National Geographic reporter Sadie Dingfelder writes that MIT scientists are using piezoelectric materials to develop a battery-free, underwater navigation system. “There are a lot of potential applications,” says Prof. Fadel Adib. “For instance, a scuba diver could use these sensors to figure out the exact place they took a particular picture.”
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.
Prof. Fadel Adib speaks with BBC reporter Gareth Mitchell about a new battery-free underwater navigation system that his group developed. Adib explains that one of the key developments behind the new sensors is that they can “harvest power from sound.”
MIT researchers have developed a new battery-free, underwater navigation system, reports Darrell Etherington for TechCrunch. “Ultimately, the system and future versions that are based on the same technology could enable future robotic submarine explorers to better map the ocean floor,” writes Etherington, “and perform all kinds of automated monitoring and sub-sea navigation.”
Smithsonian reporter Emily Matchar highlights how MIT researchers have developed a new system that enables data sharing between underwater and airborne devices. Prof. Fadel Adib explains that the technology could be used to “study marine life and have access to a whole new world that is still pretty much out of our reach today.”
Prof. Fadel Abid speaks with IEEE Spectrum reporter Michael Koziol about a new system his research group developed to enable communication between underwater sources and the air. “We’re very interested in how deep and how high you can go,” says Adib. “Even from a theoretical perspective, we don’t even know what the limits are.”
FOX News reporter Jamie Rogers writes that MIT researchers have developed a new system that “helps solve a longstanding problem in wireless communication – how to send data directly from a submarine to a plane or drone.”
MIT researchers have developed a new system that allows data to be transmitted between underwater and airborne devices, according to the BBC News. The system could enable submarines to communicate with planes, and in the future the device could “help planes or drones detect the location of a submerged ‘black box’ flight recorder.”
Popular Mechanics reporter Avery Thompson describes a new method developed by MIT researchers to send signals between the water and the air by using sound waves to create detectable vibrations at the water’s surface. Thompson explains that the new technology could eventually make “exploring and living under the waves much easier.”
Engadget reporter Jon Fingas writes that MIT researchers have developed a new wireless device that allows data to be transmitted from an underwater source to the air. Fingas explains that the system could allow submarines to “send their findings directly to aircraft (including drones) circling above while remaining safely underwater, and without using boats as intermediaries.”
MIT researchers have discovered a new family of viruses in the ocean that appears to play a key role in ocean ecosystems and could help provide insights on how viruses evolve, reports Marin Finucane for The Boston Globe. Finucane explains that the findings could also lead to, "a better understanding of human biology.”
A study co-authored by Prof. Kristin Bergmann finds that nacre or mother-of-pearl can provide information about historical ocean temperatures, writes Kavya Balaraman for Scientific American. The researchers found that the layers of mother-of-pearl “provide a good estimation of the temperatures they grow in.”
BBC News reporter Victoria Gill writes about new MIT research showing that the tiny hairs, or cilia, on corals draw in nutrients by stirring up water. "Corals could provide a general model for understanding ciliary processes related to disease," says MIT Professor Roman Stocker.
In a piece for National Geographic, Ed Yong writes about how a team of scientists from MIT has found a corresponding rhythm of behavior amongst marine bacteria. “The study reveals the power of sophisticated sampling devices for studying ocean features that were heretofore inaccessible,” says MIT Prof. Penny Chisholm.
Lauren Hitchings of New Scientist reports on findings showing that marine microbes exhibit daily patterns of behavior. “The researchers think this might be a result of the low nutrient levels in the open ocean, and the need for organisms to rely on one another for metabolic functions,” writes Hitchings.