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Science

Dust From Asteroid That Ended Dinosaur Reign Closes Case on Impact Extinction Theory

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Having dominated the planet’s surface for hundreds of millions of years, dinosaur diversity came to a dramatic conclusion some 66 million years ago at the hot end of an asteroid impact with what is today Mexico’s Yucatán Peninsula.

 

It’s a theory so swollen with data that it’s hard to imagine any room for doubt remains that this is indeed what happened. Were it a cold case, it’d be rubber-stamped and filed under ‘Solved’ by now.

But scientists are a nitpicky bunch, and a tiny gap in the chain of evidence linking signs of a global apocalypse with the scene of the crime has been begging to be closed.

An international team of researchers collaborating on a study of material from the Yucatán Peninsula’s famous Chicxulub impact crater has finally matched the chemical signature of meteoritic dust within its rock with that of the geological boundary representing the dinosaur extinction event.

It appears to be a clear sign that the thin blanket of dust deposited on Earth’s crust 66 million years ago originated from an impact event at this very spot.

“We are now at the level of coincidence that geologically doesn’t happen without causation,” says geoscientist Sean Gulick from the University of Texas in the US.

Together with fellow geoscientist Joanna Morgan from Imperial College London, Gulick led an expedition in 2016 to retrieve a sample of shattered rock from more than half a kilometre into the crater’s peak ring.

 

Four different laboratories carried out measurements on the sample. The results not only help unite a major transition in the fossil record with the site, they also hint at a timeline that supports a rapid drop in dinosaur populations over as little as a decade or two.

“If you’re actually going to put a clock on extinction 66 million years ago, you could easily make an argument that it all happened within a couple of decades, which is basically how long it takes for everything to starve to death,” says Gulick.

Half a century ago, the question of why the diversity of fossils representing the Mesozoic era came to such an abrupt end in the geological record was an open one. Whatever was responsible for the sudden loss of 75 percent of life on Earth, it had to be relatively quick, and global.

Hypotheses of such cataclysmic violence were mostly centred on two possibilities – one emerging from underground as a surge of volcanic activity, the other from above in the form of a comet or asteroid strike radically disrupting global climate.

 

In 1980, American physicist Luis Alvarez and his son, a geologist named Walter, published a study on a thin layer of sediment dividing the dinosaur-populated Cretaceous period from the post-dinosaur world of the Palaeogene.

A defining characteristic of this millimetre- to centimetre-thick thin strip of sedimentary rock was an unusually high amount of the element iridium, a metal that isn’t found in abundance in Earth’s crust.

One place you will find plenty of iridium is in meteorites. So Alvarez and son’s discovery marked the first solid piece of evidence that something from space splattered its remains all over the planet at the time dinosaur biodiversity took a dive.

Coincidentally, the site of that colossal collision was the focus of ongoing research around the same time, though making a clear connection between the 180- to 200-kilometre-long (112- to 125-mile) scar at the southern edge of the Gulf of Mexico with the killer asteroid wouldn’t happen until the 1990s.

Since then, evidence in support of an asteroid impact has only grown stronger, with models going so far as to suggest the angle, as well as the location of the Chicxulub impact, played crucial roles in the magnitude of the extinction event.

Signs that a zone of intense geological activity in western India called the Deccan Traps was contributing vast amounts of greenhouse gases at the time meant the volcano hypothesis has never been entirely ruled out, at least as a possible contributing factor.

Whether this tectonic hotspot played any role in the famous extinction event, or even helped biodiversity recover from it after, is still up for debate.

What is no longer a point of serious discussion is whether the 12-kilometre-wide chunk of rock that struck off the coast of what is now Mexico roughly 66 million years ago is the same one that dusted the remains of countless dinosaurs.

“The circle is now finally complete,” says study leader Steven Goderis, a geochemist from the Vrije Universiteit Brussel in Belgium.

Case closed.

This research was published in Science Advances.

 

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World

The thylacine remains extinct, but we still have pademelons

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There was some excitement online yesterday as word spread that a family of thylacines was potentially caught on camera. The thylacine, also known as the Tasmanian tiger, was declared extinct decades ago, so a confirmed sighting would certainly be cause for celebration. Unfortunately, wildlife biologist Nick Mooney at the Tasmanian Museum and Art Gallery (TMAG) reviewed the photos and determined “the animals are very unlikely to be thylacines, and are most likely Tasmanian pademelons,” according to a spokesperson.

This isn’t the first time a possible thylacine has turned out to be a pademelon or a mangy fox. While there have been reported sightings of thylacines, none have been confirmed since 1936. According to TMAG, the museum “regularly receives requests for verification from members of the public who hope that the thylacine is still with us.”

As seen in this 1935 video of Benjamin, the last captive thylacine, the animals had several distinguishing characteristics, including striped rumps and stiff tails. Still, it’s not hard to imagine a hopeful observer seeing thylacines in photos of other animals.

As we mourn the thylacine once again, we can also appreciate the still-living Tasmanian pademelon. The small, bushy-furred nocturnal wallabies were once part of the carnivorous thylacine’s diet. They’re now extinct in mainland Australia but are still thriving in Tasmania, and their continued existence deserves some celebration.

Take a moment to feast your eyes on the magnificence of these (verified) photos and videos of pademelons. Enjoy!

A pademelon and her wee baby saying hello.
Photo by Dave Watts / Gamma-Rapho via Getty Images

A pademelon possibly having an identity crisis.
Photo by Gilles Martin / Gamma-Rapho via Getty Images



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Technology

Mysterious macOS malware discovered with M1 optimization, threat remains unclear

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Security researchers have discovered a previously undetected piece of malware affecting Mac users around the world, including the new M1-powered Macs. Red Canary researchers say that this “Silver Sparrow” malware forces infected Macs to check a control sever once per hour, but the actual threat remains a mystery.

As reported by Ars Technica, the researchers have yet to observe an actual “delivery of any payload” on the infected machines. Therefore, the ultimate goal of this malware is unknown. “The lack of a final payload suggests that the malware may spring into action once an unknown condition is met,” the repot explains.

The malware also comes with its own “self-destruct” mechanism, but there’s no evidence that it has yet been used. Silver Sparrow has been found found on 29,139 macOS endpoints around the world:

The malicious binary is more mysterious still, because it uses the macOS Installer JavaScript API to execute commands. That makes it hard to analyze installation package contents or the way that package uses the JavaScript commands.

The malware has been found in 153 countries with detections concentrated in the US, UK, Canada, France, and Germany. Its use of Amazon Web Services and the Akamai content delivery network ensures the command infrastructure works reliably and also makes blocking the servers harder.

The Silver Sparrow malware also runs natively on Apple’s M1 chip. This makes it the second piece of malware discovered that is optimized for Apple Silicon, with the first coming earlier this week. This doesn’t mean that M1 Macs are specifically targeted, but the malware can equally affect M1 Macs and Intel Macs.

Optimization for the M1 chip combined with things like the infection rate and maturity is what worries Red Canary researchers:

“Though we haven’t observed Silver Sparrow delivering additional malicious payloads yet, its forward-looking M1 chip compatibility, global reach, relatively high infection rate, and operational maturity suggest Silver Sparrow is a reasonably serious threat, uniquely positioned to deliver a potentially impactful payload at a moment’s notice. Given these causes for concern, in the spirit of transparency, we wanted to share everything we know with the broader infosec industry sooner rather than later.”

Again, so far researchers haven’t yet found that the binary does anything — but it’s a threat that looms. You can read more on the Red Canary blog post right here.

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