Popular Science reporter Hannah Seo writes that MIT researchers have developed a way to watch and record how the microscopic scales on a butterfly’s wings grow and tile themselves as the butterfly develops inside its chrysalis. The researchers hope to “use butterfly scales as inspiration for the design of new materials,” writes Seo. “Butterfly scales have other fascinating properties such as water repellency and the ability to regulate temperature.”
ARS Technica senior writer Jennifer Ouellette spotlights MIT researchers who have successfully recorded the structural growth of butterfly wings inside its chrysalis for the first time. “A lot of these stages were understood and seen before, but now we can stitch them all together and watch continuously what’s happening, which gives us more information on the detail of how scales form,” says research assistant Anthony McDougal.
Researchers from MIT and the Smithsonian Conservation Biology Institute are developing a probiotic to cure amphibian chytrid fungus in frogs, reports Jennifer Zoon for Smithsonian Magazine.
HuffPost reporter Mary Papenfuss writes that a team of archeologists and scientists, including Research Scientist Jahandar Ramezani, have uncovered evidence of social behaviors in dinosaurs. “The bones were segregated by age, with eggs in a common nesting ground,” writes Papenfuss. “Juveniles likely were left in ‘schools’ while adults foraged.”
Research scientist Jahandar Ramezani speaks with Scientific American reporter Christopher Intagliata about his new study that provides evidence early dinosaurs exhibited herding behavior. “This is a critical time in the evolution of dinosaurs. This is pretty early on,” says Ramezani. “So the idea is: this type of behavior, this social behavior, may have actually contributed to the evolutionary success of dinosaurs.”
Researchers from MIT and other institutions have uncovered evidence that early dinosaurs may have lived in social herds, reports Kate Baggaley for Popular Science. “People have known for a long time that the more advanced dinosaurs, the ones that lived in the late Jurassic and Cretaceous, especially the large sauropods…moved and lived in herds,” explains research scientist Jahandar Ramezani. “But the question has always been, when did this behavior start?”
Writing for Wired, Media Lab research specialist Kate Darling makes the case that robots are more like animals than people. “Despite the AI pioneers’ original goal of recreating human intelligence, our current robots are fundamentally different,” writes Darling. “They’re not less-developed versions of us that will eventually catch up as we increase their computing power; like animals, they have a different type of intelligence entirely.”
Senior Research Scientist Stephanie Seneff co-authored an opinion piece for The Washington Post, which examines how the high level of herbicide chemicals found in Florida waterways is contributing to a record number of manatee deaths. “If we want to stop manatees from starving, we have to stop using this harmful chemical on our crops, on our lawns and in our waterways,” they conclude.
Smithsonian reporter Theresa Machemer writes that a new study by MIT researchers shows that C. elegans are able to sense and avoid the color blue.
A new study by MIT researchers investigates how roundworms are able to sense the color blue to avoid dangerous bacteria that secrete toxins, reports Veronique Greenwood for The New York Times. Greenwood found that “some roundworms respond clearly to that distinctive pigment, perceiving it — and fleeing from it — without the benefit of any known visual system.”
A new study by MIT researchers explores how cellular guides in planarians appear to provide a roadmap for regeneration, reports Veronique Greenwood for The New York Times. Greenwood notes that the findings “may someday help scientists interested in helping humans regenerate injured neurons.”
A new study by MIT researchers finds that there are differences in how genes are used in men and women, reports Angus Chen for WBUR. “I think we are at present missing a lot because we operate with what is essentially a unisex model in biomedical research,” explains Prof. David Page.
New research from members of the Broad Institute finds that ancient and present elephant species are the product of interbreeding. The team will now “explore how (and if) the intermingling of genetic traits may have been advantageous for elephant evolution, like an increased tolerance for new habitats and climate change,” writes George Dvorsky for Gizmodo.
Kate Baggaley of NBC News highlights a team of MIT researchers who have developed a computer model to explain how albatrosses fly so efficiently. “Unlike other birds that flap their wings frequently, the albatross rides the wind,” which researchers are hoping to duplicate as they attempt to create drones that fly by harnessing power from the wind and sun, she explains.
Carey Goldberg of WBUR speaks to Prof. Kevin Esvelt and graduate student Joanna Buchthal about the next steps in engineering mice that are immune to Lyme disease. With the Lyme disease antibodies identified, the next step is “to encode that mouse DNA back in the mouse genome so that it can be inherited by future generations,” says Esvelt.