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Science

Mysterious stripes spotted over Russia in satellite images — and NASA is perplexed

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Near the Markha River in Arctic Siberia, the earth ripples in ways that scientists don’t fully understand.

Earlier this week, NASA researchers posted a series of satellite images of the peculiar wrinkled landscape to the agency’s Earth Observatory website. Taken with the Landsat 8 satellite over several years, the photos show the land on both sides of the Markha River rippling with alternating dark and light stripes. The puzzling effect is visible in all four seasons, but it is most pronounced in winter, when white snow makes the contrasting pattern even more stark.

Why is this particular section of Siberia so stripy? Scientists aren’t totally sure, and several experts offered NASA conflicting explanations.

Related: Earth’s 8 biggest mysteries

One possible explanation is written in the icy ground. This region of the Central Siberian Plateau spends about 90% of the year covered in permafrost, according to NASA, though it occasionally thaws for brief intervals. Patches of land that continuously freeze, thaw and freeze again have been known to take on strange circular or stripy designs called patterned ground, scientists reported in a study published in January 2003 in the journal Science. The effect occurs when soils and stones naturally sort themselves during the freeze-thaw cycle.

The stripes covering a portion of the Central Siberian Plateau vary by season. (Image credit: NASA Earth Observatory)

However, other examples of patterned ground — such as the stone circles of Svalbard, Norway — tend to be much smaller in scale than the stripes seen in Siberia.

Another possible explanation is erosion. Thomas Crafford, a geologist with the U.S. Geological Survey, told NASA that the stripes resemble a pattern in sedimentary rocks known as layer cake geology.

These patterns occur when snowmelt or rain trickles downhill, chipping and flushing pieces of sedimentary rock into piles. The process can reveal slabs of sediment that look like slices of a layer cake, Crafford said, with the darker stripes representing steeper areas and the lighter stripes signifying flatter areas.

In accordance with the image above, this sort of sedimentary layering would stand out more in winter, when white snow rests on the flatter areas, making them appear even lighter. The pattern fades as it approaches the river, where sediment gathers into more uniform piles along the banks after millions of years of erosion, Crafford added.

This explanation seems to fit well, according to NASA. But until the region can be studied up close, it’ll remain another one of those quintessentially Siberian curiosities.

Originally published on Live Science.

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Technology

Pokémon Platinum Content Spotted In Diamond And Pearl Remake Trailer

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It’s official, The Pokémon Company has announced Pokémon Brilliant Diamond and Shining Pearl are arriving this year.

The PR describes how the Nintendo DS originals have been faithfully reproduced. There are also a number of updates, including easy-to-understand and player-friendly conveniences.

All of this has got fans wondering if the content from the third version, Pokémon Platinum, will feature. According to a Twitter user known as ‘voltimer’, there’s a good chance it will, based on the reveal trailer:

As can be seen above, there’s apparently an extra NPC in the Platinum version of Floaroma Town that also features in the Switch version. This character gives you Gracidea if you have Shaymin on hand.

It’s also considered as “more concrete evidence” than the appearance of Porygon-Z in the Switch trailer – which appears in Diamond and Pearl’s post-game.

What do you make of all this? Think it’s a sign of Platinum Version content in the remakes? Leave a comment down below.



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Science

Mysterious stripes spotted over Russia in satellite images — and NASA is perplexed

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Near the Markha River in Arctic Siberia, the earth ripples in ways that scientists don’t fully understand.

Earlier this week, NASA researchers posted a series of satellite images of the peculiar wrinkled landscape to the agency’s Earth Observatory website. Taken with the Landsat 8 satellite over several years, the photos show the land on both sides of the Markha River rippling with alternating dark and light stripes. The puzzling effect is visible in all four seasons, but it is most pronounced in winter, when white snow makes the contrasting pattern even more stark.

Why is this particular section of Siberia so stripy? Scientists aren’t totally sure, and several experts offered NASA conflicting explanations.

Related: Earth’s 8 biggest mysteries

One possible explanation is written in the icy ground. This region of the Central Siberian Plateau spends about 90% of the year covered in permafrost, according to NASA, though it occasionally thaws for brief intervals. Patches of land that continuously freeze, thaw and freeze again have been known to take on strange circular or stripy designs called patterned ground, scientists reported in a study published in January 2003 in the journal Science. The effect occurs when soils and stones naturally sort themselves during the freeze-thaw cycle.

The stripes covering a portion of the Central Siberian Plateau vary by season. (Image credit: NASA Earth Observatory)

However, other examples of patterned ground — such as the stone circles of Svalbard, Norway — tend to be much smaller in scale than the stripes seen in Siberia.

Another possible explanation is erosion. Thomas Crafford, a geologist with the U.S. Geological Survey, told NASA that the stripes resemble a pattern in sedimentary rocks known as layer cake geology.

These patterns occur when snowmelt or rain trickles downhill, chipping and flushing pieces of sedimentary rock into piles. The process can reveal slabs of sediment that look like slices of a layer cake, Crafford said, with the darker stripes representing steeper areas and the lighter stripes signifying flatter areas.

In accordance with the image above, this sort of sedimentary layering would stand out more in winter, when white snow rests on the flatter areas, making them appear even lighter. The pattern fades as it approaches the river, where sediment gathers into more uniform piles along the banks after millions of years of erosion, Crafford added.

This explanation seems to fit well, according to NASA. But until the region can be studied up close, it’ll remain another one of those quintessentially Siberian curiosities.

Originally published on Live Science.

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Entertainment

Shailene Woodley Spotted After Aaron Rodgers Engagement News

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Future bride Shailene Woodley has been spotted. 

Less than a week after Aaron Rodgers broke the news that he’s engaged—and E! News later confirmed Woodley is who he is set to marry—the Big Little Lies alum was photographed in Montreal, marking her first public sighting since the announcement. Unfortunately for curious fans, Woodley did not appear to be wearing an engagement ring when she was photographed during the Feb. 11 outing.

Bundled up in a black coat, carrying a bag and concealing half her face with a mask, the 29-year-old actress arrived on to the set of her upcoming movie, Misanthrope. The Damián Szifron-directed thriller, in which she is starring and co-producing, tells the story of a cop recruited by the FBI to track down a murderer. Ben Mendelsohn and Jovan Adepo have also been cast in the film. 

While Woodley is currently at work in another country, a source shared with E! News, “They can’t wait to get married and they want it to happen soon.”

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Science

Most distant object in our solar system spotted. But it’s not Planet Nine.

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Astronomers have identified the most distant known object in our solar system —  a dwarf planet nicknamed Farfarout that orbits far beyond Pluto. This remote mini-planet swings so far away from the sun that from Farfarout’s perspective Earth and Saturn look like neighbors. 

With an orbit that’s an average of 132 times the distance between Earth and the sun, or 132 astronomical units (AU), it beats “Farout,” the previous record holder for most-distant solar object; Farout orbits the sun at an average of 124 A.U. Farfarout’s technical name is 2018 AG37, and it will likely get an official name as a dwarf planet down the road. 

While this space rock is big enough to take the classification “dwarf planet” and far, far out in the solar system, it’s nowhere near massive enough to be Planet 9, the theoretical object astronomers were searching for when they found it. Planet 9 is believed to orbit well beyond Neptune, if it exists, and have a mass many times that of Earth’s that has allowed it to stretch and warp the orbits of other outer-solar system objects with its gravity. Farfarout doesn’t have the bulk to account for that stretching and warping.

Related: 5 reasons to care about asteroids

To get a sense of just how far away 132 AU is, consider the vast distance between Earth and Mars. As Live Science has reported, even during ideal conditions using a current NASA rocket the journey between the two planets would take months. But Mars orbits just 1.524 AU from the sun. Seen from Farfarout, the journey between Earth and Mars would look the same as a flight from Miami to Albuquerque would look to an observer on the moon.

Farfarout doesn’t just hang out at 132 AU, however.

“A single orbit of Farfarout around the sun takes a millennium,” David Tholen, an astronomer at the University of Hawaii and co-discoverer of Farfarout, said in a statement. “Because of this long orbital, it moves very slowly across the sky, requiring several years of observations to precisely determine its trajectory.”

Two years of observations have revealed that Farfarout’s path around the sun creates a long ellipse. At its closest, Farfarout plunges to a mere 24 AU from the sun, closer to the sun than the orbits of Pluto and Neptune. But at its farthest, it reaches deep into space, 175 AU from the sun. That’s about 0.06% of the journey to the nearest star.

The researchers estimate that Farfarout is about 25 miles (400 km) wide, which would make it among the smallest of the dwarf planets. It’s likely, the researchers said, that more such objects will turn up as technology for detecting dim, distant rocks improves and researchers continue hunting for the mysterious Planet Nine.

Originally published on Live Science.

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Science

Potentially habitable exoplanet candidate spotted around Alpha Centauri A in Earth’s backyard

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The nearest solar system to our own may actually host two potentially life-supporting planets, a new study reports.

In 2016, scientists discovered a roughly Earth-size world circling Proxima Centauri, part of the three-star Alpha Centauri system, which lies about 4.37 light-years from Earth. The planet, known as Proxima b, orbits in the “habitable zone,” the range of distances from a star at which liquid water could exist on a world’s surface. (A second planet, Proxima c, was later discovered circling the star as well, but it orbits farther away, beyond the habitable zone’s outer limits.)

There’s considerable debate about the true habitability of Proxima b, however, given that its parent star is a red dwarf. These stars, the most common in the Milky Way, are small and dim, so their habitable zones lie very close in — so close, in fact, that planets residing there tend to be tidally locked, always showing the same face to their host stars, just as the moon always shows Earth its near side. In addition, red dwarfs are prolific flarers, especially when they’re young, so it’s unclear if their habitable-zone worlds can hold onto their atmospheres for long.

Proxima b: Closest Earth-like planet discovery in pictures

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The other two stars in the Alpha Centauri trio, however, are sunlike — a pair called Alpha Centauri A and B, which together make up a binary orbiting the same center of mass. And Alpha Centauri A may have its own habitable-zone planet, according to the new research, which was published online today (Feb. 10) in the journal Nature Communications.

The study presents results from Near Earths in the Alpha Cen Region (NEAR), a $3 million project led by the European Southern Observatory (ESO) and Breakthrough Watch, a program that hunts for potentially Earth-like worlds around nearby stars.

NEAR has been searching for planets in the habitable zones of Alpha Cen A and B using ESO’s Very Large Telescope (VLT) in Chile. The NEAR team upgraded the VLT with several new technologies, including a thermal coronagraph, an instrument designed to block a star’s light and allow the heat signatures of orbiting planets to be spotted. 

After analyzing 100 hours of data gathered by NEAR in May and June of 2019, the scientists detected a thermal fingerprint in the habitable zone of Alpha Centauri A. The signal potentially corresponds to a roughly Neptune-size world orbiting between 1 and 2 astronomical units (AU) from the star, study team members said. (One AU, the average Earth-sun distance, is about 93 million miles, or 150 million kilometers.)

But that planet has not yet been confirmed, so it remains a candidate for now.

“We were amazed to find a signal in our data. While the detection meets every criteria for what a planet would look like, alternative explanations — such as dust orbiting within in the habitable zone or simply an instrumental artifact of unknown origin — have to be ruled out,” study lead author Kevin Wagner, a Sagan Fellow in NASA’s Hubble Fellowship Program at the University of Arizona, said in a statement. 

“Verification might take some time and will require the involvement and ingenuity of the larger scientific community,” Wagner added.

Study co-author Pete Klupar said he hopes the new results will inspire astronomers to study the Alpha Centauri system in greater detail, both via new observing programs and closer scrutiny of archived data, which may hold as-yet unrecognized evidence of the exoplanet candidate. 

“It’s like getting a hint in [the board game] Clue,” Klupar, a researcher with Breakthrough Watch’s parent organization, Breakthrough Initiatives, told Space.com. “Now that we’ve got the hint, maybe they can find something.”

And, if the Alpha Centauri A world does indeed exist, it may not be alone.

“In my mind, the most exciting thing about this is, once we find one planet, we tend to find others,” Klupar said.

Even if the Alpha Cen A planet turns out to be a mirage, however, NEAR’s work will not have been in vain, team members said.

“The new capability that we demonstrated with NEAR to directly image nearby habitable-zone planets is inspiring to further developments of exoplanet science and astrobiology,” Wagner said in the same statement.

Mike Wall is the author of “Out There” (Grand Central Publishing, 2018; illustrated by Karl Tate), a book about the search for alien life. Follow him on Twitter @michaeldwall. Follow us on Twitter @Spacedotcom or Facebook. 

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Entertainment

Megan Fox, Machine Gun Kelly spark engagement rumors after actress spotted wearing ring

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Are Megan Fox and Machine Gun Kelly getting hitched?

The “Transformers” actress, 34, recently sparked engagement rumors after she was spotted rocking a large ring following a New York City outing on Thursday.

In photos obtained by People magazine, Fox was seen with a large sparkler on her left ring finger — prompting rumors that the “Swing Life Away” rapper may have popped the question to Fox.

Fox and Kelly — real name Richard Colson Baker — is in the Big Apple for “Saturday Night Live,” where the 30-year-old artist is set to perform on Jan. 30.

MEGAN FOX, MACHINE GUN KELLY MAKE RED CARPET DEBUT AT 2020 AMAS

The actress, 34, and the musician, 30, started dating after Fox’s split for estranged husband Brian Austin Green.
(Getty)

Kelly and Fox met while filming the upcoming movie “Midnight in the Switchgrass.” They started dating after Fox’s split from her husband, actor Brian Austin Green. 

The former pair were married for nearly 10 years and are parents to sons Noah, 8, Bodhi, 6, and Journey, 4. Green confirmed they separated last May, with Fox ultimately filing for divorce in November. 

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Speaking in an interview with Nylon about her relationship with Kelly, Fox explained that she saw something of “mythic proportions” when she first met the rapper-turned-singer. Above all, she notes that she finds him looking to her to improve himself, which she finds very attractive.

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“There’s never an attempt to control him on my end,” Fox told the outlet. “It’s more that he looks to me to avoid his own self-destructive tendencies. And that’s where I’m useful because, on his own and left to his own devices, I don’t know how much interest he has in caring for himself.”

Reps for Kelly and Fox did not respond to Fox News’ requests for comment. 

Fox News’ Tyler McCarthy contributed to this report

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Science

‘Elves’ and ‘blue jet’ lightning in Earth’s stratosphere spotted from space

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Newly published observations from space are showing researchers more about the nature of Earth’s lightning storms, including whimsically named phenomena such as “blue jets” and “elves.”

The International Space Station’s Atmosphere-Space Interactions Monitor (ASIM) observatory caught a single blue “jet” (upward-shooting lightning) from a thunderstorm cell, along with four “elves,” or optical and ultraviolet emissions from the bottom of the ionosphere, according to a Nature paper published Wednesday (Jan. 20).

ASIM, a European instrument, can peer down at lightning from space. Its unique perch allows researchers to chase down elusive lightning phenomena that remain poorly understood after decades of research, mostly from ground observations. 

Video: See an ‘elve’ and ‘blue jet’ from space in this animation
Related: NASA’s Juno spacecraft spots ‘sprites’ and ‘elves’ dancing in Jupiter’s atmosphere

European Space Agency astronaut Andreas Mogensen snapped this photo of a thunderstorm from the International Space Station in 2015. (Image credit: NASA)

Understanding the origins of lightning also could provide insight into how greenhouse gases are concentrated in Earth’s atmosphere, the European Space Agency (ESA) said in a statement.

“These bizarre-sounding [phenomena] are very difficult to observe from the surface of the Earth,” ESA stated in the statement, about lightning’s various forms. “Looking down on Earth’s weather from the International Space Station 400 km [250 miles] above,” the agency added, “ASIM’s enhanced perspective is shedding new light on weather phenomena and their characteristics.”

ASIM includes a bundle of instruments such as photometers (which measure light intensity), optical cameras, and an X-ray and gamma-ray detector. ASIM was delivered to and installed on the space station in 2018 to seek electrical discharges during Earth’s storms.

The Atmosphere-Space Interactions Monitor (ASIM) is pictured outside the European Columbus laboratory module on the International Space Station. (Image credit: NASA)

This latest bout of research generated a cover-page story in Nature along with the scientific paper, but it only represents a portion of ASIM’s scientific output. In 2019, a Science paper based on ASIM results explored terrestrial gamma-ray flashes (TGFs) that occur when the strong electrical field associated with thunderstorms stimulates particles in the atmosphere; these particles then emit radiation. The 2019 study was also the first to suggest that lightning triggers TGFs and elves. 

More recently published papers from 2020 include comparing observations of the same lightning flash in Columbia from space and the ground, and a three-year summary of ASIM research describing applications in weather forecasting and public safety, among other data. 

A full list of papers based on the instrument’s data is available at the ASIM Science Data Centre.

Follow Elizabeth Howell on Twitter @howellspace. Follow us on Twitter @Spacedotcom and on Facebook.  

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Science

Astronomers Have Spotted a Weirdo ‘Jupiter’ With a Four-Day Year

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A new study describes a cloudless, Jupiter-like exoplanet.
Illustration: M. Weiss/Center for Astrophysics | Harvard & Smithsonian

Nearly 600 light-years from Earth, the exoplanet known as WASP-62b whips around its host star at a breakneck pace. The planet is a hot Jupiter, and despite its gassy constitution, its atmosphere is completely cloudless, according to a study published this month in the Astrophysical Journal Letters.

WASP-62b was first detected in 2012 in a sweep by the Wide Angle Search for Planets South survey (hence the acronym in its name). The survey detects exoplanets by spotting them as they pass in front of their host stars, causing a dip in the brightness of the star’s shine.

“We can’t actually see these planets directly. It’s like looking at a firefly next to a streetlamp,” Munazza Alam, an astronomer at the Harvard-Smithsonian Center for Astrophysics and lead author of the recent paper, said in a phone call. “We’re gleaning all this information about the planet’s atmosphere from what we call combined light observations, meaning we’re looking at the light from both the star and the planet.”

Hot Jupiters are a class of exoplanets, named because they are gas giants (like our local Jupiter) that orbit close to their host stars and thus are quite hot. They stand among super-Earths, mini-Neptunes, and a slew of other classifications that seek to describe exoplanets based on their archetypes in our local solar system. As a result of a hot Jupiter’s proximity to its host star, the exoplanets have extremely short orbital periods. If WASP-62b’s orbit began on a Monday morning for Earth, its year would be over before you clocked out for the weekend.

Within the Milky Way, Alam said, hot Jupiters are rarer than smaller planets, and among exoplanets, it’s more common to find cloudy atmospheres. That makes this hot Jupiter a bit of an oddball.

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The team looked at spectroscopic data gathered by the Hubble Space Telescope that focused on quantities of potassium and sodium in the atmosphere. None of the former turned up, but sodium was detected in “whopping” amounts, Alam said, suggesting that the atmosphere of WASP-62b was clear at the pressures detected by Hubble. The results make the planet the first hot Jupiter with a cloud-free atmosphere and only the second exoplanet with such a clear atmosphere after a hot Saturn (WASP-96b) detected in 2018. Both planets have that significant sodium content, which appears in a tent-like peak in the data, that make for a cloud-free gas giant.

Down the line, the team aims to probe different atmospheric layers of the hot Jupiter that are not detectable by Hubble. Future observations of the exoplanet will be done with the upcoming James Webb Space Telescope, which will be able to see in near-infrared.

“Kepler showed us that there are thousands of planets out there, and TESS is doing that as well in different parts of the sky,” Alam said. “We found thousands of smaller planets, which is really changing the demographics of the planet population as we knew it.”

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Science

Upward-shooting ‘blue jet’ lightning spotted from International Space Station

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Scientists on the International Space Station spotted a bright-blue lightning bolt shooting upward from thunderclouds. 

Blue jets can be difficult to spot from the ground, since the electrical discharges erupt from the tops of thunderclouds. But from space, scientists can peer down at this cerulean lightshow from above. On Feb. 26, 2019, instruments aboard the space station captured a blue jet shooting out of a thunderstorm cell near Nauru, a small island in the central Pacific Ocean. The scientists described the event in a new report, published Jan. 20 in the journal Nature

The scientists first saw five intense flashes of blue light, each lasting about 10 to 20 milliseconds. The blue jet then fanned out from the cloud in a narrow cone shape that stretched into the stratosphere, the atmospheric layer that extends from about 6 to 31 miles (10 to 50 kilometers) above the Earth’s surface.

Related: Photos of elves and blue jets: See Earth’s weirdest lightning 

Blue jets seem to appear when the positively-charged upper region of a cloud interacts with the negatively charged boundary between the cloud and the air above, according to the report. The blue jet appears as a result of this “electric breakdown,” where the opposing charges swap places in the cloud and briefly equalize, releasing static electricity. However, the properties of blue jets and the altitude to which they extend above clouds “are not well characterized,” the authors noted, so this study adds to our understanding of the dramatic phenomenon. 

Four of the flashes preceding the blue jet came with a small pulse of ultraviolet light (UV), the scientists noted. They identified these emissions as so-called “elves,” another phenomenon seen in the upper atmosphere. 

“Elves” — an acronym that stands for Emissions of Light and Very Low Frequency Perturbations due to Electromagnetic Pulse Sources — are light emissions that appear as rapidly expanding rings in the ionosphere, a layer of charged particles that extends from roughly 35 miles to 620 miles (60 to 1,000 km) above the planet surface. Elves occur when radio waves push electrons through the ionosphere, causing them to accelerate and collide with other charged particles, releasing energy as light, the authors wrote.

The team observed the flashes, elves and blue jet using the European Space Agency’s Atmosphere-Space Interactions Monitor (ASIM), a collection of optical cameras, photometers, X-ray detectors and gamma-ray detectors attached to a module on the space station. 

“This paper is an impressive highlight of the many new phenomena ASIM is observing above thunderstorms,” Astrid Orr, physical sciences coordinator for human and robotic spaceflight with the European Space Agency (ESA), said in a statement. Experts also suspect that upper atmosphere phenomena, like blue jets, may affect the concentrations of greenhouse gases in the atmosphere, since the ozone layer sits within the stratosphere where they occur, according to the ESA statement. 

Originally published on Live Science.

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