As part of The Conversation’s Curious Kids series, Dobromir Rahnev, associate professor in the School of Psychology, answered a question regarding the the possibility of uploading the consciousness of the mind into a computer: "As a brain scientist who studies perception, I fully expect mind uploading to one day be a reality. But as of today, we’re nowhere close". Read Rahnev's full response.

The Conversation

A neuroimaging study examining episodic memory found that individuals exposed to music during memory recollection were more likely to incorporate emotions associated with the music into their memories. One day later, these memories exhibited a stronger emotional tone than the original recollections. The study was published in Cognitive, Affective, & Behavioral Neuroscience by a research team that included Ph.D. student Yiren Ren and Associate Professor Thackery Brown of the School of Psychology.

Psy Post

Christopher E. Carr, assistant professor in the School of Earth and Atmospheric Sciences and the School of Aerospace Engineering, reacted to the identification of niallia tiangongensis, a new variant of a terrestrial bacteria that was discovered in the Tiangong space station.

"This finding shows that there is a lot of microbial diversity yet to be discovered, and that space stations are excellent laboratories for studying how our human-built environments select for survival or persistence of different organisms. If we understand that better, we can reduce the risks on Earth in the built environment, such as reducing infections acquired in hospitals, schools or nursing homes. Even though this microbe is not likely to be a threat, we should continue studying microbes in space to ensure we understand and address any risks, because when we are far from home, our options will be much more limited. This will help us be successful in exploring the Moon and Mars."

Newsweek

In a study published in Chem, scientists from Scripps Research and the Georgia Institute of Technology question the validity of the “formose reaction” hypothesis. This hypothesis proposes that simple formaldehyde molecules reacted under early Earth conditions to form ribose. But the new findings reveal a key limitation: under controlled experimental conditions, the formose reaction does not yield linear sugars like ribose. Instead, it predominantly produces branched sugar structures, which are incompatible with the formation of RNA.

“Our results cast doubt on the formose reaction as the basis for the formation of linear sugars,” says co-senior author Charles Liotta, Regents’ Professor Emeritus in the School of Chemistry and Biochemistry and the School of Chemical and Biomolecular Engineering.

SciTechDaily

Other planets, dwarf planets and moons in our solar system have seasonal cycles — and they can look wildly different from the ones we experience on Earth, experts told Live Science.

To understand how other planets have seasons, we can look at what drives seasonal changes on our planet. "The Earth has its four seasons because of the spin axis tilt," Gongjie Li, associate professor in the School of Physics, told Live Science. This means that our planet rotates at a slight angle of around 23.5 degrees.

"On Earth, we're very lucky, this spin axis is quite stable," Li said. Due to this, we've had relatively stable seasonal cycles that have persisted for millennia, although the broader climate sometimes shifts as the entire orbit of Earth drifts further or closer from the sun.

Such stability has likely helped life as we know it develop here, Li said. Scientists like her are now studying planetary conditions and seasonal changes on exoplanets to see whether life could exist in faroff worlds. For now, it seems as though the mild seasonal changes and stable spin tilts on Earth are unique.

Live Science