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The Washington Post

Washington Post reporter Chelsea Harvey writes that MIT researchers have found that millions of people in South Asia could experience deadly heat waves by the end of the century. Without reductions in greenhouse gas emissions, “certain areas of South Asia are projected to occasionally experience extreme conditions exceeding the lethal threshold, including parts of northeastern India and Bangladesh.”

Time

Justin Worland reports for TIME on a new study by MIT researchers that shows by the end of the century millions of people living in South Asia could experience temperature and humidity conditions that exceed habitable levels. “The disastrous scenario could be avoided if countries meet their commitments to keep temperatures from rising more than 2°C (3.6°F) by 2100.”

Reuters

MIT researchers have found that by 2100, climate change could cause deadly heat waves in parts of South Asia, reports Chris Arsenault for Reuters. “Climate change is not an abstract concept, it is impacting huge numbers of vulnerable people,” explains Prof. Elfatih Eltahir. “Business as usual runs the risk of having extremely lethal heat waves.”

Guardian

Writing for The Guardian, Damian Carrington highlights a new study by Prof. Elfatih Eltahir that shows that without reductions in carbon emissions, millions of people living in South Asia could face extreme heatwaves. “The problem is very alarming but the intensity of the heatwaves can be reduced considerably if global society takes action,” says Eltahir.

BBC News

BBC News reporter Matt McGrath writes that MIT researchers have found climate change could cause deadly heat waves in South Asia by the end of the century. "This is something that is going to impact your most vulnerable population in ways that are potentially pretty lethal,” explains Prof. Elfatih Eltahir. “But it is avoidable, it is preventable."

Guardian

A new study co-authored by MIT researchers finds that underground magma triggered the world’s largest mass extinction, reports Howard Lee for The Guardian. Based off their findings, the researchers believe that, “greenhouse gas emissions triggered by magma intrusions...caused the extinction through abrupt global warming and ocean acidification.”

Wired

Wired reporter Sian Bradley writes that a study co-authored by MIT researchers shows that the world’s largest mass-extinction was triggered by a massive underground magma pulse. The magma pulse “released dangerous levels of carbon dioxide, methane and sulphur dioxide into the environment and triggered the end of the Permian period.”

Boston Globe

Boston Globe reporter Alex Kingsbury writes that a new study by MIT researchers shows that Indian monsoons have been getting stronger over the past 15 years. Kingsbury explains that the findings, “came as quite a surprise: Since the 1950s, conventional wisdom has been that India was drying up.”

The Wall Street Journal

Writing for The Wall Street Journal about businesses investing in green power, Brian Baskin highlights how MIT joined forces with two Boston-based organizations to buy power from a solar farm in North Carolina. “We saw it as an opportunity where we could set an example,” says Joe Higgins, MIT's director of infrastructure business operations. 

BBC

BBC reporter Nic Fleming highlights research by Associate Prof. Themistoklis Sapsis in an article chronicling discoveries about rogue waves, which were once thought to be fake. "Instead of looking at individual waves and trying to solve their dynamics, we can use groups of waves and work out which ones will undergo instabilities," says Prof. Sapsis.

Science

Prof. Jeff Gore has developed a new technique to help predict the collapse of some ecosystems, writes Gabriel Popkin for Science. Gores hopes the method could be used, “in fisheries where protected areas abut heavily fished ones: If the method works, he hopes fishery managers can use it to set catch limits to avoid a collapse.”

Scientific American

In an article for Scientific American, Kavya Balaraman writes that MIT researchers have found that climate change could impact rainfall conditions over the Nile, potentially exacerbating water conflicts. Prof. Elfatih Eltahir explains that with the increased frequency of El Niño and La Niña, “we are projecting enhanced variability in the Nile flow.”

New Scientist

New Scientist reporter Sam Wong writes that MIT researchers used high-speed cameras to examine how raindrops can spread soil bacteria. “The researchers estimate that a single raindrop can transfer 0.01 per cent of bacteria on the soil surface into the air, and up to a quarter of bacteria emitted from the land might become airborne in this way.” 

National Public Radio (NPR)

Using high-speed cameras and fluorescent dye, MIT researchers have uncovered how rain drops can spread soil bacteria, reports Rae Ellen Bichell for NPR. The researchers found that in a few microseconds “a single raindrop can create hundreds of tiny airborne droplets, each one carrying as many as several thousand live bacteria.”

Popular Science

Popular Science reporter Kendra Pierre-Louis writes about a new study by MIT researchers that examines how rain drops help spread soil bacteria. The researchers found that “a single rain drop can transfer 0.01 percent of bacteria on the soil surface to the atmosphere.”