Climate

Reuters reporter Andrea Januta writes that using computer models Prof. Kerry Emanuel has found that hurricanes in the North Atlantic have been growing in intensity and frequency as global temperatures have increasing. Emanuel “turned to computer simulations to recreate climate conditions for the last 150 years. Using three different climate models, he then scattered hurricane “seeds,” or conditions that could produce a storm, throughout the models to see how many seeds developed into storms,” writes Januta.

A new study by Prof. Kerry Emanuel examining the history of hurricanes finds that North Atlantic hurricanes are increasing in frequency and intensity, write Matthew Cappucci and Jason Samenow for The Washington Post. Emanuel “employed a novel approach to evaluate past storm activity,” they write. “Rather than relying on historical observations, which may have gaps, he performed climate modeling to reconstruct a continuous record of hurricane activity over the past 150 years from which to gauge trends.”

Writing for The Guardian, Prof. Daniel Rothman examines the history of Earth’s mass extinctions and how Earth seems to experience “a cascade of disruptions when stressed beyond a tipping point." Rothman writes that: “If we do not significantly cut back CO2 emissions, then we risk passing the threshold before the end of the present century.” He adds, “let us not contribute to the risk of a sixth extinction. Efforts to limit CO2 emissions now may pay dividends further into the future than we can imagine.”

Prof. Taylor Perron, a recipient of one of this year’s MacArthur fellowships, speaks with Callie Crossley of GBH’s Under the Radar about his work studying the mechanisms that shape landscapes on Earth and other planets. “We try to figure out how we can look at landscapes and read them, and try to figure out what happened in the past and also anticipate what might happen in the future,” says Perron of his work as a geomorphologist.

Forbes contributor Michael T. Nietzel spotlights the work of Prof. Taylor Perron, who was awarded a 2021 MacArthur Fellowship. “By using mathematical modeling, computer simulations, and field studies, Perron is able to describe the environmental history of current landscapes and predict how landscapes will respond to future environmental changes," writes Nietzel.

CBS Boston spotlights how Prof. Taylor Perron has been honored with a 2021 MacArthur Fellowship for his work “unraveling the mechanisms that create landscapes on Earth and other planets.” CBS Boston notes that Perron is “currently studying river networks on Mars and one of Saturn’s moons for clues about the climate history of each celestial body.”

Prof. Taylor Perron has been named a recipient of the 2021 MacArthur Fellowship for his work investigating the processes that create a planet’s landforms, reports Ellen McCarthy for The Washington Post.

MIT has announced a new climate action plan aimed at helping the Institute tackle climate change, reports Kristina Chen for The Tech. The plan offers increased opportunities for student involvement and a new organizational structure. Maria Zuber, MIT’s vice president for research, explains that MIT feels “that it’s our responsibility and duty to try to make a genuine difference, and to do that, we’re going to need the help of everyone in the community.” 

A new study by MIT researchers finds that the oceans may begin emitting chlorofluorocarbons by 2075, reports Valerie Yurk for E&E News. “Even if there were no climate change, as CFCs decay in the atmosphere, eventually the ocean has too much relative to the atmosphere, and it will come back out," says Prof. Susan Solomon.

CNN reporter Ivana Kottasová writes that a new study co-authored by MIT researchers finds there has been a significant drop in CFC emissions and a resumption in the recovery of the ozone layer. Prof. Ronald Prinn, director of the Center for Global Change Science at MIT, said that the results were “tremendously encouraging,” adding that “global monitoring networks really caught this spike in time, and subsequent actions have lowered emissions before they became a real threat to recovery of the ozone layer.”

Writing for The Conversation, graduate student Craig Robert Martin delves into his research exploring how the Himalayas were created. “By decoding the magnetic records preserved inside them, we hoped to reconstruct the geography of ancient landmasses – and revise the story of the creation of the Himalayas,” writes Martin.

A study by MIT researchers uncovers evidence that the Earth’s global ice ages were triggered by a rapid drop in sunlight, reports Mashable. The researchers found that an “event like volcanic eruptions or biologically induced cloud formation will be able to block out the sun and limit the solar radiation reaching the surface at a critical rate that can potentially trigger ‘Snowball Earth’ events.”

Forbes contributor Bruce Dominey writes that a study by MIT researchers finds global ice ages may have been triggered by a rapid decrease in the amount of solar radiation reaching Earth. “Past Snowball glaciations are more likely to have been triggered by changes in effective solar radiation than by changes in the carbon cycle,” writes Dominey.

Graduate student Shekhar Chandra cites the work of Prof. Elfatih Eltahir in an article for CNN about the rising temperatures in India. “Experts at MIT say that even if the world succeeds in cutting carbon emissions, limiting the predicted rise in average global temperatures, parts of India will become so hot they will test the limits of human survivability,” writes Chandra.

A study by MIT researchers finds that climate change is causing pollution to linger longer over cities and making summer thunderstorms more powerful, reports Tanya Rivero for CBS News. “We found a way to connect changes in temperature in humidity from climate change to changing summer weather patterns that we are experiencing at our latitude,” explains graduate student Charles Gertler.