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Microbial Life Colonizes Post-Impact Craters And Thrives For Millions Of Years
78 million years ago, a 1.6 km asteroid slammed into what is now Finland, creating a crater 23 km (14 mi) wide and 750 km deep. The catastrophic impact created a fractured hydrothermal system in the shattered bedrock under the crater. There’s evidence from other impact structures that in the aftermath of a collision, life colonized the shattered rock and heated water that flowed through it. But determining when the colonization happened is challenging.
New research shows for the first time exactly when that colonization happened. A team of researchers has zeroed in on the date that microbial life populated the hydrothermal system under the 78 million year old Lappajärvi impact structure.
Their research is titled “Deep microbial colonization during impact-generated hydrothermal circulation at the Lappajärvi impact structure, Finland” and is published in Nature Communications. Jacob Gustafsson, a PhD student at Linnaeus University in Sweden, is the first author.
“This is incredibly exciting research as it connects the dots for the first time.” – Dr. Gordon Osinski, Western University, Canada.
“Deeply fractured rocks of meteorite impact structures have been hypothesized as hot spots for microbial colonization on Earth and other planetary bodies,” the authors write. “Biosignatures of such colonization are rare, however, and most importantly, direct geochronological evidence linking the colonization to the impact-generated hydrothermal systems are completely lacking.”
Illustration of new research findings in the Lappajärvi crater, Finland, where traces of ancient life have been discovered in the crater’s fractures. The magnified section highlights the blue-marked fracture zones where microbial signatures have been identified. Image Credit: Henrik Drake, Gordon Osinski
The discovery is based on sulphite reduction. Some microbes employ an anaerobic respiratory process that uses sulfate to accept electrons rather than oxygen. It’s a fundamental process that contributes to Earth’s global sulfate and carbon cycles. Basically, microbes break down organic compounds as an energy source and reduce sulfate to hydrogen sulfide.
The researchers used powerful, cutting-edge isotopic biosignature analysis and radioisotopic dating to trace microbial sulfate reduction in minerals and fractures in the hydrothermal system under the crater.
“This is the first time we can directly link microbial activity to a meteorite impact using geochronological methods. It shows that such craters can serve as habitats for life long in the aftermath of the impact,” says Henrik Drake, a professor at Linnaeus University, Sweden, and senior author of the study.
“The first detected mineral precipitation at habitable temperatures for life (47.0 ± 7.1 °C) occurred at 73.6 ± 2.2 Ma and featured substantially 34S-depleted pyrite consistent with microbial sulfate reduction,” the authors explain in their research.
This figure shows some of the findings. The pyrite is of particular interest. The 34Sulfur-depleted pyrite is consistent with microbial sulfate reduction. It formed about five million years after the impact when the hydrothermal system had cooled to temperatures that were habitable for life. The calcite is another powerful biosignature, and it appeared 10 million years post-impact, indicating that microbes thrived here for millions of years. Image Credit: Gustafsson et al. 2025 NatComm
“What is most exciting is that we do not only see signs of life, but we can pinpoint exactly when it happened. This gives us a timeline for how life finds a way after a catastrophic event” says Jacob Gustafsson, PhD student at Linnaeus University and first author of the study.
More evidence of microbial colonization appears about 10 million years post-impact as the temperature continued to gradually decrease. Minerals precipitated into vugs, which is a geological term for cavities lined with mineral crystals. These minerals feature 13 Calcite, which forms in association with microbial sulfate reduction. It’s a powerful and convincing biosignature that strengthens the findings. At 10 million years post-impact, these minerals are further evidence that microbes thrived for a long time in the hydrothermal system.
Co-author Dr. Gordon Osinski, from Western University in Canada, said “This is incredibly exciting research as it connects the dots for the first time. Previously, we’ve found evidence that microbes colonized impact craters, but there has always been questions about when this occurred and if it was due to the impact event, or some other process millions of years later. Until now.”
These findings open a window into how life might get started on habitable worlds. Asteroids are known to carry the basic building blocks of life, including amino acids. It’s possible they not only spread these materials throughout solar systems and galaxies in accordance with panspermia, but that they also create a ready-made home for life to gain a foothold in. The research also shows how life can rebound after a catastrophic impact that could overwhelm a biosphere.
The researchers say that the microbial colonization of the Lappajärvi impact structure is an analog for the emergence of life on early Earth, and even on Mars. Their methods of analysis can be used to study the microbial colonization of other impact structures on Earth. Beyond that, they’re also applicable to any sample return missions from Mars or other bodies.
“These insights confirm the capacity of medium-sized (and large) meteorite impacts to generate long-lasting hydrothermal systems, enabling microbial colonization as the crater cools to ambient conditions, an effect that may have important implications for the emergence of life on Earth and beyond,” the authors conclude.
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Does Space Speed Up Ageing? A New Study Says Yes!
Could a trip to Mars leave an astronaut’s liver looking decades older than it should? Researchers at the University of Central Florida believe they may have found exactly that, and the implications reach far beyond the astronauts themselves.
Led by Professor Michal Masternak, the team set out to understand what prolonged exposure to microgravity and cosmic radiation actually does to the body at a molecular level. Rather than waiting years for natural ageing to unfold, they built a simulated deep space environment in the laboratory, exposing animal models to fourteen days of simulated microgravity alongside doses of galactic cosmic radiation and solar particle events designed to mirror what astronauts would encounter on a journey to Mars.

A classic anatomical illustration of the human liver, the organ at the centre of the UCF team’s findings. Its central role in metabolism makes it especially sensitive to physiological stress, which is exactly why researchers chose it as their focus (Credit : Henry Vandyke Carter)
Within just twenty four hours of radiation exposure, the liver showed a wave of genetic changes strikingly similar to those seen during the natural ageing process. The organ displayed increased cellular senescence, a state in which cells lose their normal function, alongside rising inflammation and fibrosis, changes that, left unchecked, can eventually push an organ toward failure. Masternak’s team focused specifically on the liver because of its central role as one of the body’s key metabolic organs, making it a particularly sensitive early indicator of wider physiological stress.
What makes the findings especially compelling is that they didn’t stop at the laboratory model. The researchers compared their results against real human data, drawn from blood samples collected during NASA’s famous Twins Study and from the civilian Inspiration4 mission. The genetic signatures lined up. That overlap between simulated exposure and actual astronaut biology gives the team confidence that they have identified genuine, meaningful biological targets rather than a laboratory curiosity.
The team pushed the research a step further still, identifying a class of molecules called antagomirs, capable of interacting with the body’s microRNA to influence several of the genetic pathways involved in both ageing and inflammation. It is early stage work, but it points toward a possible future where astronauts on long duration missions could be given targeted protection against this accelerated cellular damage.

Identical twins Scott and Mark Kelly gave NASA a unique way to study spaceflight’s effects on the body, real data the UCF team used to test their own findings against (Credit : NASA)
There is a broader payoff here too, one that reaches well beyond spaceflight. Studying ageing on Earth is notoriously slow, often requiring decades of observation in human subjects. Space, with its harsh combination of radiation and weightlessness, appears to compress that timeline dramatically, offering researchers a rare opportunity to watch the ageing process unfold in a matter of days and weeks rather than a human lifetime. Insights gained this way could eventually feed back into therapies here on the ground, aimed at preserving organ function and slowing age related disease in everyone, not just those who leave the atmosphere.
Masternak is careful to frame ageing as something far more complex than surface level change. It is, in his words, “the gradual and cascading failure of multiple organs and systems happening together,“ and understanding where that cascade begins may be one of the most important open questions in medicine today.
As missions to the Moon and Mars edge closer to reality, this research is a reminder that protecting astronauts and understanding human ageing may turn out to be two sides of exactly the same problem, one that space may help us solve faster than we ever could down here alone.
Source : New UCF Study Links Microgravity, Space Radiation to Accelerated Aging
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California man’s hand blown off while cleaning up Fourth of July fireworks
It was an ordinary day in Crescent City.
Jason Turner and his girlfriend were taking a stroll on Point St. George Beach, picking up leftover Fourth of July fireworks debris along the way, when they noticed a shiny box with nails sticking out of it.
“He went down to pick it up, and I was like, ‘No,’ and then that was the last thing I remembered,” said Pamala Ganfield, 40.
The firework-like explosive blew up in Turner’s hand, causing injuries so severe he lost his left hand and a major part of his arm.
Ganfield described the ordeal as a scene straight out of a horror movie.
“It looked like something out of a murder scene, the way he was bleeding and the way that his hand was gushing,” she said.
Capt. Kyle Stevens of the Del Norte County Sheriff’s Office told the San Francisco Chronicle that the office believed the roughly 6-inch-long object was a homemade firework. Authorities were informed of the explosion around 4 p.m. Sunday, and when they arrived they found Turner in a parking lot.
The Sheriff’s Office did not respond Wednesday to a request for comment from The Times.
The 44-year-old was taken to Sutter Coast Hospital in Crescent City, Stevens told the Chronicle, and is now at UC Davis Medical Center in Sacramento.
In addition to losing his hand, Turner is experiencing vision and hearing loss, and it’s unknown whether his senses will fully return.
Ganfield said she wasn’t hurt and is prioritizing Turner’s recovery.
“When everything calms down and slows down a little bit, I need to get my hearing checked out,” Ganfield said.
The oldest of Turner’s five children, 24-year-old Ashley, has taken on more responsibility to help care for the family as her father recovers.
“It’s just been around-the-clock calls, around-the-clock updates. It just doesn’t stop,” she said.
She added that she’s grateful Ganfield was with her father at the time.
“I just couldn’t imagine being right there and watching that happen, and she saved his life,” she said.
Ganfield said there was a flash, similar to when a grenade goes off in a film.
She went straight into action. She told The Times she remembers screaming and crying and being completely horrified. She also recalls Turner telling her he needed a tourniquet.
“As he was literally saying that, I was ripping my shirt off because the blood was coming — like, just squirting out of his hand, like a bottle or something,” Ganfield said. “It was so crazy.”
Turner’s family members describe him as an extremely hardworking and selfless person.
He is the provider for the family, and has two children in high school and a son studying mechanical engineering at Fresno City College whom he is supporting financially.
Ashley Turner resides in Visalia, where she’s working as a pharmacy technician.
Although she lives on her own now, she recalls a very warm childhood and has fond memories of her dad doing everything in his power to make sure his loved ones were happy. He is the “rock” of the family, she said.
“He didn’t have the money to do stuff, but he made sure we did everything,” she said. “We did all the sports we wanted to. We did all the fun stuff we wanted to. We had all the new stuff we wanted.”
Growing up, she said, the family celebrated the Fourth of July each year and would light fireworks in their yard. Now she’s worried about what the future holds.
“When I have my kids, how is he gonna play with my kids?” she said. “Is he gonna be able to do the father-daughter dance without his arm?”
Jason Turner is a heavy-equipment operator and logger, and his family is unsure if he’ll be able to go back to work.
“He’s been working my whole life,” Ashley Turner said. “I’ve never not seen him doing anything hard, and I don’t know how he’s now not gonna be able to do it.”
One of the most concerning things about the situation is that someone left such an explosive just lying around.
“There’s no need to mess around with an illegal explosive,” Turner said. “There is no need to leave it lying on the beach.”
Ganfield echoed the sentiment.
“I’m not even sure why somebody would leave something like that on the beach for somebody to find,” she said.
Ashley Turner said the doctors had told her family that her father was recovering quickly and, with hope, would get to go home after two more surgeries.
Though Ganfield said she’s grateful his injuries weren’t even more severe, the trauma is enough to last a lifetime.
“The way his hand was open, it literally looked like it split open like a banana,” Ganfield said. “I am extremely thankful that he is here today because it could have been a lot worse.”
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