Episode 437: Updates 8 and the Nutria

Nicholas shared a paper with me that indicates that marsupials actually evolved in what is now Asia, with marsupial ancestors discovered in China. They spread into North America later. So I’ve been getting that wrong over many episodes, over several years.

Måns shared a correction from an older episode where I mentioned that humans can’t get pregnant while breastfeeding a baby. I’ve heard this all my life but it turns out it’s not true. It is true that a woman’s fertility cycle is suppressed after giving birth, but it’s not related to breastfeeding. Some women can become pregnant again only a few months after giving birth, while others can’t get pregnant again for a few years. It depends on the individual. That’s important, since the myth is so widespread that many women get pregnant by accident thinking they can’t since they’re still feeding a baby.

Warblrwatchr commented on the ultraviolet episode and mentioned that cats can see ultraviolet, which is useful to them because mouse urine glows in UV light.

Finally, Llewelly pointed out that in episode 416, I didn’t mention that fire ant venom isn’t delivered when the ant bites someone. The ant bites with its mandibles to hold on, then uses the stinger on its back end to sting repeatedly.

Now, let’s dive into some updates about animals we’ve talked about in past episodes. As usual, I don’t try to give an update on every single animal, because we’d be here all week if I did. I just chose interesting studies that caught my eye.

In episode 402, we talked about snakes that travel in unusual ways, like sidewinders. Even though I had a note to myself to talk about the brown tree snake in that episode, I completely forgot. The brown tree snake is native to parts of coastal Australia and many islands around Indonesia and Papua New Guinea. It’s not native to Guam, which is an island in the western Pacific, way far away from the brown tree snake’s home. But in the late 1940s, some brown tree snakes made their way to Guam in cargo ships and have become invasive since then.

The brown tree snake can grow up to six and a half feet long, or 2 meters, and is nocturnal, aggressive, and venomous. It’s not typically a danger to adults, but its venom can be dangerous to children and pets. The government employs trained dogs to find the snakes so they can be removed, and this has worked so well that brown tree snake population is declining rapidly on the island. But that hasn’t stopped the snake from driving many native animals to extinction in the last 75 years, especially birds.

One of the things scientists did in Guam to try and protect the native birds was to place smooth poles around the island so birds could nest on top but snakes couldn’t climb up to eat the eggs and chicks. But before long, the snakes had figured out a way to climb the poles, a method never before documented in any snake.

To climb a pole, the snake wraps its body around it, with the head overlapping the tail. Then it sort of scoots itself up the pole with tiny motions of its spine, a slow, difficult process that takes a lot of energy. Tests of captured brown tree snakes afterwards showed that not all snakes are willing or able to climb poles this way. Scientists think the brown tree snake evolved this method of movement to climb smooth-trunked trees in its native habitat. They also suspect some other species of snake can do the same.

Way back in episode 23 we talked about musical animals, including how some species can recognize and react to a rhythmic beat while most can’t. Sea lions are really good at it, especially a sea lion named Ronan.

Ronan was rescued in 2009 when she was a young sea lion suffering from malnutrition, wandering down a highway in California. She was determined to be non-releasable after she recovered, so she’s been a member of the Pinniped Lab in the University of California – Santa Cruz ever since, where she participates in activities that help scientists study sea lions. The rhythm studies are only one of the things she does, and only occasionally. The scientists put on a metronome and she bobs her head to the beat while they film her in ultra-slow motion.

The latest study was published in May of 2025. Ronan is 16 years old now and in her prime, so it’s not surprising that she performed even better than her last tests when she was still quite young. The study determined that not only does Ronan hit the beat right on time, she’s actually better at it than a human a lot of the time. She hits the beat within 15 milliseconds. When you blink your eye, it takes 150 milliseconds. If only she had hands, she’d be the best drummer ever!

The greatest thing about this process is that Ronan enjoys it. She’s rewarded with fish after a training session, and if she doesn’t feel like doing an activity, she doesn’t have to.

Back in episode 220, we talked about the giant panda, especially the mysterious Qinling panda that’s brown and tan instead of black and white. A study published in March of 2024 looked into the genetics of this unusual coat color and determined that it was a natural genetic mutation that doesn’t make the animals unhealthy, meaning it probably isn’t a result of inbreeding.

We talk occasionally about tool use in animals, especially in birds like crows and parrots, and in primates like chimpanzees. But a study published in November of 2024 detailed an elephant in the Berlin Zoo that uses a water hose to shower.

You may not think that’s a big deal, but the elephant in question, named Mary, uses the hose the way a human would to shower off. She holds the hose with her trunk just behind the nozzle, then moves it around and shifts her body to make sure she gets water everywhere she wants. She has to sling the hose backwards to clean her back, and when researchers gave her a heavier hose that she couldn’t move around as easily, she didn’t bother with it but just used her own trunk to spray water on herself.

Even more interesting, another elephant, named Anchali, who doesn’t get along with Mary, will interfere with the hose while Mary is using it. She lifts part of the hose to kink it and stop the water from flowing. Sometimes she even steps on the hose to stop the water, something the elephants have been trained not to do since zookeepers use hoses to clean out the enclosures. Anchali only steps on a hose if Mary is using it.

This is the first time researchers have studied a water hose as tool use, but it makes sense for elephants to understand how to use a hose, since they have a built-in hose on their faces.

We talked about the rhinoceros in episode 346, and more recently in the narwhals and unicorns episode. A study published in March of 2025 suggested that the Javan rhino should be classified as a new species of rhino in its own genus. The Javan rhino is incredibly rare, with only about 60 individuals alive in the world, all of them living in the wild in one part of Java. The Javan rhino is also called the Sundaic rhinoceros, and it’s been considered a close relation of the Indian rhinoceros. It’s smaller than the Indian rhino and most Javan rhino females either don’t have a horn at all or only have a big bump on the nose instead of a real horn.

The Javan rhino is so rare that we don’t really know much about it. The new study determined that there are big enough differences between the Javan rhino and the Indian rhino, in their skeletons, skin, diet, behavior, and fossil remains, that they should be placed in separate genera. The proposed new name for the Javan rhino is Eurhinoceros sondaicus instead of Rhinoceros sondaicus.

The only insect native to Antarctica is the Antarctic midge, which we mentioned in episode 221 but haven’t really talked about. It’s a flightless insect that can grow up to 6 mm long, and it’s the only insect that lives year-round in Antarctica. It’s only been found on the peninsula on the northwestern side of the continent.

Every animal that lives in Antarctica is considered an extremophile, and this little midge has some remarkable adaptations to its harsh environment. Its body contains compounds that minimize the amount of ice that forms in its body when the temperature plunges. It’s so well adapted to cold weather that it actually can’t survive if the temperature gets much above freezing. It eats decaying vegetation, algae, microorganisms, and other tiny food in its larval stages, but doesn’t eat at all as an adult.

The midge spends most of its life as a larva, only metamorphosing into its adult form after two winters. During its first winter it enters a dormant phase called quiescence, but as soon as the weather warms, it can resume development. It enters another dormant phase called obligate diapause for its second winter, where it pupates as soon as the weather gets cold. When summer arrives, all the midges emerge as adults at the same time, which allows them to find mates and lay eggs before dying a few days later.

The female midge lays her eggs and deposits a jelly-like protein on top of them. The jelly acts as antifreeze and keeps the eggs from drying out, and when the eggs hatch, the babies can eat the jelly.

In episode 384, we talked about the Komodo dragon, and only a month or so after that, and right after the 2024 updates episode, a new study was released about Komodo dragon teeth. It turns out that the Komodo dragon has teeth that are tipped with iron, which helps keep them incredibly sharp but also strong. As if Komodo dragons weren’t already scary enough, now we know they have metal teeth!

Many animals incorporate iron in their teeth, especially rodents, which causes some animals to have orange or partially orange teeth. In the Komodo dragon, the iron is incorporated into the tooth’s enamel coating, but only on the tips of the teeth. Since Komodo dragons have serrated teeth, that’s a lot of very sharp points.

There’s no way currently to test fossilized teeth to see if they once contained iron, especially since the iron would most likely be deposited in the tooth coating, the way it is for animals living today, not in the tooth itself. But because the Komodo dragon has teeth that are very similar in many ways to the teeth of meat-eating dinosaurs, scientists think some dinosaurs may have had iron in their teeth too.

And that brings us to the nutria, an animal suggested by Emerson. Emerson likes the nutria because of its orange teeth, and hopefully you can guess why its teeth are orange.

The nutria is also called the coypu, and it’s a rodent native to South America. In Spanish the word nutria means otter, so in South America it’s almost exclusively called the coypu, and the name coypu is becoming more popular in other languages too. It’s been introduced to other parts of the world as a fur animal, and it has become invasive in parts of Europe, Japan, New Zealand, and the United States.

The nutria is a semi-aquatic rodent that looks like a muskrat but is much bigger, up to two feet long, or 64 cm, not counting its tail. It also kind of looks like a beaver but is smaller. If you’re not sure which of these three animals you’re looking at, since they’re so similar, the easiest way to tell them apart is to look at their tails. The beaver has a famously flattened paddle-like tail, the muskrat’s tail is flattened side to side to act as a rudder, and the nutria’s tail is just plain old round. The nutria also has a white muzzle and chin, and magnificent white whiskers.

The nutria mostly eats water plants and is mostly active in the twilight. While it usually lives around slow-moving streams and shallow lakes, it will also tolerate saltwater wetlands. Wild nutrias are generally dark brown, but ones bred for their fur are often blond or even white.

The nutria digs large dens with the entrance usually underwater, but the nesting chamber inside is dry. It also digs for roots. This can cause a lot of damage to levees and riverbanks, which is why the nutria is so destructive as an invasive animal. It will also eat people’s gardens and commercial crops like rice and alfalfa.

One interesting thing about the nutria is that the female has teats that are high up on her sides, which allows her babies to nurse even when they’re all in the water.

The nutria’s big incisor teeth are bright orange, as we mentioned before. This is indeed because of the iron in the enamel that strengthens the teeth. Like other rodents, the nutria’s incisors grow throughout its life and are continually worn down as it chews tough plants. A nutria eats about 25% of its weight in plants every single day. That’s almost as much as me and pizza.

You can find Strange Animals Podcast at strangeanimalspodcast.blubrry.net. That’s blueberry without any E’s. If you have questions, comments, or suggestions for future episodes, email us at strangeanimalspodcast@gmail.com. We also have a Patreon at patreon.com/strangeanimalspodcast if you’d like to support us for as little as one dollar a month and get monthly bonus episodes.

Thanks for listening!

Episode 023: Nonhuman Musicians

Posted on July 10, 2017 by strangeanimalspodcast

Podcast: Play in new window | Download (Duration: 12:19 — 12.9MB)

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This week’s episode is about nonhuman musicians. It’s rarer than you’d think.

The palm cockatoo. Nature’s drummer. In possibly related news, I know what my next tattoo is going to be.

Snowball the Dancing Cockatoo.

Members of the Thai Elephant Orchestra at the Thai Elephant Conservation Center:

Further reading:

Kinship with Animals by Dave Soldier

Show transcript:

Welcome to Strange Animals Podcast. I’m your host, Kate Shaw.

This week’s episode about nonhuman musicians was inspired by an article about palm cockatoos. The male cockatoos drum on tree trunks or hollow logs as part of their courtship display, which doesn’t sound all that unusual until you learn that they use special crafted sticks to drum. A male will select a stick, trim it down the way he wants it, and hold it in his claw to drum. Sometimes he’ll use a hard seedpod instead. The resulting beats are not only consistently in rhythm, each individual has a personal style. Some drum quickly, some slowly, some throw in little flourishes. Sometimes females will drum too, and if a female likes a male’s drumming, she may imitate him or join in.

Here’s a little clip of a male drumming. He’s also whistling.

[palm cockatoo drumming]

The palm cockatoo is an awesome-looking bird. It looks like a drummer. It’s up to two feet long, or 61 cm, smoky gray or gray-black with a heavy gray beak, red cheek patches that flush when the bird is upset or excited, and a messy crest of feathers. It’s native to Papua New Guinea, Indonesia, and the very northern tip of Australia, Cape York Peninsula. Only the Australian birds are known to drum. Unfortunately, the Australian birds are the ones most threatened in the wild due to habitat loss.

The palm cockatoo eats nuts and seeds, and like all parrots it can live a long time. And yes, you can get them as pets—and now I’m desperate for one even though the last thing I need is a pet cockatoo. I have a coworker with a pet parrot who she says is incredibly neurotic. He tends to get overexcited and starts screaming, and she has to put him in his cage and cover it so he’ll shut up. Her kids found the parrot when they were young. He plopped down in her yard when they were playing outside, and they put an empty laundry basket over him to trap him. No one claimed him, so my coworker has now been stuck with a neurotic parrot for over twenty years. She’s pretty sure he survived in the wild by hanging out with crows, because one of the things that will set off his excited screaming is hearing crows outside. And while cockatoos and parrots in general are typically affectionate and make good pets, palm cockatoos are not. They’re considered “difficult.” When parrot fanciers call a type of bird difficult, it’s difficult.

Anyway, the really unusual thing about the palm cockatoo’s drumming isn’t its tool use, which is well known among many types of birds, especially parrots and their relations. It’s the rhythm.

Most animals can’t keep a beat. Synchronization to an external rhythm is called rhythmic entrainment. Humans are really good at it and recognize a beat automatically, but responding in time to a rhythm is a learned skill. Small children have to learn to keep a beat by moving their bodies, speaking, or singing, and they learn it best in social settings. That’s why music, dance, and rhythmic play activities are so important to preschool children. And as a drummer myself, I promise you, humans of any age can learn to improve their rhythm.

But most animals don’t seem to have the ability to distinguish rhythmic beats, although it hasn’t been studied all that much until fairly recently. Some researchers think it may have something to do with the ability to mimic vocal sounds.

That would explain why many birds show rhythmic entrainment, varying from species to species. A sulfur-crested cockatoo named Snowball was internet-famous for a while in clips where the bird danced to music. As a result, Snowball became the subject of a rhythmic entrainment study that shows he can adapt his dancing to changing tempos.

But not all animals who show rhythmic entrainment can mimic vocally. California sea lions aren’t exactly the parrots of the sea animal world, but they can be trained to move to a beat. On the other hand, closely related seals are vocal learners. In fact, one famous harbor seal who was raised by a fisherman who found the orphaned pup could imitate the fisherman so well he was known as “Hoover the Talking Seal.”

Here’s the only clip I would find of Hoover. The first time I listened to it, I couldn’t figure out when the seal was talking. All I could hear was some gruff-sounding guy talking really fast. Well, that’s Hoover.

[Hoover the talking seal]

That is Hoover the talking seal talking. It’s creepy as heck.

It’s possible that sea lions still retain neural pathways that allow vocal mimicking even if they no longer use them. Then again, some researchers now believe that vocal mimicking ability may only be a skill related to rhythmic entrainment, not the source of the ability, and that the neural pathways for rhythmic entrainment may be very old. Some species can express entrainment, others appear to have lost it.

Studies on human brains show that when music plays, pretty much the entire brain lights up in response. That’s because we have special neural connections that help coordinate motor planning, speech, and other skills with the perceived beat. Brains of parrots and other birds are very similar. But monkeys are not. Monkeys can’t dance. Poor monkeys.

One study with rhesus monkeys who were trained to tap in rhythm with a metronome determined that they couldn’t anticipate the beat but could tap just after it, responding to it, even after years of training. Many rhythmic entrainment studies focus on great apes, since it’s reasonable to suppose that humans’ close cousins might share our rhythmic ability.

Patricia Grey, a bio-music researcher at the University of North Carolina at Greensboro, taught a group of captive bonobo apes to play a drum along with a beat. But it wasn’t as simple as showing a bonobo how a drum worked and seeing if it could keep a beat. She had to encourage the apes in a social setting, just like with human children. Also, she had to design a drum that could take a whole lot of abuse. I love that she went to Remo, a company that manufactures drums and drumheads, to have the drum made.

Her experiment started by accident. In 2010, Grey was at the Great Ape Research Center in Des Moines waiting for an experiment to be set up, and while she waited she idly tapped the glass on the bonobo enclosure. A bonobo named Kanzi came over and tapped her hand on the glass in response, matching Grey’s tempo. Intrigued, Grey continued tapping to see how long Kanzi would keep it up. Kanzi didn’t stop, even when her snack time came. She ate her snack lying on her back so she could continue to tap with her feet.

Wild chimpanzees and bonobos drum on logs and their own bodies to make rhythmic noise during play and dominance activities. Dominant male chimps do a particularly exaggerated slow display when thunderstorms approach, called a rain dance by researchers, that involves drumming. A variation of the rain dance has been seen when wildfires are approaching a troupe of chimps. Naturally it’s called a fire dance, and it includes a vocalization heard at no other time.

Chimps are pretty chill when it comes to fire, by the way. They understand how it spreads and how to avoid it without panicking.

Another animal that can keep the beat? Elephants! Asian elephants are vocal mimics and their ability to keep a beat is extremely precise. In 2000, the Thai Elephant Orchestra was created with elephants at a conservation center in Thailand, who learned to play oversized versions of traditional Thai percussion instruments.

The elephants learned the instruments easily, taking to it so quickly and so well that the orchestra’s founders were astonished. The great thing is, the elephants actually create much of the music themselves. The orchestra’s founders, neuroscientist Dave Soldier and elephant conservationist Richard Lair, wanted the elephants to have fun and enjoy making music. So for most songs, the animals are only signaled when to start and stop playing. Occasionally human musicians play along.

The orchestra released three albums between 2002 and 2011, which were all well received—not as novelty albums, but as actual improvisational compositions. Some of the songs are arranged, with the elephants trained to play traditional Thai music. The orchestra performs live for visitors at the conservation center.

The orchestra varies in size from five to fourteen elephants. One particularly talented drummer, Luk Kop, could play three drums at the same time and set up complex rhythms. Unfortunately he was also a dangerous elephant, and that’s not good for a band or an elephant orchestra, so he had to drop out.

The elephants prefer non-dissonant tones and learn to strike the properly resonant parts of their instruments without even being taught. The elephants at the center also enjoy playing harmonicas. The tip of an elephant’s trunk has a fingerlike projection, so an elephant can hold a harmonica and blow through it with its trunk. Soldier reports that one morning he arrived at the center early when the elephants were heading down to the river for their morning bath. Almost all the elephants had brought their harmonicas and were playing together as they walked.

Most of the elephants at the center are former logging animals, and many of their handlers, known as mahouts, once worked with them when they were logging. Mahouts traditionally sing to their elephants, which is supposed to keep them calm. So the elephants in the orchestra are familiar with traditional Thai music.

Locals who have heard the orchestra play say the music sounds like the music in Buddhist temples. Soldier, a musician and composer himself, transcribed an original elephant piece which was then played by a human orchestra in New York. The audience didn’t know it was composed by elephants. Some guesses as to who the composer might be included John Cage, Dvorak, and Charles Ives.

Whether or not you like improvisational Thai music played by elephants, or you think it’s just a stupid gimmick, it’s clear the elephants are having a lot of fun. Here’s a clip of some of their music recorded at the conservation center. That’s some mighty fine percussion for animals who don’t even have hands.

[elephant orchestra]

You can find Strange Animals Podcast online at strangeanimalspodcast.blubrry.net. That’s blueberry without any E’s. If you have questions, comments, or suggestions for future episodes, email us at strangeanimalspodcast@gmail.com. We also have a Patreon at patreon.com/strangeanimalspodcast if you’d like to support us and get twice-monthly bonus episodes for as little as one dollar a month.

Thanks for listening!

Strange Animals Podcast

A podcast about living, extinct, and imaginary animals!

Tag Archives: sea lion

Episode 437: Updates 8 and the Nutria

Episode 023: Nonhuman Musicians