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World first study shows that some microorganisms can bend the rules of evolution


Science Daily
Wed, 14 Oct 2020 00:01 UTC
horizontal gene transfer
The dominant thinking in evolution focuses on inheritance between parent and offspring - or 'vertical gene transfer (VGT)'. But now scientists are paying more attention to 'horizontal gene transfer (HGT)': the transmission of DNA other than from parent to offspring, as this transfer can tell us about the evolution of a number of other organisms such as bacteria. It can also help us to better understand antibiotic resistance.

In a world first Monash University scientists have discovered that HGT can bend the rules of evolution.

The discovery is outlined in a study published today in PNAS, which was led by ARC Future Fellow Dr Mike McDonald and PhD candidate Laura Woods, both from the Monash University School of Biological Sciences.

Comment: The natural selection hypothesis continues to fall apart...

See also:

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Magnify

Study suggests psychopathic individuals do have emotions, but they are inept at regulating them

Beth Ellwood
Psy Post
Fri, 16 Oct 2020 23:48 UTC
moody
© Sammy-Williams from Pixabay
A study published in Psychiatry Research found that having psychopathic traits was linked to poor emotional regulation among both a community sample and a sample of violent offenders.

Psychopathy is a personality disorder that is defined by persistent antisocial behavior that is typically hostile, deviant, and apathetic. Although the study of psychopathy has captured the attention of researchers for some time, study authors Carlo Garofalo and colleagues observed a gap in the research.

Few studies have explored how difficulties in emotional regulation — the ability to monitor and control one's emotions — may be involved in the expression of psychopathy. One of the reasons for this disparity may be due to early definitions of psychopathy which suggested that psychopathic individuals were "devoid of emotion." Findings have since emerged suggesting that these individuals do, in fact, experience emotions.

"If psychopathy does not fundamentally involve an absence of emotions," Garofalo and team theorize, "it is possible that disturbances in emotional regulation may be linked to the expression of psychopathic traits."
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Chalkboard

'Twisted' bilayer graphene: The 'magic' material is now the big thing in physics

David H. Freedman
Quanta Magazine
Thu, 30 Apr 2020 19:18 UTC
superconductor graphene layers
© Olena Shmahalo / Quanta Magazine.
Twisted bilayer graphene: a one-atom-thick sheet of carbon crystal dropped on another one
The stunning emergence of a new type of superconductivity with the mere twist of a carbon sheet has left physicists giddy, and its discoverer nearly overwhelmed.

Pablo Jarillo-Herrero is channeling some of his copious energy into a morning run, dodging startled pedestrians as he zips along, gradually disappearing into the distance. He'd doubtlessly be moving even faster if he weren't dressed in a sports coat, slacks and dress shoes, and confined to one of the many weirdly long corridors that crisscross the campus of the Massachusetts Institute of Technology. But what he lacks in gear and roadway he makes up for in determination, driven by the knowledge that a packed auditorium is waiting for him to take the podium.

Jarillo-Herrero has never been a slacker, but his activity has jumped several levels since his dramatic announcement in March 2018 that his lab at MIT had found superconductivity in twisted bilayer graphene — a one-atom-thick sheet of carbon crystal dropped on another one, and then rotated to leave the two layers slightly askew.
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Telescope

Astronomers capture exact moment supermassive black hole devoured entire star


RT
Mon, 12 Oct 2020 15:34 UTC
tidal disruption event
© ESO/M. Kornmesser
Artist's impression of a tidal disruption event
Through constant vigilance and some good fortune, astronomers have managed to capture the moment a supermassive black hole in a galaxy 215 million light-years away tore a star apart.

The so-called 'tidal disruption event' (TDE) is the closest such death of a star humanity has ever witnessed.

Astronomers were alerted by the intense flash of light, visible hundreds of millions of light years away, just before parts of the star disappeared into the black hole's event horizon after being 'spaghettified' by the immense gravity.

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Better Earth

'Impossible' crystals found in Denmark reveal Eocene was not as uniformly warm as once thought

David Nield
Science Alert
Fri, 16 Oct 2020 12:00 UTC
Danish Island Fur
© Nicolas Thibault
The Danish Island Fur.
As geological puzzles go, it's a pretty good one. In the global greenhouse conditions of the early Eocene (56-48 million years ago), how did huge numbers of giant glendonite crystals manage to form?

These rare calcium carbonate crystals - that need temperatures lower than 4 degrees Celsius to form - are composed from the mineral ikaite and found in their tens of millions on the Danish islands of Fur and Mors. They have been dated to 56-54 million years ago.

"Why we find glendonites from a hot period, when temperatures averaged above 35 degrees, has long been a mystery," says geologist Nicolas Thibault, from the University of Copenhagen in Denmark. "It shouldn't be possible."

After a detailed chemical analysis of glendonite samples by Thibault and an international team of researchers, using a technique called clumped isotope thermometry to trace temperatures back millions of years, we may have an answer: the Eocene was perhaps not as uniformly warm as previously thought.

Comment: See also: Also check out SOTT radio's:

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Light Saber

Lipid droplets are intracellular bacteria-fighting machines

Ruth Williams
The Scientist
Thu, 15 Oct 2020 06:26 UTC
lipid droplet
Once thought to be little more than blobs of fat inside eukaryotic cells, lipid droplets may in fact provide a first line of defence against invading pathogens, according to evidence published today (October 15) in Science. When a bacterium enters a cell's cytoplasm, intracellular lipid droplets close in, bringing with them an arsenal of antimicrobial proteins, the research shows.

"This is the first evidence that there's a direct [immune] mechanism between lipid droplets and intracellular pathogens, and I thought that was just fascinating," says Stacey Gilk of the University of Nebraska Medical Center who studies microbial pathology and was not involved in the research.

"We've known about lipid droplets for over 100 years, but still don't know much about them," adds virologist Sue Crawford at Baylor College of Medicine who also did not participate in the study. "This is a fantastic paper," she says. It "really pinpointed some of the mechanisms by which lipid droplets have an antibacterial function."

Lipid droplets are a type of organelle that exists in all eukaryotic cells. They are jam-packed full of fats, as the name would suggest, and surrounded by a phospholipid monolayer (as opposed to the classic bilayer membrane surrounding most other organelles). Historically lipid droplets have been thought of as sites for storing excess fats and supplying them when and where needed — for instance, to the mitochondria for energy production. More recently, research has shown that certain cell-invading viruses, bacteria, and parasites exploit these fuel-rich droplets for survival and growth, says Crawford.
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Camera

Scientist creates camera that films in 3D at 100B frames per second, fast enough to capture light traveling


RT
Sun, 18 Oct 2020 15:54 UTC
bright rays images
© Getty Images/KTSDesign/Science Photo Library
A scientist has created a new ultra high speed camera that films in 3D and can capture lightwaves as they move. The impressive machine may help us unravel one of physics' greatest mysteries.

Lihong Wang's invention is an improvement on his original camera design, which could capture 70 trillion frames per second in 2D.

The Caltech scientist announced his original compressed ultrafast photography (CUP) camera back in January, which can record at an astonishing rate, but could only produce flat images.

Since then, by diligently working through Covid-19 lockdowns, Wang kept busy and has now produced a camera which can capture light as it travels in three dimensions at a rate of 100 billion frames per second. For context, most high-end smartphone cameras can only shoot at 60 frames per second.

In other words, the camera, dubbed the "single-shot stereo-polarimetric compressed ultrafast photography," or SP-CUP for short, can take 10 billion pictures in less than the blink of an eye.
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Sheriff

Tardigrade species that absorbs lethal UV radiation and then emits blue light discovered

Nicola Davis
The Guardian
Sat, 17 Oct 2020 19:17 UTC
tardigrade
© Harikumar R Suma and Sandeep M Eswarappa
The tardigrade Paramacrobiotus BLR glows blue when subjected to UV light.
They might be tiny creatures with a comical appearance, but tardigrades are one of life's great survivors. Now scientists say they have found a new species boasting an unexpected piece of armour: a protective fluorescent shield.

Also known as water bears or moss piglets, tardigrades are microscopic, water-dwelling creatures, around 0.5mm to 1mm in length, that resemble a crumpled hoover bag with eight legs.

But while their appearance invites amusing comparisons, it is their hardiness that has inspired awe: the creatures can survive the vacuum of space, extreme temperatures and pressures, and intense ionising and UV radiation.

Comment: See also: And check out SOTT radio's:

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Galaxy

Betelgeuse is neither as far nor as large as once thought

Mike Mcrae
Science Alert
Fri, 16 Oct 2020 12:00 UTC
betelgeuse
© (ALMA - ESO/NAOJ/NRAO, E/O'Gorman/P.Kervella)
In the wake of recent fluctuations in Betelgeuse's brightness, astronomers have rigorously examined the star's vital statistics, and come up with a bit of a surprise.

According to the team led by researchers at Australian National University (ANU), the results change a few important things about our favourite red giant.

"The actual physical size of Betelgeuse has been a bit of a mystery - earlier studies suggested it could be bigger than the orbit of Jupiter," says astronomer László Molnár from the Konkoly Observatory in Hungary.

"Our results say Betelgeuse only extends out to two thirds of that, with a radius 750 times the radius of the Sun."

Comment: See also: Betelgeuse's mysterious dimming due to a traumatic outburst - NASA

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Solar Flares

Solar Minimum increases atmospheric radiation by +15%, reaching a 5-year high


Spaceweather.com
Sat, 17 Oct 2020 04:30 UTC
Atmospheric radiation
Spaceweather.com and Earth to Sky Calculus have just released a new batch of cosmic ray balloon data. Their conclusion: Atmospheric radiation is near a 5-year high. This plot shows a 15% increase since the monitoring program began in 2015.

What's happening up there? The answer is "Solar Minimum." During the nadir of the 11-year solar cycle, the sun's magnetic field weakens, allowing extra cosmic rays from deep space to penetrate the solar system. These cosmic rays are hitting Earth's atmosphere, creating an intensifying spray of secondary cosmic rays that we detect with sensors onboard our balloons.

The graph, above, shows that Solar Minimum is underway. Recently, NASA and NOAA announced the onset of a new (but still feeble) solar cycle. Eventually, Solar Cycle 25 will bend the cosmic ray curve down again. But when?

Comment: See also:

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