Science Friday - Could This Be The End Of Voyager 1?

Episode Date: March 8, 2024

In 1977, NASA launched Voyager 1 and 2. Their mission? To explore the farthest reaches of our galaxy. Their missions were only supposed to last about four years, but it’s been almost 50. They’re n...ow in interstellar space, navigating the region between stars.But since November, Voyager 1 has been sending unintelligible data back to Earth, raising concerns that it could be nearing the end of its mission.Ira talks with Maggie Koerth, science writer and editorial lead at Carbon Plan, about Voyager 1 and other science news of the week, including work on detecting neutrinos with forests, calculating the age of giant sand dunes, uncovering the origins of cells, investigating why we don’t have tails anymore, and how a man walking his dog discovered a dinosaur fossil.Transcripts for each segment will be available after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

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Starting point is 00:00:02 It's another exciting week in science news. One news study answers a big question. Where did our tales go? When our common ancestors split off from monkeys 25 million years ago, it doomed us to a life without a way to carry a drink and a plate and still eat at a party. It's Friday, March 8th. Happy Science Friday, y'all. I'm SciFri producer Rasha Aireedi.
Starting point is 00:00:28 In breaking science news, a surprise from the FDA today. It's delaying its decision on a new Alzheimer's treatment. called Donanamab. Data shows that the drug made by Eli Lilly and company slows cognitive decline by a little bit, and it was expected to get approval this month. The reason for the delay, regulators won an independent panel to look more closely at the unique design of the drug trial and the drug side effects. We'll keep you posted. But for now, here's Irafo with more science news of the week. In 1977, NASA launched Voyagers 1 and 2. Their mission to explore the farthest reaches of our solar system and beyond.
Starting point is 00:01:07 Their space treks are, they're only supposed to last about four years, but you know what? It's been almost 50. But since November, Voyager 1 has been sending gibberish back to Earth. Oh, no. Brings up the question, could this be the beginning of the end of Voyager 1's mission? The week was full of great stories, and joining me with more about this one and others, Maggie Kerth, Science Writer Editorial Lead at Carbon Plan, based in Minneapolis, Minnesota. Welcome back, Maggie.
Starting point is 00:01:39 Always good to have you. Thanks so much. It's always good to be here. You know, this is sad news. These voyages have gone where no spacecraft has gone before. They made this grand tour of the solar system, the flyby of other planets. What's Voyager's future, do we know? Yeah.
Starting point is 00:01:55 I mean, this is so meaningful, both scientifically and just kind of existentially. a beloved piece of equipment. Right now, it is, the address for Voyager would be something like Voyager 1, interstellar space, outside the heliosphere. That's the Sun's direct zone of influence. It's more than 15 billion miles away from us. So it's not like we can just pop out there with a tow truck. Nell Greenfield Boyce at NPR described it as sort of like suffering from an electrical stroke. It's this elderly piece of machinery. Everything it's sending back is just this alternating one and zero instead of real binary data. And the problem seems to be in the flight data computer, which sounds fancy, but remember, we're talking about 1977 technology here, and your car key fob is now
Starting point is 00:02:49 a more powerful computer than Voyager 1. So we don't know if it's a fixable thing or not? We don't. It's survived glitches before, but nothing this. major. The scientists actually tried turning it off and turning it back on again, and that did not work. A lot of the people who designed this thing are actually dead now, so we can't even go consult all of the Voyager experts. And just sending and receiving a message takes 45 hours round trip. But it's also reaching the end of its life anyway. Yeah. So it's powered by nuclear generators. And those aren't going to keep going really past 2027 or 2030. Even if they do get it back online this time, we're really at a point now where we all kind of have to figure out how to make our peace with this thing.
Starting point is 00:03:39 You've got to give it thanks. We've got to wish it well. Let it go. As Spock said, VJer must evolve. There you go. Thank you for that, Meg. I feel better. It is sad, but it has had a fruitful life. So let's get back to TerraFerma literally for a bit. A story about this, I think, is fantastic. Trees detecting neutrinos, Maggie. Oh, I love this so much. So neutrino is actually Italian for a little neutral one. And that's exactly what these are. They're subatomic particles with no electrical charge. And they're so small that scientists thought they had no mass at all for many years. It's also the most abundant type of subatomic particle in the universe to the point that, a hundred trillion of them just passed through your body in the last second. But paradoxically, when you get that many super tiny things, passing through is mostly all they do.
Starting point is 00:04:34 They're so small that they can slip between larger atoms without interacting at all. And that means if you want to detect them, you need to do it with something really, really, really big. When you get that big, it's less convenient to, like, build something than to use these very, large objects that nature has already blessed us with, like forests full of hundreds of thousands of trees. And that is the proposal being made in this pre-press paper by researchers at the University of Kansas. Wow. I mean, so the leaves, the branches, they would be little antennas? I mean, well, they're big antennas. They're big trees. Tree antennas. There is other research, like outside of this paper, that shows that trees can pick up radio waves, though it's not as simple as just like
Starting point is 00:05:21 hugging one and keeping an ear open, you'd have to wrap wire around each trunk and you have to hook it up to electronics that can interpret the signals. And other researchers outside of this paper also told Emily Conover at Science News that it would be a hard thing to pull off and you'd need to do a lot more study because we don't know things like what happens to your tree antennas when they go through a deciduous cycle and all the leaves fall off. Right, right. So it's not a perfect system. But, but, and here's like the really cool thing to me, researchers already use nature to detect neutrinos. The Ice Cube Neutrino Observatory uses a cubic kilometer block of Antarctic ice. And there's this other neutrino observatory that is currently under construction that's going to use the entire Mediterranean Sea.
Starting point is 00:06:12 Wow. Wow, I love that stuff. Okay, let's talk about something that sounds like it's in outer space, but it's here. There's a new study about Star-Dubis. Just in time for the new dune movie, right? What's a star dune? Well, so star dunes are these massive pyramidal sand dunes. They form on Earth as well as in Mars.
Starting point is 00:06:31 We found them on Saturn's Moon of Titan. And they can actually move without falling apart. And a recent study found one in Morocco that is 13,000 years old. Whoa. So I just found one of them. How do you know how old a sand dune is? Yeah. So this is where it gets really fun.
Starting point is 00:06:51 So Lala Lalia, which is a Berber name, and it means sacred high point. It's 238 feet high. It's 2,200 feet wide. But measuring the age of a pile of sand is really hard. And it turns out, though, that grains of quartz that make up the sand, they all store energy from the sun, and they can release that energy in the form of light. And the level of brightness of that light can tell the scientists how long ago the great, of quartz was last exposed to the sun. No. So the trick to this was extracting sand from inside of the pyramid, getting it back to a
Starting point is 00:07:30 dark room condition in the lab without exposing it to the sun again and ruining the measurement. And to do that, they used an old piece of drain pipe. Hey, Beguer did. Bring it back to the lab. That's great. Speaking of old grains of sand, Our next few stories are about origins, and this one is a study that hints at the origin of cells, Maggie. Tell us about that because we've been wondering about that ever since the Miller-Yuri experiment in 1952. Yeah, this is a couple of interesting studies. So we know that earlier, primordial soup, chemicals, you got like water, you got your cyanides, you get your glycerols. And we know that at some point roughly 3.8 billion years ago living cells.
Starting point is 00:08:17 but how do you get from the soup to the nuts, so to speak, right? You know, how do you get a discrete thing with walls and the ability to metabolize and generate energy? That's like the big mystery. So we had two studies recently that recreated the conditions we think existed on early Earth in a lab and were able to coax chemical compounds into forming some of these crucial cell structures. That is really cool. Let's move on to our next story about our tales or lack of them, suggesting why we lost them. Evolutionary, right? Yeah. When our common ancestors split off from monkeys 25 million years ago, it doomed us to a life without a way to carry a drink and a plate and still eat at a party. and now scientists have pinpointed a mutation, maybe not the only one, but a mutation, that seems to have been a cause of this change. And there's a couple of things that make it really, really cool. So first, we're talking about something called a transposon, which is a repetitive little snippet of DNA that gets inserted into a human genome from something else. Some transposons we know started out as viruses and other cases, we just have no clue
Starting point is 00:09:38 where they came from. And this particular transposon inserted itself into a hunk of a gene that isn't even responsible for making anything. It's non-coding data. And yet when you put the transposon in there, no tail. You delete tails. So the researchers even replicated this with mice. Wow. So do we still have this transposon? Yeah, we do. Does it have any side effects? Because we're not, you know, using it. They found this by analyzing 140 genes that are associated with vertebrate tail development until they found this one gene, TBXT, that had a chunk missing in monkeys that was present in primates. And they, you know, they were able to replicate this in mice because the mice also don't have this chunk. So when you stick the chunk in there and the mice, they lose their
Starting point is 00:10:27 tails. But the other interesting thing about this is that when you do this, the mice also end up with they increased risk of spina bifida, which is this birth defect where the spine doesn't fully seal shut during development. So it is possible that a random side effect of losing our tails is the risk of this birth defect. Speaking of ancient, there's a story about someone who stumbled upon a dinosaur while taking his dog for a walk. So two years ago, this 23-year-old Frenchman named Damien Bichetto just found out. a whole hecken dinosaur bones sticking out the side of a cliff. Ira, this is massively unfair of him to live out my childhood dream. They eventually found 70% of this titanosaur in this spot, which is
Starting point is 00:11:18 really amazing because you're talking about a dinosaur that's not really common in Europe. And that's a really complete skeleton to find too. That is cool. And so the guy did, you know, did it change his life at all make him richer or whatever when you find a big dinosaur? Yeah, I mean, like, you know, two years ago, he was just an amateur fossil hound. But then he spent those two years helping scientists dig up this skeleton. And he is now in college working his way towards a PhD in paleontology, that jerk. You mean the person? You mean the pulling of the, the bone. Sure. That's what I mean. I have nothing against this man who's living my dreams.
Starting point is 00:12:01 There you go. Maggie, always a pleasure. You bring us such great stories. Thanks for taking time to be with us today. Thank you. Maggie Kerth, science writer, an editorial lead at Carbon Plan based in Minneapolis. That's it for this week. Lots of folks help make this show happen, including... Melissa Mayers. Danielle Johnson.
Starting point is 00:12:19 Beth Rami. Nehima Ahmed. On Monday, join us for a science movie marathon. Until then, I'm CyFRI producer, Russia or Reedy. Have a great weekend.

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