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Science

Prof. Tanja Bosak speaks with Science reporter Eric Hand about how scientists plan to study rock samples from Mars for clues as to whether the planet once had a magnetic field and for signs of ancient life, such as the tough lipid molecules that can form cell walls. “You hope for an outline of a cell,” she says. “You will never find peptides and proteins, but lipids can persist.”

The Washington Post

Washington Post reporter Pranshu Verma highlights how MIT researchers have demonstrated that the Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) can convert carbon dioxide into breathable oxygen on Mars. “It’s what explorers have done since time immemorial,” explains Prof. Jeffrey Hoffman. “Find out what resources are available where you’re going to and find out how to use them.”

The Boston Globe

MIT researchers have used the Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) to successfully generate oxygen on Mars, reports Martin Finucane for The Boston Globe. “This is the first demonstration of actually using resources on the surface of another planetary body and transforming them chemically into something that would be useful for a human mission,” says Prof. Jeffrey Hoffman. “It’s historic in that sense.”

The Guardian

MIT researchers’ Mars Oxygen in-Situ Resource Utilization Experiment (MOXIE) has been successfully generating breathable oxygen on Mars, reports The Guardian. “It is hoped that at full capacity the system could generate enough oxygen to sustain humans once they arrive on Mars, and fuel a rocket to return humans to Earth,” writes The Guardian.

VICE

The MIT MOXIE experiment, which traveled to Mars aboard NASA’s Perseverance rover, has been able to create oxygen from the Martian atmosphere, reports Sarah Wells for Vice. “This experiment is also the first to successfully harvest and use resources on any planetary body, a process that will be important not only for Martian exploration but future lunar habitats as well,” writes Wells.

CNN

CNN reporters Katie Hunt and Ashley Strickland spotlight how the MIT-led Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) has been successfully generating oxygen on Mars during seven experimental test runs in a variety of atmospheric conditions. “A scaled up MOXIE would include larger units that could run continuously and potentially be sent to Mars ahead of a human mission to produce oxygen at the rate of several hundred trees,” they write. “This would allow the generation -- and storage -- of enough oxygen to both sustain humans once they arrive and fuel a rocket for returning astronauts back to Earth.”

Bloomberg

Bloomberg News reporter Martine Paris writes that the MIT MOXIE experiment has been converting carbon dioxide from the Martian environment into oxygen since the Perseverance rover landed on Mars. “Seven times last year, throughout the Martian seasons, Moxie was able to produce about six grams (0.2 ounces) of oxygen per hour,” writes Paris.

New Scientist

During day and night, in the wake of a dust storm and in extreme temperatures, the MIT-led Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) was able to generate about 100 minutes of breathable oxygen in 2021 on Mars, reports Jacklin Kawn for New Scientist. “At the highest level, this is just a brilliant success,” said Michael Hecht, principal investigator of the MOXIE mission at MIT’s Haystack Observatory.

The New York Times

One year after NASA’s Perseverance rover successfully landed on Mars, scientists are preparing to investigate a dried-up river delta along the west rim of the Jezero crater to search for rocks and microscopic fossils, reports Kenneth Chang for The New York Times. If Perseverance undercovers fossils, “we have to start asking whether some globs of organic matter are arranged in a shape that outlines a cell,” says Prof. Tanja Bosak.

GBH

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

Forbes contributor David Bressan writes that a new study co-authored by MIT researchers finds that images taken by the Perseverance rover show that Mars’ Jezero crater was once a lake. “The fine-grained clay and carbonate layers deposited in the fossil lake are capped by a diamict, a sedimentary rock consisting of a mix of large and small boulders,” writes Bressan. “Scientists think the boulders were picked up tens of miles upstream and deposited into the former lakebed by episodic flash floods, suggesting a catastrophic climate change in Mars' distant past.”

Popular Science

Prof. Tanja Bosak and Prof. Benjamin Weiss speak with Popular Science reporter Kate Baggaley about how their analysis of images captured by NASA’s Perseverance rover found that the Jezero crater was once a lake and river delta. “The geological history of the Jezero crater could help scientists understand how the Red Planet changed from being wet and possibly habitable into a harsh desert world,” writes Baggaley. “Definitely we hit the jackpot here,” says Weiss, 

Space.com

Space.com reporter Mike Wall writes that a new study co-authored by MIT scientists finds that the Jezero crater on Mars previously hosted a big lake and river delta. “The newly analyzed photos may provide an intriguing glimpse” into Mars’ transformation to a dry landscape,” writes Wall.

CNN

Researchers from MIT and other institutions analyzed images captured by NASA’s Perseverance rover and found that Mars’ Jezero crater was a lake 3.7 billion years ago, reports Ashley Strickland for CNN. “The new information shows the importance of sending rovers to explore the surface of Mars,” writes Strickland. “Previous images captured by orbiters had shown that this outcrop resembled the kind of fan-shaped river deltas we have on Earth. Perseverance's images show definitive proof of the river delta's existence.”

Forbes

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.