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THE REAL DANGER OF RED MEAT Eating lots of red meat increases your risk of heart disease, but fat and cholesterol are not the only culprits. Researchers have discovered that a chemical in
red meat called carnitine promotes a type of gut bacteria that, in turn, produces a compound called TMAO that literally hardens arteries. When researchers fed steaks to a group of regular
meat eaters and a vegan and tested their blood, they found that TMAO levels spiked in the meat eaters but not in the vegan. The reason, confirmed by a broader study, is that vegans have
fewer of the gut bacteria that convert carnitine into TMAO. “The bacteria living in our digestive tracts are dictated by our long-term dietary patterns,” Cleveland Clinic researcher Stanley
Hazen tells _Bloomberg.com_. “A diet high in carnitine actually shifts our gut microbe composition, making meat eaters even more susceptible to forming TMAO and its artery-clogging effects.”
Figuring out which microbe species are responsible for increasing TMAO levels might lead to antibiotics that could prevent heart disease. Until then, Hazen recommends creating a healthier
gut ecosystem by eating less red meat. “I used to have red meat five days out of seven,” he says. “Now I have cut it back to less than once every two weeks or so.’’ A HINT OF DARK MATTER
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From our morning news briefing to a weekly Good News Newsletter, get the best of The Week delivered directly to your inbox. From our morning news briefing to a weekly Good News Newsletter,
get the best of The Week delivered directly to your inbox. Less than a year after spotting the Higgs boson, physicists are closing in on another elusive component of the universe: dark
matter. Researchers analyzing data collected by the Alpha Magnetic Spectrometer, an instrument bolted onto the International Space Station, say they’ve detected what may be the first solid
evidence of the mysterious stuff. Until now the chief sign of dark matter’s existence has been the gravitational pull it appears to exert on stars and galaxies, keeping the universe from
expanding more quickly. “We live in a sea of dark matter,” Michael Salamon, a physicist at the U.S. Department of Energy, tells _NPR.org._ Scientists have calculated that dark matter makes
up 27 percent of the universe, yet they know little about it. Researchers believe that when particles of dark matter collide, the resulting energy creates detectable particles called
positrons. The Alpha Magnetic Spectrometer has so far detected 400,000 positrons that appear to be the products of such collisions, and researchers hope analysis will unlock new insights.
“If we detect dark matter and learn something about its nature,” Salamon says, “we will have made a major impact to our understanding of physics and nature itself.” A MACHINE THAT ‘SEES’
DREAMS Japanese researchers have managed to partially decode dreams by scanning the brains of sleepers. Researchers used magnetic resonance imaging (MRI) to monitor the brain activity of
three volunteers as they drifted off. They awakened them some 200 times as soon as they started dreaming to ask what they’d seen. They then programmed a computer to search for patterns in
brain activity that corresponded to specific images—say, a human face—both while the subjects were asleep and awake. When they ran the program on the volunteers as they dreamed again, the
researchers were able to predict what images they were seeing 60 percent of the time. “We’re all intrinsically interested in dreaming, but neuroscientists to this day aren’t certain what it
does for us,’’ Jack Gallant, a neuroscientist at the University of California, Berkeley, tells the _Los Angeles Times_. This new program may be the first step, he says, toward a dream
decoder that “would create a movie on your television screen and it would just replay your dreams.’’ Those movies might not be as riveting as you’d expect, says study author Yukiyasu
Kamitani. Many of his subjects’ dreams, he says, “were just about daily life in the office.” ATTACK OF THE MUTANT CRABS A free daily email with the biggest news stories of the day – and the
best features from TheWeek.com Human carbon emissions are making some shellfish more vulnerable to predators, putting the future of oysters and scallops, as well as coral, in peril. The
oceans are soaking up a lot of the increasing levels of carbon in the atmosphere, and new research shows the added carbon is “causing oysters to grow slower, and their predators—such as blue
crabs—to grow faster,” says University of North Carolina marine geologist Justin Baker Ries. In one study, Chesapeake blue crabs grew four times faster in high-carbon water than in
low-carbon water. The pollution seems to have a similar supersizing effect on lobsters and shrimp, but it greatly retards the growth of oysters, scallops, and coral, making them more
vulnerable to ever-larger predators. The imbalance could be disastrous for the Chesapeake Bay ecosystem, the nation’s largest estuary, where the oyster stock has already been decimated by
disease and overfishing. Oysters, Ries tells _The Washington Post_, are not only a key food source for the bay’s blue crabs but also “filter feeders” that help purify the water. “One hundred
years ago,’’ he says, “the bay was crystal-clear because they filtered it every three weeks, as opposed to every three years today.” Explore More Health and Science