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Scientific American

In an article for Scientific American about a blizzard hitting the East Coast of the Unites States, Andrea Thompson cites an MIT study that found that while overall snowfall may decrease due to climate change, extreme snowstorms will still occur. 

New York Times

In this New York Times video, James Gorman explores new MIT research examining how rainfall produces a scent. The researchers found that when raindrops hit porous surfaces they release aerosols. The scent is “not from the rain itself,” explains Prof. Cullen Buie, “it’s from the earth.”

Bloomberg News

MIT researchers have found that carbon sequestration may not be as effective at storing greenhouse gas emissions as originally thought, reports Christopher Martin for Bloomberg News. The researchers found that “much of the carbon dioxide will remain in its gaseous state, and may eventually escape into the atmosphere.”

USA Today

Jared Silverman of USA Today reports on how MIT researchers have found that raindrops release aerosols when they hit the ground, causing a distinctive odor. The researchers found that “light to moderate rain produces more aerosols compared to heavy rain,” Silverman explains. 

ABC News

MIT researchers have found that when raindrops hit the ground they release aerosols, which produce a distinctive scent, reports Avianne Tan of ABC News. Prof. Cullen Buie explains that the findings also show how bacteria could spread through “chemicals being carried by aerosols."

USA Today

“It turns out tiny bubbles may be to thank for that earthy smell we get after it rains, according to a study from researchers at the Massachusetts Institute of Technology,” writes Lori Grisham for USA Today. “The study may serve as a jumping-off point for other research about chemicals in soil.”

The Washington Post

MIT researchers have discovered why rainfall produces such a distinctive smell, reports Rachel Feltman for The Washington Post. The researchers examined high-speed footage of raindrops and found “when rain hits the ground [it] may be sending out signature smells that get carried away on the wind." 

HuffPost

MIT scientists have uncovered the mechanism behind why rainfall can produce such a distinctive scent, writes Macrina Cooper-White for The Huffington Post. The researchers found that when rain hits a porous surface, tiny bubbles form. When the bubbles burst, they release aerosols, which carry the “rainlike aroma” into the air.

BBC

Using high-speed cameras, MIT researchers have captured how the smell of rain is released into the air, the BBC reports. “The results may help to explain how some soil-based diseases are spread and the authors are now studying whether contaminants such as E. coli can be spread significantly via rainfall,” the BBC explains. 

Forbes

Professor Roger Summons is part of the Curiosity team that has detected a large spike in methane on Mars, which could indicate the presence of life, writes Brid-Aine Parnell for Forbes. “This first confirmation of organic carbon in a rock on Mars holds much promise,” says Summons.

The Washington Post

Researchers have uncovered evidence that volcanic activity could have contributed to the extinction of dinosaurs, reports Joel Achenbach for The Washington Post. Prof. Sam Bowring says the eruption “began just prior to the extinction and continued throughout.” 

The Washington Post

MIT researchers have discovered that Earth’s early atmosphere may have been destroyed by thousands of small asteroids, writes Rachel Feltman of The Washington Post. Feltman explains that researchers found, “a real flurry of these small impacts…could have completely ejected the atmosphere.”

CNN

Henry Hanks of CNN writes that MIT researchers have found that a protective field around Earth blocks high-energy electrons. “The phenomenon challenges existing theories that these electrons drift into the upper atmosphere and are destroyed by air molecules,” writes Hanks.

New Scientist

Researchers at the MIT Haystack Observatory have discovered that a phenomenon called “plasmaspheric hiss” prevents radiation from reaching Earth, reports Flora Graham for New Scientist. Graham explains that the plasmaspheric hiss is comprised of “very low-frequency electromagnetic waves,” which act like a radiation barrier.

Scientific American

Scientific American reporter Charles Choi writes that MIT researchers have uncovered evidence that magnetic fields played a role in forming the early solar system. "Magnetic fields can introduce viscosity into the disk, essentially making the gas in it more sticky," explains MIT graduate student Roger Fu.