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Science

Unsolved mystery of Russia’s missing hikers may have finally been cracked

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The mystery of the Dyatlov Pass has raised questions for over half a century.


Soviet investigators/Creative Commons

The Dyatlov Pass incident is a spooky tale most often told in hushed tones around a campfire, but this very real — and very mysterious — event has long been the subject of conspiracy theories, scientific conjecture and even a movie or two. But the truth of what drove nine experienced hikers to slash through the safety of their own tent and flee, half-dressed into the snow of the Ural mountains, has remained inconclusive for over half a century. 

That is, until now. After 62 years of speculation, scientists believe they may have figured out what happened in the Ural Mountains, all those years ago. 

Thanks to simulations, analytical models and even some borrowed Disney technology, the data indicates an impactful force of nature could very well be the conclusive answer. 

What is the Dyatlov Pass mystery?

In January 1959, a team of experienced Russian mountaineers were trekking in the Ural Mountains — at least, they were, until they perished under mysterious circumstances. 

Personal diaries and film discovered on site confirm that the team had made camp on a stretch of the slopes known as Kholat Saykhl, or “dead mountain.” However, something caused the hikers to flee in the middle of the night, cutting their way out of the tent and sprawling across the mountain — barely dressed despite subzero temperatures and a thick layer of snow.

When a search and rescue team finally found them, scattered over the pass weeks later, they discovered that while six of the hikers had died from hypothermia, the remaining three hikers had been killed by extreme physical trauma. There were body parts missing — one hiker’s eyes, another’s tongue — and severe skeletal damage to some of the skulls and chests.

The only problem? There was no convincing evidence to explain why or how this had happened. At the time, the investigators concluded only that an unknown but powerful “natural force” had compelled them to leave their tent. Conspiracies range from katabatic winds through to Yeti attack and even infrasound-induced panic, but no definitive conclusion was ever made to explain the deaths. 

Until, potentially, now.

Simulations, Disney and a potential answer

In an article published in the journal Communications Earth and Environment, researchers identified data supporting the theory that a small, impactful avalanche could have been the culprit.

It’s not the first time such a hypothesis has arisen. In fact, it was one of the first conclusions drawn — it just had no supporting evidence. In 2019, a team of Russian scientists also concluded that it was an avalanche, but the data to support the theory was once again lacking. There had been no definitive evidence of an avalanche — even a small one. The topography and snowfall levels didn’t match such an incident.

Now, however, a team from the Snow Avalanche Simulation Laboratory at the École polytechnique fédérale in Lausanne, Switzerland, has been able to use analytical models, simulations and even technology from Disney’s animation studios to explain how an avalanche may have occurred without leaving behind evidence.

Reported by National Geographic, the data indicated the avalanche would have been particularly small — perhaps as small as 16 feet of ice and snow, compacted into a solid slab. This would allow for the conditions to mask the phenomena over time, with snowfall obscuring any debris, while still creating enough of a threat to compel the hikers to slash their way out.

But it still didn’t explain the extreme trauma left on some of the bodies. To answer that question, the team looked to Disney’s Frozen. Johan Gaume, head of the laboratory, combined their simulation tools with animation models borrowed from Frozen’s creative team to analyze how the impact of the avalanche would affect the bodies.

Using the simulation, enhanced by these animation models, the team was able to conclude that the suspected avalanche could have had enough of an impact if the hikers had arranged their bedding on top of their skis, providing a rigid base upon which the force would have been exerted — crushing skulls and chests between the two hard forces.

There’s still little evidence as to what happened next, given that all the hikers were found outside the tent, but the best theory is that they then tried to escape the avalanche and rescue their injured teammates — though their injuries and the extreme temperature would eventually prove fatal. As for the missing body parts? Animal scavengers are the likely culprit.

So while the study goes a long way in explaining a possible, even likely, scenario for the deaths of the hikers on Dyatlov Pass, a lot of questions still remain. 

And those questions are inevitably going to keep conspiracy theorists busy speculating for years to come.

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Science

Mystery of Greenland’s expanding ‘dark zone’ finally solved

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The mystery of a growing “dark zone” on Greenland‘s melting ice sheet has been solved.

Researchers have found that phosphorus-rich dust blown across the ice may be the key to the phenomenon.

Greenland’s ice sheet is the second largest in the world. It covers around 656,000 square miles (1.71 million square kilometers), an area three times the size of Texas, according to the National Snow and Ice Data Center (NSIDC). However, the ice sheet is now in a state of permanent retreat and is losing 500 gigatons (500 billion tons) of ice every year, Live Science previously reported.

That’s why the dark zone is so worrisome. During the summer months, part of the western section of the ice sheet turns from brilliant white to inky gray as algae bloom across the surface. Since 2000, these blooms have gotten bigger, causing the dark zone to expand, according to a statement by the researchers

The darker color of the ice reduces its albedo — the amount of sunlight it reflects back to space — and causes the ice sheet to absorb more heat. However, until now, what triggers these algal blooms has remained a mystery.

Related: 10 signs that Earth’s climate is off the rails

“We see a lot of variability in the blooms that form on the ice-sheet surface,” said Jenine McCutcheon, a microbiologist at the University of Waterloo in Ontario and lead author of the new study describing the findings. “We wanted to better understand what causes their growth,” she told Live Science.

 Understanding the algal blooms

During the Arctic’s sunless winter months, the ice algae — primarily made up of Ancylonema nordenskioeldii and species in the Mesotaenium genus — remain in a dormant state deep within the ice. During spring, as the ice melts, these algae slowly migrate to the surface. When they reach the surface, the Arctic summer provides 24-hour sunlight for photosynthesis and growth. The algae are normally green, but when exposed to constant sunlight, they create dark-colored sunscreens to protect themselves from damaging ultraviolet rays. This is what darkens the ice and, ironically, causes it to absorb more sunlight.

(Image credit: Jim McQuaid)

But sunlight alone didn’t seem enough to cause the expansive blooms the researchers were seeing.

After the researchers analyzed samples they collected from the surface, “it became clear phosphorus was the most important nutrient to the algae,” study co-author Jim McQuaid, a climate scientist at the University of Leeds in England, told Live Science. “We then found that it was originating locally.”

In Greenland, the phosphorus comes from hydroxylapatite — a phosphate mineral that also contains calcium, oxygen and hydrogen — that gets blown across the ice as dust from exposed rocky outcrops. 

“As the atmosphere gets warmer due to climate change, the exposed rock becomes drier and winds get stronger,” McQuaid said. “This means more dust is transported across the ice.”

Melting ice in the area also uncovers more hydroxylapatite-rich rocks, thus increasing the available phosphorus. So the algal blooms are part of a positive feedback loop: The increased ice melting leads to a higher phosphorus input, which spurs the algal growth that, in turn, further increases the ice melting.

“This type of thing will continue to happen in the future; there’s no doubt in my mind,” McQuaid said, referring to the accelerated melting.

 However, now that scientists fully understand the dark zone phenomenon, they can more accurately predict how fast the Greenland ice sheet will melt.

“If we can measure the amount of phosphorus that’s in the environment, it may be possible to translate that to an estimate of algal growth and allow us to better monitor the rate of ice melting,” McCutcheon said.

The study was published online Jan. 25 in the journal Nature Communications.

Originally published on Live Science.

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Entertainment

Gigi Hadid Finally Reveals Name of Her and Zayn Malik’s Baby Girl

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The wait is over!

Gigi Hadid and Zayn Malik just revealed the name of their newborn baby girl. Introducing… Khai!

Gigi debuted the unique moniker in a very subtle way—by adding “khai’s mom” to her Instagram bio on Jan. 21. 

The supermodel shared the news exactly four months after announcing their daughter’s arrival. “Our baby girl is here, healthy & beautiful,” Zayn wrote in a Sept. 23 tweet. “To try put into words how i am feeling right now would be an impossible task.”

“The love i feel for this tiny human is beyond my understanding,” he added. “Grateful to know her, proud to call her mine, & thankful for the life we will have together x.”

Hours later, Gigi posted another glimpse of the couple’s daughter. “Our girl joined us earth-side this weekend and she’s already changed our world,” the 25-year-old wrote. “So in love.”

In the months since, Gigi has kept fans up to date on her motherhood experience, all while sticking to their commitment to privacy. Shortly after Khai’s birth, a source told E! News that Gigi and Zayn planned to stay at her mom Yolanda Hadid‘s Pennsylvania farm for the foreseeable future. 

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Science

A Horrible Condition Turning Starfish Into Goo Has Finally Been Identified

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In 2013, the lives of millions of sea stars were mysteriously extinguished. Limbs that were once strong, probing arms searching for sustenance, shrivelled and tore themselves away from the rest of their bodies and melted into a sickly goo.

 

“There were arms everywhere,” ecologist Drew Harvell told The Atlantic‘s Ed Yong last year. “It looked like a blast zone.”

The dismal remains of these animals, who are usually capable of regenerating their own limbs, were strewn along the entire West Coast of North America, in one of the largest mass wildlife mortality events ever recorded. Over 20 species of sea stars were perishing.

In some areas, sunflower star (Pycnopodia helianthoides) populations dropped by an average of around 90 percent in weeks, a loss that saw this once common and abundant species vanish from most of its range in just a few years.

The culprit causing this sea star wasting (SSW) even got to starfish in captivity, killing individual animals within days.

Leg of Pisaster ochraceus disintegrating from sea star wasting syndrome. (Elizabeth Cerny-Chipman/Oregon State University/CC BY-SA 2.0)

This led scientists to suspect some sort of pathogen, like a virus or bacterium, was infecting these stunning sea creatures. However, subsequent studies exonerated the lead viral suspect.

Meanwhile, more sea star deaths followed around the globe, including half a world away in Port Phillip Bay, Australia.

 

Now, San Francisco State University marine biologist Citlalli Aquino and colleagues have finally unravelled the mystery, showing something much more complicated was going on. 

By comparing the types of bacteria within healthy sea stars and those suffering from the wasting disease, the researchers found bacteria that thrive in low oxygen environments were abundant in the sick animals, as were copiotrophs – bacteria that like high-nutrient environments.

Experiments back in the lab confirmed that depleting water of oxygen caused tissue-melting lesions in 75 percent of sea stars. Adding excess nutrients or phytoplankton to the water also caused the sea star’s health to decline.

Re-analysing tissue samples from the 2013 event, the researchers detected excess nitrogen – a sign these animals suffocated to death. 

“Sea stars diffuse oxygen over their outer surface through little structures called papulae, or skin gills,” explained Cornell University marine microbiologist Ian Hewson. “If there is not enough oxygen surrounding the papulae, the starfish can’t breathe.”

These microorganisms aren’t directly causing disease, but stealing the sea stars’ oxygen supply when increased levels of organic matter are triggering the microbes to bloom. As a result, the sea stars literally drown in their own environment. Then their decaying bodies further increase nutrients for the microbes, creating a horrible feedback loop of sea star death.

 

Aquino and team noted most SSW events are reported in late fall or summer, when phytoplankton that increase levels of nutrients in the water via photosynthesis are more abundant.

Warmer temperatures are known drivers of phytoplankton blooms, and the sea star wasting event in Australia followed the longest and most intense heat wave on record. Sea star wasting events elsewhere have also followed increased sea temperatures.

“Warmer waters can’t have as much oxygen [compared with colder water] just by physics alone,” Hewson told Erin Garcia de Jesus at Science News.

None of this bodes well for our future on a warming planet.

University of Vermont biologist Melissa Pespeni, who was not involved in the study, told Science News this complicated tangle of biological and environmental factors is “a new kind of idea for [disease] transmission.”

Devastating repercussions from the loss of these precious stars of the sea have already echoed out across entire ecosystems. The sunflower star is a voracious predator with up to 24 arms that span as far as 1 metre (3.3 ft), feeling their way across the seafloor for sea urchins, snails, and other invertebrates to devour.

Without the sunflower and other sea stars keeping sea urchins in check, these herbivores are eating their way through giant kelp forests. By 2016, sea urchins had already reduced kelp populations by 80 percent in some areas, decimating these once thriving underwater forests.

“This is a very clear example of a trophic cascade, which is an ecological domino effect triggered by changes at the end of a food chain,” said Simon Fraser University marine ecologist Isabelle Côté, who investigated the environmental aftermath last year. 

“It’s a stark reminder that everything is connected to everything else.”

This research was published in Frontiers in Microbiology.

 

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