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This week in science: whale menopause, bird rest stops and a speech-generating patch


It's time for our regular science news roundup with our friends at NPR's Short Wave podcast, Emily Kwong and Margaret Cirino. Hi, there.


SHAPIRO: OK. So how this works is you bring us three science stories that have caught your eye this week.


SHAPIRO: What have you got for us today?

KWONG: Well, we have an innovative patch to help people with vocal disorders speak.

MARGARET CIRINO, BYLINE: And we've got new research on menopause in whales.

KWONG: And songbird migration and their secret rest stops.

SHAPIRO: Emily, let's start with this patch that might help people with voice disorders speak?

KWONG: Yeah. So a little backstory - the person who actually inspired me to become a journalist was this fantastic newspaper reporter up in Maine. His name was Doug Harlow, and he used a special device to speak. I interviewed him about it 10 years ago.


DOUG HARLOW: (Through electrolarynx) Good afternoon. Doug Harlow calling.

KWONG: The reason is because, when Doug was in his mid 50s, Ari, doctors found throat cancer. So he had his vocal cords removed to save his life. And in their place, he was given a hand-held, battery powered device called an electrolarynx.


HARLOW: (Through electrolarynx) I remember it being, like, a - more an advantage.


KWONG: The device basically vibrates, and Doug would hold it up against his throat. And with time, he learned how to turn those vibrations into the sound of words like you just heard. But now, a team at UCLA has figured out a new way to help people with voice disorders speak, no hands required.


CIRINO: Yeah. This is a type of patch that sticks directly to the skin on the throat. They published their research in the journal Nature Communications last week.

SHAPIRO: So this patch sticks onto the throat. And how does it work?

CIRINO: So the patch is about 1 square inch. It's made of this soft, stretchy material. Ari, I'm going to ask you to put your hand to your throat as you speak - and just say a few words for me.

SHAPIRO: OK. My hand is on my throat like a hand scarf.

KWONG: (Singing) La, la, la, la.

SHAPIRO: Yeah, I'm feeling vibrations here.

KWONG: Yeah. So that muscle movement that you feel - the patch can turn it into an electrical signal, which is then converted into audible speech that anyone can hear - sounds a little like this.


UNIDENTIFIED PERSON: (Through voice-changer patch) Merry Christmas.

SHAPIRO: Wow. The difference between the earlier version of the voice device and that is night and day.


SHAPIRO: Well, everybody has a different voice. Is this patch able to kind of decode all the different range of voices that there are in an accurate way?

CIRINO: Yeah. So the researchers developed a machine learning algorithm to correlate the electrical signal to certain words. And the machine learns over time since everyone's voice is different.

KWONG: Yeah. The device's inventor, Jun Chen, said his team has measured an accuracy rate of about 95%.

SHAPIRO: Is this device going to be commercially available anytime soon?

KWONG: So Jun's team has to do a lot more tests to increase the vocabulary and translation accuracy of the patch. But if that pans out, he hopes something like this can be commercially available in three to five years.


OK, next, Marge, can we go to your story about menopause in whales?

CIRINO: Yes, we can. But first, did you know most animals don't go through menopause? Humans are kind of special that way.

SHAPIRO: Not to brag, but I did know that.

CIRINO: Well, I didn't. And so I had Sam Ellis, an animal behavior researcher involved in the study, explain why it's so rare.

SAM ELLIS: The best way to propagate your genes is to get as many offspring as possible into the next generation. The best way to do that is almost always going to be to reproduce for your whole life. So I think, really, it's not a surprise that it's so rare because it's such a strange strategy.

KWONG: Sam is at the University of Exeter in the U.K., and he studies menopause in one of the only types of mammals that experience it other than humans, and that is toothed whales, like killer whales.

SHAPIRO: So why would these toothed whales experience menopause and not like - I don't know - baleen whales?

CIRINO: Researchers aren't sure why exactly, but they do know menopause has evolved several times in whales, so they think it must have some benefit.

KWONG: OK. This is the study. It was in the journal Nature. Sam and his team compared the five known species of toothed whales that go through menopause to the ones that don't. And they found that the female whales undergoing menopause lived, on average, 40 years longer than females of other species.


KWONG: And on top of that, they also lived longer than the males of their own species.

SHAPIRO: And could they say why menopause appears to have this link with longevity?

CIRINO: Well, Sam told me this has to do with something called reproductive competition. Like, if a mother and her daughter are both reproducing - you know, still living in the same group at the same time, they're gunning for the same resources, like food. Menopause fixes that. Instead of grandmother whales competing with their daughters for resources, this allows older female toothed whales to provide intergenerational help.


KWONG: Yeah. These grandma whales - they can share food with relatives, share their knowledge of the ecosystem and even babysit their grand-offspring.


KWONG: Older whales have been documented babysitting their grand-calves.

SHAPIRO: I don't want to anthropomorphize whales, but does this study tell us anything about why menopause may have evolved in humans?

KWONG: That's a good question, yeah.

CIRINO: Yeah. I mean, we can't say for sure that this is why menopause evolved in humans, but Sam says that's likely the case. And either way, this research reveals some of the social utility of going through menopause and being a grandma.

SHAPIRO: We all love grandmas.

KWONG: Shout-out to the grandmas.

SHAPIRO: OK, third science story for today is about the secret places songbirds rest during their migration. What a seasonally appropriate choice.

KWONG: Indeed. Yes, happy spring to you, Ari - to everyone. The spring bird migration is underway. That means billions of birds will be migrating north to and through the U.S.

CIRINO: And some of these birds are traveling thousands of miles to breeding grounds in search of food. So scientists generally know where birds are traveling to and from, but what's been less clear is where they stop to rest and recuperate along the way.

SHAPIRO: Secret bird rest stops.

CIRINO: Exactly.

KWONG: Not knowing the rest stops is a problem. It's been kind of the missing link for people who want to protect migrating birds. And bird populations in North America have been plummeting in recent years. Ornithologists estimate roughly 3 billion birds, which is nearly 30% of their population, have been lost in the last 50 years.

SHAPIRO: Oh, so if you want to protect these bird populations, knowing where they rest can help you protect those spaces and protect the populations.

CIRINO: That's right. So a recent study published in Current Biology has finally given us an idea of where this happens along the eastern U.S. by using weather radar. Our colleague, Nathan Rott, talked to the lead researcher on the paper, a Princeton Ph.D. student, Fengyi Guo.

FENGYI GUO: The cool thing about this is that most of them are nocturnal migrants, meaning that they migrate at night, and they usually take off in a very synchronized way near sunset, which can be well captured by weather radars.

CIRINO: So birds show up differently on weather radar than rain, for example. And it's those distinctions that help them map out where the birds are resting.

SHAPIRO: I'm dying to know - what were these secret places that the scientists uncovered?

KWONG: So for spring migration, the researchers identified hotspots throughout the Midwest and the East. They're mainly in deciduous forest fragments - so, like, blocks of forest. And when you add up both spring and fall hotspots, the researchers found that only one-third of those spots are in protected areas, like a state forest or national park.


CIRINO: Fengyi says part of the reason for that is that a lot of this land is privately owned, so she hopes this kind of data can create opportunities to partner up with private landowners on bird conservation efforts.

SHAPIRO: Fascinating.


SHAPIRO: That is Emily Kwong and Margaret Cirino from NPR's science podcast, Short Wave, where you can learn about new discoveries, everyday mysteries and the science behind the headlines. Good to have you both with us. Thanks again.

CIRINO: Thanks, Ari.

KWONG: Always a pleasure.

(SOUNDBITE OF SLVR SONG, "BACK N FORTH") Transcript provided by NPR, Copyright NPR.

NPR transcripts are created on a rush deadline by an NPR contractor. This text may not be in its final form and may be updated or revised in the future. Accuracy and availability may vary. The authoritative record of NPR’s programming is the audio record.

Margaret Cirino
Margaret Cirino (she/her) is a production assistant at Short Wave, NPR's daily science podcast. Her job involves pitching, producing and forcing her virtual and in-person co-workers to play board games with her. She has a soft spot for reporting on cute critters and outer space (not at the same time, of course).
Emily Kwong (she/her) is the reporter for NPR's daily science podcast, Short Wave. The podcast explores new discoveries, everyday mysteries and the science behind the headlines — all in about 10 minutes, Monday through Friday.
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