanographic Institution (WHOI) and Northeastern University, in collaboration with community scientists from Friends of Palm Beach, show that petroleum residues can survive long-distance transport by adhering to floating debris, dramatically extending how far oil pollution can travel in the marine environment.

Using advanced ocean current modeling and chemical fingerprinting developed at WHOI, the team linked the Florida debris to a massive oil spill that occurred along Brazil’s coastline in 2019.

“This study demonstrates how plastic pollution fundamentally changes the fate of oil in the ocean,” said Chris Reddy, chemical oceanographer at WHOI and a global authority on oil spill forensics. “By hitchhiking on debris, petroleum residues can persist and move far beyond what we previously believed possible.”

Sediments of the Ahr river show recurring high-magnitude flood events

The extreme summer flood of 2021 in the Ahr Valley caused catastrophic damage.   
Photo Credit: Physical Geography working group, Leipzig University

Sedimentary archives provide evidence of four extreme flood events in the last 1,500 years 

Recurring high-energy flood events are not the exception but the rule in the Ahr Valley in western Germany – and this occurs over periods of centuries to millennia. This is shown in a study published in the journal Earth Surface Processes and Landforms and led by Leipzig University, in which researchers from the Helmholtz Centre for Environmental Research (UFZ), among others, were also involved. The examined river sediments document the extreme summer flood of 2021 as well as at least three other flood events in the past 1,500 years, which – measured by sedimentological parameters – exhibited comparable intensity. The Ahr floodplain is characterized by high-energy flood deposits. Flood events of low to moderate intensity are not detectable there. 

Cardiovascular risk score predicts multiple eye diseases

Routine heart health screening tool identifies people at higher risk for age-related macular degeneration, diabetic retinopathy, glaucoma, and other vision-threatening conditions
Image Credit: Scientific Frontline / AI generated

A new study from UCLA Health shows that a cardiovascular risk score already used routinely in primary care can predict who will develop serious eye diseases years later. Researchers found that people with higher cardiovascular risk scores were significantly more likely to develop conditions including age-related macular degeneration, diabetic retinopathy, glaucoma, retinal vein occlusion, and hypertensive retinopathy. The study appears in Ophthalmology. 

Why it matters

Millions of Americans lose vision to eye diseases that often go undetected until significant damage has occurred. Early identification of at-risk individuals could enable timely screening and preventive interventions before irreversible vision loss occurs. This study demonstrates that information already collected during routine doctor visits could help identify patients who would benefit from earlier eye exams, potentially preventing blindness in high-risk individuals. The findings offer a practical way to improve eye disease prevention without requiring additional testing or specialized equipment in primary care settings.

Exposure to natural light improves metabolic health

The research team provides the first evidence of the beneficial impact of natural light on people with this condition.
Image Credit: © Loïc Metz, UNIGE AI generated

Metabolic diseases have reached epidemic proportions in our society, driven by a sedentary lifestyle coupled with circadian misalignment - a desynchrony between our intrinsic biological clocks and environmental signals. Furthermore, we spend almost 90% of our time indoors, with very limited exposure to natural daylight. To investigate the specific role of daylight in human metabolism, particularly in glycemic control, researchers from the University of Geneva (UNIGE), the University Hospitals of Geneva (HUG), Maastricht University, and the German Diabetes Center (DDZ) conducted a controlled study with thirteen volunteers with type 2 diabetes. When exposed to natural light, participants exhibited more stable blood glucose levels and an overall improvement in their metabolic profile. These results, published in the journal Cell Metabolism, provide the first evidence of the beneficial impact of natural light on people with type 2 diabetes. 

Hidden heartache of losing an animal companion

Chimmi April 09, 2010 -February 23, 2025
My best friend.
Photo Credit: Heidi-Ann Fourkiller

The emotional toll of losing a beloved pet during the COVID-19 pandemic has been revealed in an international study, revealing that grief for animals is often profound, enduring, and still widely misunderstood. 

Co-authored by Professor Damien Riggs from Flinders University and led by Professor Elizabeth Peel from Loughborough University in the UK, the research challenges the long-standing assumption that grief for animals is somehow less valid than grief for humans. 

Drawing on survey responses and interviews with 667 pet owners in the UK, the study found that the death of a pet — particularly a dog — was frequently described as heartbreaking, devastating, and in some cases, more painful than the loss of a human family member. 

Nature-inspired computers are shockingly good at math

Researchers Brad Theilman, center, and Felix Wang, behind, unpack a neuromorphic computing core at Sandia National Laboratories. While the hardware might look similar to a regular computer, the circuitry is radically different. It applies elements of neuroscience to operate more like a brain, which is extremely energy-efficient.
Photo Credit: Craig Fritz

Neuromorphic computers, inspired by the architecture of the human brain, are proving surprisingly adept at solving complex mathematical problems that underpin scientific and engineering challenges.

In a paper published in Nature Machine Intelligence, Sandia National Laboratories computational neuroscientists Brad Theilman and Brad Aimone describe a novel algorithm that enables neuromorphic hardware to tackle partial differential equations, or PDEs — the mathematical foundation for modeling phenomena such as fluid dynamics, electromagnetic fields and structural mechanics.

The findings show that neuromorphic computing can not only handle these equations, but do so with remarkable efficiency. The work could pave the way for the world’s first neuromorphic supercomputer, potentially revolutionizing energy-efficient computing for national security applications and beyond.

Research was supported by the Department of Energy’s Office of Science through the Advanced Scientific Computing Research and Basic Energy Sciences programs.

Ticking time bomb: Some farmers report as many as 70 tick encounters over a 6-month period

Some outdoor workers reported as many as 70 tick encounters over a 6-month period, according to new research led by Binghamton's Tick-borne Disease Center. Image Credit:
Photo Credit: Pablo Tapia Ossa
(CC BY-NC 4.0)

Finding one tick on your body is scary enough – tick-borne diseases are serious – but what if you found more than 10 on yourself in just one month? That’s the plight of some farmers as the threat of ticks and tick-borne diseases grows, according to new research featuring experts at Binghamton University, State University of New York.

New research led by Mandy Roome, associate director of the Tick-borne Disease Center at Binghamton University, State University of New York, reveals that farmers and outdoor workers in the Northeast are facing an escalating threat of tick-borne diseases, which could be devastating to their livelihoods.

Ticks are surging and spreading throughout the United States, causing alarm for all who fall within their path, especially those in the Northeast. Farmers, who spend a substantial amount of time outdoors, in habitats ideal for ticks, face an even greater threat.