Strange Animals Podcast

Thanks to Cosmo and Zachary for suggesting this week’s monitor lizards! Further reading: No One Imagined Giant Lizard Nests Would Be This Weird The Mighty Modifications of the Yellow-Spotted Goanna The Asian water monitor: A yellow-spotted goanna standing up [picture by Geowombats – https://www.flickr.com/photos/geowombats/136601260/, CC BY 2.0, https://commons.wikimedia.org/w/index.php?curid=2595566]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Last week we had our big dragons episode where we learned about the Komodo dragon and some of its relations, including goannas. I forgot to thank Cosmo for suggesting the lace monitor, also called the tree goanna, in that episode, and I also forgot that Zachary had also suggested monitor lizards as a topic, so let’s learn about two more monitor lizards this week. Cosmo is particularly interested in aquatic and semi-aquatic animals, and a lot of monitor lizards are semi-aquatic. Let’s learn about the Asian water monitor first, since it’s the second-largest lizard alive today, only smaller than the Komodo dragon. The Asian water monitor is common in many parts of South and Southeast Asia, including India, Vietnam, Cambodia, Laos, southern China, and many islands. A half dozen subspecies are currently recognized, although there may be more. The largest water monitor ever reliably measured was 10 1/2 feet long, or 3.2 meters. It’s dark brown or black with yellow speckles and streaks, and young lizards have larger yellow spots and stripes. It lives wherever it can find fresh or brackish water, from lakes and rivers to swamps, ponds, and even sewers. Like the crocodile, the Asian water monitor’s tail is flattened from side to side, called lateral compression, and it’s also very strong. It swims by tucking its legs against its sides and propelling itself through the water with its tail. It can dive deeply to find food, and while it prefers fresh water, it will swim in the ocean too. That’s why it’s found on so many islands. Juvenile Asian water monitors spend most of the time in trees, but even a fully grown lizard will sometimes climb a tree to escape danger. Only saltwater crocodiles and humans kill the adults. In some parts of its range, the water monitor is killed by humans for its meat and its skin, which is used as leather. In other parts of its range, it’s never bothered since it eats venomous snakes and animals that damage crops. It’s sometimes kept as a pet, although it can grow so big that many people who buy a baby water monitor eventually run out of room to keep it. That’s how so many have ended up in the waterways of Florida and other areas far outside of its natural range, from people letting pets go in the wild even though doing so is illegal and immoral. While most of the time the water monitor isn’t dangerous to humans, if it feels threatened, it can be quite dangerous. Like the Komodo dragon and other monitor lizards, it’s venomous, plus its teeth are serrated, its jaws are strong, and it has sharp claws. It eats a lot of carrion, along with anything it can catch. A population in Java even enters caves to hunt bats that fall from the ceiling. Zachary didn’t suggest a particular type of monitor lizard, so let’s learn about the yellow-spotted goanna. Goannas are a type of monitor lizard found in Australia, New Guinea, and some nearby areas. We talked about some of them last week, including Cosmos’s suggestion of the lace monitor, but after the episode was released I found an article I had saved over a year ago. It’s about the yellow-spotted goanna, and a remarkable discovery about how it takes care of its eggs. The yellow-spotted goanna lives in parts of Australia and southern New Guinea, and a big male can grow up to five feet long, or 1.5 meters. It can swim and climb trees when it wants to, but mainly it stays on the ground, although it prefers to live near water if possible. It’s a fast runner and chases its prey instead of ambushing it. It eats small animals like rodents, birds, fish, insects, and reptiles, including other monitor lizards. If you remember last week’s episode, the female tree goanna digs a hole into a termite nest to lay her eggs inside. The termites repair the hole in their nest, which means the eggs are nicely hidden from predators and protected from weather, and when the babies hatch they have lots of termites to eat. That’s weird enough, but the yellow-spotted goanna female has an even more interesting way of protecting her eggs. The yellow-spotted goanna digs a big burrow to hide in, and it spends a lot of its time in the burrow when it’s not out hunting. Researchers assumed the female laid her eggs in the burrow, but every time they investigated a female’s burrow, it was empty. In 2012, a herpetologist named Sam Doody hoped to figure out where the female hid her eggs. He thought the eggs might be buried inside the burrow. When a female left her burrow, he and his team examined the bur

This week we need to thanks a bunch of listeners for their suggestions: Bowie, Eilee, Pranav, and Yuzu! Further reading: Elaborate Komodo dragon armor defends against other dragons Giant killer lizard fossil shines new light on early Australians A New Origin for Dragon Folklore? The Wyvern of Wonderland The Komodo dragon: The beautiful tree goanna: The perentie: Fossilized scale tree bark looks like reptile scales: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to revisit a popular topic we talked about back in episode 53. That episode was about dragons, including the Komodo dragon. Since then, Bowie has requested to learn more about the Komodo dragon and Eilee and Pranav both suggested an updated dragon episode. We also have a related suggestion from Yuzu, who wants to learn more about goannas in general. We’ll start with the Komodo dragon, which gets its name because it’s a huge and terrifying monitor lizard. It can grow over 10 feet long, or 3 meters, which means it’s the biggest lizard alive today. It has serrated teeth that can be an inch long, or 2.5 cm, and its skin is covered with bony osteoderms that make it spiky and act as armor. Since the Komodo dragon is the apex predator in its habitat, it only needs armor to protect it from other Komodo dragons. Fortunately for people who like to hike and have picnics in nature, the Komodo dragon only lives on four small islands in Indonesia in southeast Asia, including the island of Komodo. Young Komodo dragons have no armor and spend most of the time in trees, where they eat insects and other small animals. As the dragon gets older and heavier, it spends more and more time on the ground. Its armor develops at that point and is especially strong on the head. The only patches on the head that don’t have osteoderms are around the eyes and nostrils, the edges of the mouth, and over the pineal eye. That’s an organ on the top of the head that can sense light. Yes, it’s technically a third eye! The Komodo dragon is an ambush predator. When an animal happens by, the dragon jumps at it and gives it a big bite from its serrated teeth. Not only are its teeth huge and dangerous, its saliva contains venom. It’s very good at killing even a large animal like a wild pig quickly, but if the animal gets away it often dies from venom, infection, and blood loss. Like a lot of reptiles, the Komodo dragon can swallow food that’s a lot bigger than its mouth. The bones of its jaws are what’s called loosely articulated, meaning the joints can flex to allow the dragon to swallow a goat whole, for instance. Its stomach can also expand to hold a really big meal all at once. After a dragon has swallowed as much as it can hold, it lies around in the sun to digest its food. After its food is digested, which can take days, it horks up a big wad of whatever it can’t digest. This includes hair or feathers, horns, hooves, teeth, and so on, all glued together with mucus. A Komodo dragon eats anything it can catch, and the bigger the dragon is, the bigger the animals it can catch. One thing Komodo dragons are just fine with eating are other Komodo dragons. As we mentioned a few minutes ago, the Komodo dragon is a type of monitor lizard, and there are lots of monitor lizards that live throughout much of the warmest parts of the earth, including Australia. Yuzu suggested we talk about the goanna, which is the term for monitor lizards in the genus Varanus, although it’s also a term sometimes used for all monitor lizards. Goannas are more closely related to snakes than to other types of lizard. Like the Komodo dragon, the goanna will eat pretty much any animal it can catch, and will also scavenge already dead animals. Smaller goannas mostly eat insects, especially the tiny goanna often called the short-tailed pygmy monitor or just the pygmy monitor. Its tail is actually pretty long for its size. It only grows about 8 inches long at most, or 20 cm, and babies are less than the length of your pinkie finger. It spends most of its time underground in a burrow, but comes out to hunt for grasshoppers and other insects, spiders, scorpions, and sometimes frogs and small snakes. Many species of goanna spend the hottest part of the day in a burrow, and some species will hibernate in winter. Most goannas spend all their time on the ground unless they’re actually underground, but some live in trees. The tree goanna, also called the lace monitor or just lacy, can grow up to seven feet long, or over two meters, but is lightly built to climb around on tree branches looking for food. The tree goanna eats a whole lot of bird eggs, along with whatever animals it can catch in trees or on the ground. It eats a lot of carrion and will even get into trash cans if it smells food. When the female is ready to lay her eggs, she digs a hole in the side of a termite nest and lays them in the nest. The termites repair the hole, which hides the eggs, and when the babies hat

Thanks to Catherine and arilloyd for suggesting the marsupial mole! Further reading: Northern marsupial mole: Rare blind creature photographed in Australian outback The marsupial mole, adorable little not-mole from Australia [photo from article above]: Grant’s golden mole, adorable little not-mole from Africa: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a little short episode about a very small Australian animal suggested by two listeners: Catherine, who has the best name ever, and someone called arilloyd who left us a nice review and suggested this animal in the review. I’m not sure I’m pronouncing their name right, so apologies if not. The animal is the unusual but very cute marsupial mole. There are two closely related species of marsupial mole, one that lives farther north than the other. They look very similar, with silky golden fur, strong, short legs with strong claws for digging, a very short tail, no external ears, and no eyes. The marsupial mole doesn’t have eyes at all. It doesn’t need eyes because it spends almost its entire life underground. All this sounds similar to other moles, but the marsupial mole isn’t related to other moles. Other moles are placental mammals while the marsupial mole is a (guess, you have to guess), right, it’s a marsupial! That means its babies are born very early and crawl into the mother’s pouch to finish developing. The marsupial mole has two teats, so it can raise two babies at a time. The marsupial mole grows around 6 inches long, or about 16 cm, and is a little chonky animal with a pouch that faces backwards so sand won’t get in it. It has a leathery nose and small teeth, and its front feet are large with two big claws. We actually don’t know very much about the marsupial mole because it’s so seldom seen. Not only does it live underground, it lives in the dry interior of Australia, the Great Sandy Desert. It probably also lives in other desert areas of Australia. Scientists think the marsupial mole originally evolved to dig not in desert sand but in the soft, wet ground in rainforests. Over millions of years Australia became more and more dry, until the rainforests eventually gave way to the current desert conditions. The marsupial mole had time to adapt as its environment changed, and now it’s extremely well adapted to living in sand. It sort of swims through the sand using its big paddle-shaped front feet, kicking the sand behind it with its back legs. Unlike other moles, the marsupial mole doesn’t dig permanent tunnels and the sand just collapses behind it. While the marsupial mole can’t see, and probably doesn’t have great hearing by our standards, it does have a good sense of smell in order to sniff out insect eggs and larvae, worms, and other small, soft food. It probably searches mainly for insect nests where it can find lots of food at one time, like ant nests. There are also reports of it eating adult insects, seeds, and even small lizards. The reason the marsupial mole looks and acts so much like placental moles is due to convergent evolution. The mole’s body shape and habits just work really well for an animal that wants to dig around and eat grubs. Like other moles, it has trouble regulating its body temperature since most of the time it doesn’t need to do so. If it gets too hot, it can dig deeper into the sand where it’s cooler. The marsupial mole is most similar to a completely unrelated placental mammal, Grant’s golden mole, which lives in a few parts of coastal South Africa and Namibia in Africa. Grant’s golden mole lives in sandy areas and swims through the sand like the marsupial mole does. It mainly eats termites and other insects, but it will also eat small reptiles. Its fur is a sandy golden color and it has no external ears, no eyes, and three big claws on its front feet. It only grows about 3 and a half inches long, or 9 cm, which makes it the smallest golden mole. It’s nocturnal and emerges from the sand at night, often hunting aboveground to conserve energy. It mostly hunts by hearing, but since its ears are most effective when it’s underground, it will often stop and stick its head into the sand to listen for potential prey. Other golden moles are a little bit larger and live in different parts of Africa in different environments, from forests to swamps. But while golden moles are placental mammals, they’re not actually moles despite the name. They look and act like moles, but they’re actually more closely related to the tenrec, which we talked about in episode 324. The golden mole just shares the same traits as true moles due to convergent evolution again. Just like water animals that all eventually develop a fish-like body shape, it seems that all digging mammals eventually develop a mole-like body shape. That shape also happens to be really cute, which is just a little extra bonus for the animal. You can find Strange Animals Podcast at strangeanimalspodcast.blubrry.net. That’s

Thanks to Luke for suggesting this week’s topic: Smilodon, the saber-toothed cat, AKA the sabertooth tiger! Further reading: Did sabertooth tigers purr or roar? The double-fanged adolescence of saber-toothed cats We don’t know for sure what Smilodon looked like, but it might have been something like this: An artist’s rendition of an adolescent Smilodon with doubled fangs [picture from second link above]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about an animal suggested by Luke, the sabertooth tiger, also called the sabertooth cat since it wasn’t actually a tiger, also called smilodon after its scientific name. We’ve talked about it before, way back in episode 34, but a lot of new studies have been published since then and we know a lot more about this terrifying-looking animal! The genus of the saber-toothed cat is Smilodon, so that’s mostly what I’m going to call it in this episode. It’s classified as a member of the family Felidae, which is the same family where you find domestic cats, wildcats, big cats, and lots of extinct animals like the cave lion, but Smilodon wasn’t closely related to what we think of as cats. There were at least three species of saber-tooth cats in the genus Smilodon that we know of, but it had many other similar-looking relatives. Smilodon is best known from the La Brea tar pits in Los Angeles, California, where the remains of hundreds of individuals have been discovered. That’s a big reason why we know so much about Smilodon, especially the species Smilodon fatalis that lived in North America and parts of South America. An even bigger species lived exclusively in South America, while both were probably descended from a smaller species that also lived in South America. S. fatalis is estimated to have grown up to 39 inches tall at the shoulder, or 99 cm, while S. populator stood at an estimated 47 inches tall, or 119 cm. That’s almost four feet tall. Some full-grown humans are that height! Smilodon was so stocky and heavily muscled that it probably looked more like a bear than a cat. Its had a broad head and jaws that could open much wider than most modern animals, which allowed it to deploy its most deadly weapon, its saber teeth, without its jaw getting in the way. Smilodon’s saber teeth were as much as 11 inches long, or 28 cm, although S. fatalis typically had teeth around 8 inches long, or 20 cm. Big as they were, the saber teeth were also relatively delicate. A young Smilodon didn’t start growing its big teeth until it was about a year old, and even then it had to learn how to use them so they wouldn’t break. Luckily for adolescent smilodons, they didn’t lose their baby fangs until they were fully grown. Most mammals only grow two sets of teeth in our lifetimes. The first set is usually called baby teeth or milk teeth. As the baby grows up, its adult teeth start growing in one at a time. The adult tooth pushes at the baby tooth until it gets loose and either comes out on its own or, in the case of me in second grade, I asked to go to the bathroom and then spent half an hour twisting at a loose baby tooth until it finally came out, along with some blood. But I got a quarter that night from the tooth fairy. (Kids, maybe don’t do that.) In the case of a young smilodon’s saber teeth, they grew in just next to the baby fangs. Instead of pushing the baby fangs out, the new teeth grew alongside them and even had a groove for the baby teeth to fit into. When scientists first discovered preserved jaws with these double fangs, they thought it was a fluke, that sometimes the new teeth came in wrong and didn’t push the old teeth out. That happens in humans sometimes too and then you have to go to the dentist to get the old baby teeth taken out. But paleontologists kept finding these double toothed jaws, and only in adolescent smilodons. Finally a team of scientists studied the teeth carefully and made a surprising discovery. The baby fang stayed in place next to the saber tooth until the animal was about two and a half years old, at which time the baby fang finally fell out. In early 2024 the team published their study, which concluded that these double teeth acted sort of like a set of training wheels. Training wheels on a bicycle keep a new rider from tipping over sideways, and the doubled fangs kept the saber teeth from getting bent sideways until they broke. By the time the baby fang fell out, the smilodon had lots of experience hunting properly and no longer needed training wheels. Smilodon legs are relatively short, which suggests it didn’t do a lot of running after prey. It was probably an ambush hunter and may have hunted in groups, sort of like lions do today. Some scientists think that instead of big groups, smilodon lived in small family groups of a mated pair and their offspring, which they took care of for several years. There’s even some evidence that adult animals with debilitating inju

Thanks to Richard from NC, Pranav, and Alexandra for their suggestions this week! Further reading: ABA Rare Bird Alert One Reason Migrating Birds Get Lost Is Out of This World Inside the Amazing Cross-Continent Saga of the Steller’s Sea-Eagle A Vagrant European Robin Is Drawing Huge Crowds in China Bird migration: When vagrants become pioneers A red-cockaded woodpecker: Steller’s Sea Eagle making a couple of bald eagles look small: Steller’s sea eagle: A whole lot of birders showed up to see a European robin that showed up in the Beijing Zoo [photo from the fourth article linked above]: A robin: Mandarin ducks: Richard’s pipit [photo by JJ Harrison (https://www.jjharrison.com.au/) – Own work, CC BY 3.0, https://commons.wikimedia.org/w/index.php?curid=23214345]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. We’re talking about some birds again this week, with a slightly mysterious twist. These are birds that have shown up in places where they shouldn’t be, sometimes way way far from home! Thanks to Richard from NC for inspiring this episode and suggesting one of the birds we’re going to talk about, and thanks to Pranav for suggesting we cover more out of place animals. Last week we talked about some woodpeckers, and I said I thought there was another listener who had suggested the topic. Well, that was Alexandra! Let’s start today’s episode talking about the red-cockaded woodpecker, another bird Alexandra suggested. The red-cockaded woodpecker is native to the coastal southeastern United States, where it lives in pine forests. It’s increasingly threatened by habitat loss since the pine forests get smaller every year, and not only does it need old-growth pine forests to survive, it also needs some of the trees to be affected by red heart fungus. The fungus softens the interior wood, which is otherwise very hard, and allows a woodpecker to excavate nesting holes in various trees that can be quite large. The female lays her eggs in the best nesting hole and she and her mate raise the babies together, helped by any of their children from previous nests who don’t have a mate of their own yet. When they don’t have babies, during the day the birds forage together, but at night they each hide in their own little nesting hole to sleep. It’s a small bird that doesn’t migrate, which is why Beth Miller, a birder in Muskegon, Michigan, couldn’t identify it when she spotted it on July 1, 2022 in some pine trees near a golf course. She took lots of photos and a recording of its calls, which she posted in a birding group to ask for help. She knew the bird had to be a rare visitor of some kind, but when it was identified as a red-cockaded woodpecker, she and nine birder friends went back to the golf course to look for it. Unfortunately, they couldn’t find the bird again. It was the first time a red-cockaded woodpecker had ever been identified in Michigan, although individual birds do sometimes wander widely. While bird migration isn’t fully understood, many birds use the earth’s magnetic field to find their way to new territories and back again later in the year. Humans can’t sense magnetic fields but birds can, and being able to sense Earth’s magnetic field helps birds navigate even at night or during weather that keeps them from being able to see landmarks. But sometimes birds get lost, especially young birds who have never migrated before or a bird that gets caught in storm winds that blow it far off course. If a bird shows up somewhere far outside of its normal range, birdwatchers refer to it as a vagrant, and some birders will travel great distances to see vagrant birds. One interesting note is that birds navigating by the earth’s magnetic field can get confused if the magnetic field is disrupted by geomagnetic storms, including solar flares, sunspots, and coronal mass ejections. Very recently as this episode goes live, the aurora has been occasionally visible across much of the world. The aurora is caused by charged particles from the sun reaching Earth’s atmosphere, causing a colorful glow or shimmer in the night sky, and it’s usually only visible at or near the poles. This month it was visible in places far away from the poles. Fortunately, a really strong geomagnetic storm like the ones this month can actually make it easier for birds to migrate. Instead of getting a scrambled sense of the earth’s magnetic field, a strong geomagnetic storm can temporarily knock out a bird’s ability to sense the magnetic field at all, and that means it uses landmarks, the position of the stars and sun, and other methods to find its way. Sometimes a bird just flies the wrong way, like the Steller’s sea eagle that showed up in Alaska at the end of August 2020. Steller’s sea eagle is native to the coast of northeastern Asia and is increasingly threatened due to habitat loss, pollution, climate change, poaching, and overfishing, a real problem if you’re an eagle that eats a w

Thanks to Joel and Mary for suggesting some really interesting woodpeckers this week! Further watching: Rare woodpecker thought extinct spotted in Ohio The green woodpecker really likes to eat ants [picture by Remyymer – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=65008314]: The white-headed woodpecker looks like its face got splashed with paint: The red-headed woodpecker has the prettiest shade of red [picture by colleen – originally posted to Flickr as Red Headed Woodpecker, CC BY-SA 2.0, https://commons.wikimedia.org/w/index.php?curid=6639146]: The acorn woodpecker looks like it got its face splashed with white paint and then dipped its beak in black paint [picture by Charles J. Sharp – Own work, from Sharp Photography, sharpphotography.co.uk, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=136903489]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to talk about a type of bird that several people have suggested, the woodpecker! Thanks to Joel and Mary for their suggestions, and I could swear someone else suggested woodpeckers a while back. If that was you, thank you and I’m sorry I didn’t write it down! It’s funny that we haven’t talked about woodpeckers very often, because they are definitely strange animals. How many animals use their head to hammer holes in wood? The woodpecker has a strong, heavy bill that it uses to drill holes in trees to find hidden insects and other invertebrates. A lot of insects dig little burrows in wood, and the woodpecker hammers away at the wood until it exposes the burrow. Then it has to get the insect or grub out of the burrow without it getting away, so it has a long, sticky tongue with barbs at the end. It can stick its tongue into the burrow and use it to drag the insect out and eat it. When I say woodpeckers have long tongues, I mean their tongues are way longer than you think. The woodpecker’s skull contains a special cavity that wraps all the way around the brain and back down to the right nostril, and this cavity is where the main part of the tongue is when the woodpecker isn’t actually using it. It also helps cushion the brain and keep it from moving too much while the woodpecker is pecking. The skull itself is lined with spongy bone to soften impacts too. The woodpecker also has a lot of other adaptations to using its entire head like a hammer. To protect its eyes from debris and pressure damage, it has a thick membrane that it uses to cover the eye, like built-in safety goggles. It has tiny, tough feathers that protect the nostrils from debris, and its nostrils are usually very small and thin too. Even its skin is thicker than that of most birds. Woodpeckers have weird feet too. Almost all species have four toes, two that point forward, two that point backward. This arrangement is called zygodactyly, and it’s a trait also found in parrots and some other birds, and in chameleons. It allows the woodpecker to climb trees and branches securely and easily. The woodpecker also has a relatively short tail with stiff feathers that it uses to prop itself up against a tree trunk while hammering. The woodpecker doesn’t just use its hammering ability to find food. It also hammers to communicate with other woodpeckers, the same way other birds use song. Each species has its own pattern of drumming, and the sound can attract a mate or tell rivals that this territory is already taken. When it’s communicating, the woodpecker will drum on different surfaces than when it’s just looking for food. This might be a hollow tree that amplifies the sound, or even an artificial surface. The first time I observed this as a birdwatcher was when I noticed a red-breasted woodpecker hammering repeatedly on a metal light post. Woodpeckers do make ordinary sounds, though. Mary suggested the European green woodpecker and pointed out that its old name is yaffle, which mimics its call. This is what the green woodpecker sounds like: [green woodpecker call] Birders still refer to the sound as yaffling, which is the funniest word I’ve said all day. The green woodpecker is native to much of Europe and parts of Asia. It has a bright red head and a black mask on its face, and its body is mostly an olive green color with a yellow rump patch. It’s a large bird, with a wingspan up to 20 inches across, or 51 cm. It especially likes to eat ants and spends most of its time on the ground looking for them. When it finds an ant nest, it will use its bill to open the nest up and then it licks up all the yummy ants and larvae with its long sticky tongue. As an example of how long a woodpecker’s tongue is, the green woodpecker has a tongue 4 inches long, or 10 cm, while its entire body is 14 inches long, or 36 cm. Unlike most woodpeckers, the green woodpecker doesn’t do a lot of drumming or woodpecking. When it does, it’s mostly on very soft or rotten wood, and it’s probably not looking for food but exc

Thanks to Pranav, Isaac, and an anonymous listener for their suggestions this week! Let’s learn about some animals that inspired three Pokemon. Sandshrew: Possible Sandshrew inspirations: Drowzee: Possible Drowzee inspiration: Fennekin: Undoubted Fennekin inspiration: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to do something slightly different. At least two people and probably a lot more have suggested that we talk about some animals that were the inspiration for Pokemon, so I picked three that you might not know about. Thanks to Pranav and Isaac for their suggestions, and if you suggested the same topic at some point and I didn’t write it down, thank you too! Thanks also to an anonymous listener who suggested three of the animals we’ll talk about in this episode. I didn’t intend to cover three animals suggested by the same listener but it worked out that way, which is kind of neat. Some of you may not be familiar with what Pokemon are. The word is a shortened version of the term “pocket monsters,” and it started as a video game where players catch various monsters and store them in little round cages called pokeballs. A lot of Pokemon are so cute you can’t really call them monsters, but they all have different abilities and can evolve into even more powerful versions with enough training. My only real experience with Pokemon is the game Pokemon Go that came out in 2016, although I don’t play it anymore, but the franchise has had multiple games, including a trading card game that is still really popular, TV shows, movies, and of course lots of toys. Sometimes it’s easy to figure out what animal inspired a Pokemon. Rhyhorn obviously looks like a rhinoceros, Magikarp looks like a goldfish, and so on. But sometimes it’s not so obvious. Let’s start with Sandshrew. Sandshrew is a sandy-brown color on its back with a lighter belly and muzzle, and prominent claws. Its tail is big and its ears are small. It’s covered with armor plates, and in some versions of Sandshrew, most notably the Pokemon TV show, it can curl up into a ball. What does that remind you of? Some of you just said “armadillo” and others of you just said “pangolin.” Both were suggested a while back by an anonymous listener. The two animals aren’t related but they do share some physical similarities, like armored bodies and the ability to curl up into a ball to make their armor even more effective. We talked about the pangolin in episode 65, about animals that eat ants. The pangolin is related to anteaters, and is sometimes even called the scaly anteater, but it’s not closely related to the armadillo. Their similarities are mainly due to convergent evolution. The pangolin is a mammal, but it’s covered in scales except for its belly and face. The scales are made of keratin, the same protein that makes up fingernails, hair, hooves, and other hard parts in mammals. When it’s threatened, it rolls up into a ball with its tail over its face, and the sharp-edged, overlapping scales protect it from being bitten or clawed. It has a long, thick tail, short, strong legs with claws, a small head, and very small ears. Its muzzle is long with a nose pad at the end, it has a long sticky tongue, and it has no teeth. It’s nocturnal and lives in burrows, and it uses its big front claws to dig into termite mounds and ant colonies. It has poor vision but a good sense of smell. It’s a good fit for Sandshrew and some species are even the same color as Sandshrew. It lives in southern Asia and much of sub-Sahara Africa, and all species are critically endangered. Meanwhile, the armadillo is also a mammal that’s covered in armor except for its belly, but its armor is much different from the pangolin’s scales. The armor is made up of bands of hardened, bone-like skin covered with scutes, which are tiny flattened knobs of keratin. Ordinary skin connects the bands so that the animal can move around more easily. Some species roll up when threatened, but others rarely do. Instead they just run into the most thorny, prickly plants they can find. The armadillo’s armor protects it from being hurt by the thorns. Like the pangolin, it has sharp claws and can dig well to get at termites and other invertebrates, and like the pangolin it has poor eyesight but a good sense of smell. Its ears are small, its legs are short, and its tail is long but not as thick as the pangolin’s. Most species are grayish, pinkish, or brownish. It looks less like Sandshrew than the pangolin does, but it might have contributed to Sandshrew’s appearance and habits. The armadillo lives in the Americas, mostly in South America but also Central and parts of North America. Many species are endangered. Whichever animal you think inspired Sandshrew, I think we can agree that Sandshrew doesn’t have anything to do with actual shrews. Our next Pokemon is Drowzee. Drowzee is a chonky, strong-looking monster who looks like it’s wearing gray pants but otherw

Thanks to Nathan-Andrew for suggesting giant ichthyosaurs! Further reading: Paleontologists unearth what may be the largest known marine reptile Ruby and some other scientists with the ichthyotitan fossils [photos taken from this page]: How the pieces fit together: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about some of the biggest animals that have ever swum through the oceans of this planet we call Earth, a suggestion from Nathan-Andrew. We talked about ichthyosaurs way back in episode 63, but we haven’t really discussed these giant marine reptiles since. Ichthyosaurs and their close relations were incredibly successful, first appearing in the fossil record around 250 million years ago and last appearing around 90 million years ago. Most ichthyosaurs grew around 6 and a half to 11 feet long, or 2 to 3.3 meters, depending on species, so while they were pretty big animals, most of them weren’t enormous. They would have been fast, though, and looked a lot like fish or dolphins. Even though ichthyosaurs were reptiles, they were warm-blooded, meaning they could regulate their body temperature internally without relying on outside sources of heat. They breathed air and gave birth to live babies the way dolphins and their relations do. They had front flippers and rear flippers along with a tail that resembled a shark’s except that the lower lobe was larger than the upper lobe. Some species had a dorsal fin too. They had huge eyes, which researchers think indicated they dived for prey. Not only were their eyes huge, they were protected by a bony eye ring that would help the eyes retain their shape even under deep-sea pressures. We know a lot about what ichthyosaurs ate, both from coprolites, or fossilized poops, and from the fossilized remains of partially digested food preserved in the stomach area. Most ichthyosaurs ate cephalopods like squid and ammonites, along with fish, turtles, and pretty much any other animals they could catch. Ichthyosaurs also ate smaller ichthyosaurs. Nathan-Andrew specifically suggested we look at Shastasaurus and Shonisaurus, two closely related genera that belong to the ichthyosaur family Shastasauridae. Both genera contained species that were much larger than the average dolphin-sized ichthyosaur. The biggest species known until recently was Shonisaurus sikanniensis, which grew to almost 70 feet long, or 21 meters. Scientists are divided as to whether S. sikanniensis should be considered a species of Shonisaurus or if it should be placed in the genus Shastasaurus. The main difference is that species in the genus Shastasaurus were more slender and had a longer, pointier rostrum than species in the genus Shonisaurus. Either way, S. sikanniensis was described in 2004 and at the time was the largest ichthyosaur species ever discovered. But in May of 2016 a fossil enthusiast came across five pieces of what he suspected was an ichthyosaur bone along the coast of Somerset, England. He sent pictures to a couple of marine reptile experts, who verified that it was indeed part of an ichthyosaur’s lower jawbone, called a surangular. Studies of the fossil pieces compared it to S. sikanniensis, and it was similar enough that the new fossil was tentatively placed in the family Shastasauridae. Based on those comparisons, scientists estimated that this new ichthyosaur might have grown to around 72 feet long, or 22 meters, or even longer. Almost exactly four years after the 2016 discovery, in May of 2020, an 11-year-old named Ruby Reynolds was looking for fossils with her father on the beach at Somerset. She discovered two big chunks of a fossil bone that she thought might be important. Ruby’s father contacted a local paleontologist, who in turn reached out to the man who had found and helped study the 2016 surangular bone. They studied the 2020 fossil and determined that it too was a surangular bone, and looked a lot like the one found in 2016. Not only was it better preserved and more complete, it was bigger. Ruby and her father joined the team of paleontologists searching for more pieces of the surangular, and they actually found them. The pieces fit together like jigsaw puzzle pieces. The bone has been dated as being about 202 million years old, from right before the end-Triassic extinction event and 13 million years after the other most recent ichthyosaur fossils from this era. It was described in early 2024 and named Ichthyotitan, and I’m happy to report that Ruby and her father helped with the research and are both included in the list of authors in the paper describing it. They also helped name it. The estimated size of this specific Ichthyotitan specimen is about 25 meters, or 82 feet. That’s incredibly huge, rivaling the biggest whales alive today. But one other detail about this ichthyotitan bone is even more stunning. When the animal died, it was still growing. It hadn’t reached its full size yet. As a comparison, the bi

Thanks to Max for suggesting Titanoboa! Further reading: Largest known madtsoiid snake from warm Eocene period of India suggests intercontinental Gondwana dispersal This Nearly 50-Foot Snake Was One of the Largest to Slither on Earth Meet Vasuki indicus, the ‘crocodile’ that was a 50ft snake Titanoboa had really big bones compared to its modern relatives: Vasuki had big bones too: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Almost exactly two years ago now, Max emailed to suggest we talk about titanoboa. The problem was that we had covered titanoboa in episode 197, and even though there’s always something new to learn about an animal, in this case since titanoboa is extinct there wasn’t much more I could share until new studies were published about it. But as the years passed I felt worse and worse that Max was waiting so long. A lot of listeners have to wait a long time for their suggested episode, and I always feel bad. But still there were no new studies about titanoboa! Why am I telling you all this? Because we’re finally going to talk about titanoboa today, even though by now Max is probably old and gray with great-grandkids. But we’re only going to talk about titanoboa to compare it to another extinct snake. That’s right. Paleontologists have discovered fossils of a snake that was even longer than titanoboa! Let’s start with Titanoboa, because it’s now been a really long time since episode 197 and all I remember about it is that it’s extinct and was way bigger than any snake alive today. Its discovery is such a good story that I’m going to include it too. In 1994, a geologist named Henry Garcia found an unusual-looking fossil in Colombia in South America, in an area that had been strip-mined for coal. Fifty-eight million years ago the region was a hot, swampy, tropical forest along the edge of a shallow sea. Garcia thought he’d found a piece of fossilized tree. The coal company in charge of the mine displayed it in their office along with other fossils. There it sat until 2003, when palaeontologists arranged an expedition to the mine to look for fossil plants. A researcher named Scott Wing was invited to join the team, and while he was there he poked around among the fossils displayed by the mining company. The second he saw the so-called petrified branch he knew it wasn’t a plant. He sent photos to a colleague who said it looked like the jawbone of a land animal, probably something new to science. In 2007, the fossil was sent for study, labeled as a crocodile bone. But the palaeontologists who examined the fossil in person immediately realized it wasn’t from a crocodile. It was a snake vertebra—but so enormous that they couldn’t believe their eyes. They immediately arranged an expedition to look for more of them, and they found them! Palaeontologists have found fossilized remains from around 30 individual snakes, including young ones. The adult size is estimated to be 42 feet, or 13 meters. The largest living snakes are anacondas and reticulated pythons, with no verified measurements longer than about 23 feet long, or 7 meters. Titanoboa was probably twice that length. Because titanoboa was so bulky and heavy, it would be more comfortable in the water where it could stay cool and have its weight supported. It lived in an area where the land was swampy with lots of huge rivers. Those rivers were full of gigantic fish and other animals, including a type of lungfish that grew nearly ten feet long, or 3 meters. Studies of titanoboa’s skull and teeth indicate that it probably mostly ate fish. So if titanoboa was so huge that until literally a few days ago as this episode goes live, we thought it was the biggest snake that had ever existed, how big was this newly discovered snake? It’s called Vasuki indicus and while it wasn’t that much bigger than titanoboa, estimates so far suggest it could grow almost 50 feet long, or over 15 meters. It’s named after a giant serpent king called Vasuki from Hindu folklore, who symbolizes strength and prosperity. Vasuki indicus was discovered in a mine in India in 2005. The original discovery consisted of 27 vertebrae, including some that were still articulated. That means they remained in place after the rest of the body decayed and were preserved that way, which helps palaeontologists better estimate the snake’s true size. Like titanoboa, the fossils were misidentified at first. They were labeled as a known giant crocodile and set aside in the discoverer’s lab for decades. In 2022, paleontologist Debajit Datta joined the lab, and one of the things he wanted to study were these giant crocodile fossils. He started preparing them for study by removing the rock matrix from around them, and almost immediately realized they belonged to a snake, not a crocodile. The fossils have been dated to about 47 million years ago in what is now India, in Asia. Titanoboa lived about 58 million years ago in what is now Colombia, in South Ameri

Thanks to Khalil for suggesting the horny toad, also called the horned lizard or horned toad! Further reading: The Case of the Lost Lizard The Texas horned lizard: Texas Horned Lizard (Phrynosoma cornutum) The rock horned lizard [photo taken from article linked above]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about a reptile suggested by Khalil, who is Leo’s friend, so a big shout-out to both. Khalil wants to learn about the horny toad, also called the horned toad or horned lizard. We talked about it briefly back in episode 299. The horny toad is actually a lizard that lives in various parts of North America, especially western North America, from Canada down through much of the United States and into Mexico. The largest species is the Texas horned lizard, with a big female growing about 5 inches long, or almost 13 cm, not counting its tail. The horny toad does actually resemble a toad in some ways. Its body is broad and rounded and its face has a blunt, froglike snout. Its tail is quite short. It’s also kind of sluggish and spends a lot of time just sitting in the sun, relying on its mottled coloration to camouflage it. If it feels threatened, it will actually just freeze and hope the predator doesn’t notice it. It’s covered with little pointy scales, and if a predator does approach, it will puff up its body so that the scales stick out even more and it looks larger. It also has true horns on its head, little spikes that are formed by projections of its skull, and if a predator tries to bite it, the horny toad will jerk its head up to stab its horns into the predator’s mouth. Horny toads mainly eat a type of red ant called the harvester ant. The harvester ant is venomous but the horny toad is resistant to the venom and is specialized to eat lots and lots of the ants. Its esophagus produces lots of mucus when it’s eating, which collects around the ants and stops them from being able to bite before they die. Because it eats so many venomous ants, many scientists think the horny toad stores some of the toxins in its body, especially in its blood. Its blood tastes especially bad to canids like coyotes that are common in the areas where it lives. But it does the horny toad no good to have bad-tasting blood if a predator has to bite it to find out, so the horny toad has a way to give a predator a sample of its blood in the weirdest way you can imagine. If a horny toad is cornered by a predator and can’t run away, and puffing up isn’t helping deter the predator, the lizard has one last trick up its sleeve. It increases the blood pressure in its head by restricting some of the blood vessels carrying blood back to the heart, and when the blood pressure increases enough, it causes tiny blood vessels around the eyelids to rupture. It doesn’t just release blood, it squirts blood up to five feet away, or 1.5 meters. As if that wasn’t metal enough, the horny toad can aim this stream of blood, and it aims it right at the predator’s eyes. Imagine for a moment that you are a hungry coyote. You’re young and don’t know that horny toads taste bad, you just know you’ve found this plump-looking lizard that doesn’t move very fast. It keeps puffing up and looking spiky, but you’re hungry so you keep charging in to try and grab it with your teeth in a way that won’t hurt your tongue on those spikes. Then, suddenly, your eyes are full of lizard blood that stings and makes it hard to see, and the blood drips down into your mouth and it tastes TERRIBLE. It doesn’t matter how hungry you are, this fat little lizard is definitely off the menu. Meanwhile, the horny toad is fine. Scientists aren’t sure if every species of horny toad can squirt blood. Some species probably can’t, while some do it very seldom. It also doesn’t help against some predators, like birds, who don’t have a great sense of taste and aren’t affected by the toxins in the horny toad’s blood. The horny toad relies on the harvester ant for most of its specialized diet, although it does eat other insects too. It can’t survive without eating harvester ants. The problem is, the harvester ant is in decline after fire ants were introduced to North America from South America. The horny toad doesn’t eat fire ants, and the fire ants out-compete the local harvester ants, leaving the horny toad with less and less food. Humans really don’t like fire ants, which can cause damage to homes when they dig their huge underground nests, and which inflict really painful bites. When people try to get rid of fire ants, sometimes the treatments also kill harvester ants. Incidentally, some animals that really love to eat fire ants include armadillos, black widow spiders, wolf spiders, and bobwhites. The Texas horned lizard lives throughout a fairly large range, so although its numbers are in decline along with its ant food, it’s still doing okay for now. But not every horny toad is so lucky. The rock horned lizard, also calle

Thanks to Elijah and an anonymous listener for suggesting that we talk about some more species of praying mantis! Further reading: The luring mantid: Protrusible pheromone glands in Stenophylla lobivertex (Mantodea: Acanthopidae) Dragons and unicorns (mantises) spotted in Atlantic forest Citizen scientists help discover new mantis species The dragon mantis [photo from first article linked above]: The possibly new species of unicorn mantis [picture from second article linked above]: Inimia nat, or I. nat, discovered after a citizen scientist posted its photo to iNat [photo from third article linked above]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to revisit a popular topic that we’ve covered before, especially in episode 187, but which has been suggested by a couple of listeners who want to know more. It’s the praying mantis. Thanks to Elijah and an anonymous listener who suggested it. Elijah even keeps mantises as pets and sent me some pictures of them, which was awesome. The praying mantis gets its name because it holds its spiny front legs forward and together, which sort of resembles someone holding their hands together while praying. That’s the type of praying spelled p r a y ing, not p r e y ing, which refers to killing and eating other organisms, but the praying mantis does that too. It’s a predator that will eat anything it can catch, including birds, fish, mice, lizards, frogs, and of course lots of insects. There are thousands of mantises, also called mantids, with most species preferring tropical and subtropical climates. In general, a mantis has a triangular head with large eyes, an elongated body, and enlarged front legs that it uses to catch prey. Most species have wings and can fly, some don’t. Most are ambush predators. We talked about several species of mantis in episode 187, and some more in episode 201. You can go back to those episodes to find out general information about mantises, such as how their eyes work and whether they have ears and whether they actually eat their mates (they do, sometimes). This week we’re going to focus on some findings about mantises that are new since those episodes came out. The dragon mantis, Stenophylla lobivertex, was only discovered in the year 2000. Its body is covered with gray-green or green-brown lobes that help it blend in with the leaves in its forest home, but that also kind of make it look like a tiny dragon covered with scaly armor. Even its eyes are spiky. It lives in the tropics of South and Central America where it’s quite rare, and it usually only grows about an inch and a half long, or 4 cm. It spends most of the time in treetops, where it hunts insects, spiders, and other small animals. Unlike many mantis species, the dragon mantis is mostly nocturnal. That’s one of the reasons why we don’t know a lot about it. In late 2017 through mid-2018, one member of a team of scientists studying animals in Peru noticed something weird in a captive female dragon mantis. Frank Glaw isn’t an expert in insects but in reptiles and amphibians, but he happened to observe what looked like two tiny maggots emerge from the mantis’s back, roughly above her last pair of legs, but then disappear again into her back. He thought he was seeing the results of parasitism, but a mantis expert suspected it was something very different. Some praying mantis females release pheromones from a gland in about the same place on the back. Pheromones are chemicals that can be sensed by other insects, usually ones in the same species. They’re most often used to attract a mate. It turns out that the female dragon mantis has a Y-shaped organ that’s up to 6 mm long that can release pheromones in a particular direction. The mantis can even move the prongs of the Y around if she wants to. Because she only does this at night when she’s sure she’s safe, and only when she hasn’t found a mate yet, and because this species of mantis is really rare, no one knew that any mantis had this specific organ. It’s possible that other mantis species have the organ too, but that scientists just haven’t seen it yet. As we learned in our previous mantis episodes, not only are there well over 2,000 known species of mantis alive today, there are more being discovered all the time. In 2019, Project Mantis went to Brazil to look for mantises, and not only did they find two of the extremely rare dragon mantises, they discovered what may be a species new to science. It hasn’t been described yet as far as I can find, but it appears to be a member of a group called unicorn mantises because it has a spike sticking up from the top of the head. Scientists have no idea what the spike is for, but it’s funny that they found unicorn mantises and dragon mantises in the same forest. Late in 2023, two new species of Australian mantis were described, one of which is so different from other known species that it was placed in its own genus. They’re small mantises

Thanks to River for suggesting this week’s topic, the pufferfish! Further reading: Grass puffer fish communicate with each other using a non-toxic version of their deadly toxin Mystery pufferfish create elaborate circular nests at mesophotic depths in Australia Pufferfish, puffed: A starry puffer, un-puffed [picture by Diego Delso, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=116912671]: A grass puffer, un-puffed: The mystery structure that turns out to be made by pufferfish: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about a weird fish suggested by River, the pufferfish! Lots of fish have the name pufferfish, and sometimes they’re also called balloonfish, swellfish, bubblefish, or globefish. You might be able to guess from the names what they can do, but just in case you don’t know, the pufferfish can puff up to make itself big and round. The question you might have at this point is why, and how do they do this? There are lots of pufferfish in various genera, all of them in the family Tetradontidae. Tetradontidae means “four teeth,” because obviously when you find an incredibly poisonous fish that can blow itself up like a balloon, sometimes with spikes that emerge from the skin, of course you’re going to name it after its teeth. Most pufferfish live in the ocean, although some live in places where freshwater mixes with ocean water, and some species even live in rivers. It prefers warm, shallow water and eats invertebrates and plant material. Larger pufferfish can use their four big front teeth to crush the shells of mollusks, like clams and mussels. Most pufferfish are quite small and often brightly colored with spots, stripes, and other markings. You’d think the biggest pufferfish has to be the one called the giant freshwater pufferfish, but while it is big, it’s not the biggest. The giant freshwater pufferfish can grow up to 26 inches long, or 67 cm, which is over two feet long. But the starry puffer is almost twice that length, up to 47 inches long, or 120 cm. That’s almost four feet long! The starry puffer lives in tropical and subtropical parts of the Pacific Ocean, especially in the Indian Ocean and the Red Sea. It has a big head, two pairs of nostrils, and is a mottled gray and white in color with little black spots all over. It mostly eats crustaceans and mollusks, but will also eat algae, sponges, coral, urchins, and other invertebrates. The pufferfish is a slow swimmer, but it has two really good defenses. If it feels threatened—for instance if a big fish tries to catch it, or it’s caught in a fishing net and hauled to the surface, or if a diver tries to make friends, the pufferfish will swell up until it looks like a balloon with fins. It does so by gulping air or water into its elastic stomach until it’s completely full. If you’re wondering how this can help the fish, not only does this make the pufferfish look much larger, it also makes it harder to swallow. Not only that, the pufferfish has spines that may be hidden in the skin most of the time, but when the skin tightens as the fish expands into balloon shape, the spines poke out. Suddenly a potential predator isn’t just trying to swallow a fish way bigger than its mouth is, it’s pointy. The pufferfish’s second defense is that its body contains a deadly poison. You may have heard about fugu, which is considered a delicacy even though it’s so poisonous that in Japan and some other countries, chefs have to be specially trained and licensed to prepare the fish to eat. It contains tetrodotoxin, or TTX, a neurotoxin that stops your nerves from sending the tiny electrical signals that allow muscles to move. If you’re poisoned with TTX, you start to feel dizzy and sick, then you start having difficulty speaking and moving, then you have trouble breathing, and then, ultimately, you’re paralyzed and can’t breathe, at which point you die. Since the toxin doesn’t affect your brain, you remain completely aware of what’s happening to you but there’s nothing you can do about it. There’s no antidote. Fortunately, you have the option of not eating fugu. Not all pufferfish are poisonous, although most are, and in many species the amount of toxins in the fish’s body can vary according to the time of year and the individual fish. People who have eaten their local pufferfish many times with no problem can suddenly get sick or die from eating the same type of fish. That’s the bad type of surprise. At least some pufferfish use their toxins for a surprising purpose. In late 2022, a study was published about the grass puffer, also called the grey-spotted puffer. It’s a small fish that grows not quite 10 inches long, or 25 cm, and is gray with tiny white spots. It’s extremely toxic but its body also contains a non-toxic version of TTX, called TDT. Scientists studying the fish determined that other grass puffers can smell TDT in the water so they can find each other. Not only t

Thanks to Carson, Mia, Eli, and Pranav for their suggestions this week! Further reading: RNA for the first time recovered from an extinct species Study finds ongoing evolution in Tasmanian Devils’ response to transmissible cancer Tasmanian devil research offers new insights for tackling cancer in humans The Tasmanian devil looks really cute but fights all the time [picture by JJ Harrison (https://www.jjharrison.com.au/) – Own work, CC BY-SA 3.0]: The Thylacine could opens its jaws verrrrrrry wide: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to cover two animals that a lot of people have suggested. Carson and Mia both want to learn about the Tasmanian tiger, and Eli and Pranav both want to hear about the Tasmanian devil. We talked about the Tasmanian tiger, AKA the thylacine, in episode 1, and I thought we’d had a Tasmanian devil episode too but it turns out I was thinking of a March 2019 Patreon bonus episode. So it’s definitely time to learn about both! The thylacine was a nocturnal marsupial native to New Guinea, mainland Australia, and the Australian island of Tasmania, and the last known individual died in captivity in 1936. But thylacine sightings have continued ever since it was declared extinct. It was a shy, nervous animal that didn’t do well in captivity, so if the animal survives in remote areas of Tasmania, it’s obviously keeping a low profile. The thylacine was yellowish-brown with black stripes on the back half of its body and down its tail. It was the size of a big dog, some two feet high at the shoulder, or 61 cm, and over six feet long if you included the long tail, or 1.8 meters. It had a doglike head with rounded ears and could open its long jaws extremely wide. Some accounts say that it would sometimes hop instead of run when it needed to move faster, but this seems to be a myth. It was also a quiet animal, rarely making noise except while hunting, when it would give frequent double yips. A 2017 study discovered that the thylacine population split into two around 25,000 years ago, with the two groups living in eastern and western Australia. Around 4,000 years ago, climate change caused more and longer droughts in eastern Australia and the thylacine population there went extinct. By 3,000 years ago, all the mainland thylacines had gone extinct, leaving just the Tasmanian population. The Tasmanian thylacines underwent a population crash around the same time that the mainland Australia populations went extinct—but the Tasmanian population had recovered and was actually increasing when Europeans showed up and started shooting them. Because the thylacine went extinct so recently and scientists have access to preserved specimens less than a hundred years old, and since the thylacine’s former habitat is still in place, it’s a good candidate for de-extinction. As a result, it’s been the subject of many genetic studies recently, to learn as much about it as possible. It’ll probably be quite a while before we have the technology to successfully clone a thylacine, but in the meantime people in Australia keep claiming to see thylacines in the wild. Maybe they really aren’t extinct. The Tasmanian devil is related to the thylacine. It’s about the size of a small to average dog, maybe a bulldog, which it resembles in some ways. It’s compact and muscular with a broad head, relatively short snout, and a big mouth with prominent lower fangs. It’s not related to canids at all, of course, and if you just glanced at a Tasmanian devil, your first thought wouldn’t be “dog” or “thylacine,” it would probably be “giant mouse.” The Tasmanian devil is black or grayish-brown, usually with patches of white on the chest and rump. It also has rounded pinkish ears, long whiskers, paws with relatively long toes, and a long tail. Since the devil stores fat in its tail, a fat-tailed devil is a happy, healthy devil. It’s mainly a scavenger and will eat roadkill and other dead animals, although it will also kill and eat small or even large animals, and will also eat plant material and insects. It often eats every trace of a carcass, including bones and fur. This is good for other animals and for ranchers, since it reduces the presence of insects attracted to dead animals and reduces the spread of disease. Its digestion is extremely fast and efficient, and its jaws are extremely strong. The Tasmanian devil is usually solitary, but it does get together with other devils to socialize and fight while eating. When a devil finds a carcass, it will make extremely loud calls to alert other devils to come share its meal. Then, because they’re called devils and not angels for a reason, the animals will fight over the food. Tasmanian devils fight a lot. Researchers think the white markings help direct other devils to attack parts of the body that are less vulnerable to injury. The white fur is more visible in the dark, giving other devils a target. The white markings a

Thanks to Will and Måns for their suggestions this week! Let’s learn about some mystery bovids, or cows and cow relations! Further reading: A Book of Creatures: Songòmby Kouprey: The Ultimate Mystery Mammal A musk ox (top) and a wild yak (bottom): A young kouprey bull from the 1930s: Sculpture of two grown kouprey bulls [photo by Christian Pirkl – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=73848355]: A banteng bull (with a cow behind him) [photo taken from this site]: A qilin/kilin/kirin looking backwards: The “purple” calf: The Milka purple cow: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about some mystery bovids, or cow relations, suggested by Will and Måns, whose name I am probably mispronouncing. We’ll start with a mystery about the musk ox, which is not otherwise a mysterious animal. Måns emailed about reading a children’s book about animals that had a picture of a musk ox in the part about the Gobi Desert. The problem is, the musk ox is native to the Arctic and was once found throughout Greenland, northern Canada, Alaska, and Siberia. So the question is, was the book wrong or are there really musk oxen in the Gobi Desert? We’ll start by learning about the musk ox and the Gobi Desert. The musk ox can stand up to 5 feet tall at the shoulder, or 1.5 meters. It has thick, dense, shaggy fur all over, a tiny tail only about four inches long, or 10 cm, and horns that curve down close to the sides of its head and then curve up again at the ends. The musk ox is well adapted to the cold, which isn’t a surprise since it evolved during the ice ages. Its ancestors lived alongside mammoths, woolly rhinos, and other Pleistocene megafauna. Like many cold-adapted animals, its fur consists of a thick undercoat that keeps it warm, and a much longer layer of fur that protects the softer undercoat. The undercoat is so soft and so good at keeping the animal warm in bitterly cold temperatures that people will sometimes keep musk oxen in order to gather the undercoat in spring when it starts to shed, to use for making clothing and blankets. But it’s definitely not a domesticated animal. It can be aggressive and extremely dangerous. A warm coat isn’t the musk ox’s only cold adaptation. The hemoglobin in its blood is able to function well even when it’s cold, which isn’t the case for most mammals. It lives in small herds that gather close together in really cold weather to share body heat, and if a predator threatens the herd, the adults will form a ring around the calves, their heads facing outward. Since a musk ox is huge, heavy, and can run surprisingly fast, plus it has horns, if a wolf or other predator is butted by a musk ox it might end up fatally injured. The main predator of the musk ox is the human, who hunted it almost to extinction by the early 20th century. It was completely extirpated in Alaska but was reintroduced there and in parts of Canada in the late 20th century. Similarly, it was reintroduced to parts of Siberia and even parts of northern Europe, although not all the European introductions were successful. So what about the Gobi Desert? It’s nowhere near the Arctic. Not all deserts are hot. A desert just has limited rainfall, and the Gobi is a cold desert. Parts of the Gobi are grasslands and parts are sandy or rocky, and it covers a huge expanse of land in central Asia, mainly divided between northern China and southern Mongolia. Some parts of it do get limited rainfall in the summer and limited snowfall and frost in the winter, but for the most part it’s dry and therefore has limited vegetation for animals to eat. Animals do live in the Gobi, though. The wild Bactrian camel, which has two humps, is found nowhere else in the world and is critically endangered. The Mongolian wild ass lives in parts of the Gobi, as do several species of antelope and gazelle, wild sheep, and ibex. The Gobi bear, which is the rarest bear in the world, also lives in the Gobi, along with smaller animals like hares, foxes, polecats, marmots, and various lizards, snakes, and birds. Occasionally wolves and snow leopards visit parts of the Gobi. So do humans, specifically nomadic herders who travel through parts of the desert to find food for their animals. Of all the animals found in the Gobi, and in central Asia in general, the musk ox is not listed on any scholarly site I could find. Despite its name, it’s not actually closely related to other cattle and is instead most closely related to goats and sheep. However, a close relation of the domestic cow and its ancestors is the wild yak, the ancestor of the domestic yak. The wild yak lives mostly in the Himalayas these days but was once much more widespread, and the domestic yak is farmed by nomadic herders in the colder, more mountainous parts of the Gobi. The yak isn’t closely related to the musk ox, but it does have a very similar-looking long, shaggy coat. Its

Thanks to Ari for suggesting this week’s episode, about the peacock! Further reading: Peacock tail feathers shake at resonance and hold eye-spots still during courtship displays Indian peafowls’ crests are tuned to frequencies also used in social displays An ocellated turkey (not a peacock but related): An Indian peacock male: An Indian peahen with chicks [photo from this site]: Close-up of a male Indian peacock’s crest [photo by Jatin Sindhu – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=49736186]: A male Indian peacock with train on display [photo by Thimindu Goonatillake from Colombo, Sri Lanka – Peacock Dance, CC BY-SA 2.0, https://commons.wikimedia.org/w/index.php?curid=19395087]: A green peacock [photo from this site]: The mysterious Congo peacock [photo by Terese Hart, taken from this site]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to talk about a beautiful bird that almost everyone has seen pictures of, and a lot of people might have seen in zoos and parks. It’s a suggestion by Ari, who wants to learn about the peacock! The name peacock is technically only used for the male bird, with the female called a peahen and the birds all together referred to as peafowl. Most people just say peacocks, though, because the male peacock has such a fabulous tail that it’s what people think of when they think of peafowl. I’m happy to report that baby peafowl are called peachicks. The peacock most people are familiar with is native to India, specifically called the Indian peafowl. It’s a surprisingly large bird, with a big male weighing more than 13 lbs, or 6 kg. Females are smaller. It’s the size of a wild turkey and in fact it’s related to the turkey, along with pheasants, partridges, and chickens. Back in episode 144 we talked about a bird called the ocellated turkey, a brightly colored turkey that lives in the Yucatan Peninsula, which is part of Mexico. The male’s tail feathers have the same type of colorful eyespots seen on a peacock’s tail. But the peacock’s tail is way bigger than any turkey’s tail. It’s called a train and most of the time it’s folded so that it’s not in the way. A big male can grow a train that’s much longer than the rest of his body, more than five feet long, or 1.5 meters. Most of the train’s elongated feathers end in a colorful eye-spot, around 200 of them in total. The eyespot pattern really does resemble a big eye, with a dark blue spot in the middle surrounded by a ring of blue-green and a bigger ring of bronze. The bronze color is surrounded by pale green and the rest of the feather is a darker green. As far as we know, the eyespots aren’t supposed to look like eyes the way some animal markings are. A leopard or other predator doesn’t attack the tail thinking it’s a peacock’s head. It’s just a pattern. For a long time scientists were divided as to what the peacock’s train was really used for. Not everyone thought it was for showing off for peahens. Some thought it was just for camouflage in the jungle. The main confusion was why the peacock would grow such a long, conspicuous train, which can be a hindrance to him in thick undergrowth and can attract the attention of predators. But many male birds have long, ornamental tails that may impede their mobility, such as various bird of paradise species, that are definitely meant to show off for females. This appears to be the case for the peacock too. During mating season, male peacocks gather at what’s called a lekking site, where they hang out waiting for females. When a female approaches a male, he spreads his train into a fan and shivers it, which rattles the feathers together and also shows off the iridescent colors. The male struts around, showing off his tail, and the female may ignore him completely or take a good look at his tail. In studies where scientists snipped all the eyespots off a male’s train feathers, females never bothered to even look at the male, but since immature males don’t have eyespots, it could be the females thought the eyespot-less male was just a kid. A 2016 study took a closer look at the shivering motion that the male produces during displays. Not only does the sound interest the female, the study discovered that the eyespots are locked together with microscopic hooks that help them stay still while the remainder of any particular feather moves, since it isn’t locked with other feathers. This makes it look like the eyespots are floating against a shimmery green background. Who wouldn’t love watching that? The brighter the eyespot’s iridescence, the more attractive the male is to females. The rest of the Indian peacock is bright too. His back and most of his body is bronze, while his long neck is a brilliant green-blue. He has white markings on his face and a crest growing from the back of his head. The crest consists of a bundle of mostly bare feather shafts, with a little tuft of blue-green

Let’s look at some of the most interesting animals discovered last year! Further reading: Newly-discovered ‘margarita snails’ from the Florida Keys are bright lemon-yellow Tiny spirits roam the corals of Japan—two new pygmy squids discovered Strange New Species of Aquifer-Dwelling Catfish Discovered in India Bizarre New Species of Catfish Discovered in South America Unicorn-like blind fish discovered in dark waters deep in Chinese cave New Species of Hornshark Discovered off Australia Cryptic New Bird Species Identified in Panama New Species of Forest Hedgehog Discovered in China New species of voiceless frog discovered in Tanzania The weird new spiny katydid: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s time for our annual discoveries episode, where we learn about some animals discovered in the previous year! There are always lots more animals discovered than we have time to talk about, so I just choose the ones that interest me the most. That includes the cheerfullest of springtime-looking marine snails discovered in the Florida Keys. The Florida Keys are a group of tropical islands along a coral reef off the coast of Florida, which is in North America. A related snail was also discovered off the coast of Belize in Central America that looks so similar that at first the scientists thought they were the same species with slightly different coloration. A genetic study of the snails revealed that they were separate species. The one found in the Keys is a lemony yellow color while the one from Belize is more of a lime green. The snails have been placed into a new genus but belong to a group called worm snails. When a young worm snail finds a good spot to live, it sticks its shell to a rock or other surface and stays there for the rest of its life. Its shell isn’t shaped like an ordinary snail shell but instead grows long and sort of curved or curly. The snail spreads a thin layer of slime around it using two little tentacles, and the slime traps tiny pieces of food that float by. The new snails are small and while the snail’s body is brightly colored, its shell is drab and helps it blend in with the background. Scientists think that the colorful body may be a warning to potential predators, since its mucus contains toxins. It mainly lives on pieces of dead coral. Another invertebrate discovery last year came from Japan, where two new species of pygmy squid were found living in seagrass beds and coral reefs. Both are tiny, only 12 mm long, and are named after little forest spirits from folklore. Despite its small size, it can eat shrimp bigger than it is by grabbing it with its little bitty adorable arms. Both species have been seen before but never studied until now. The scientists teamed up with underwater photographers to find the squid and learn more about them in their natural habitats. As for invertebrates that live on land, an insect called the blue-legged predatory katydid was discovered in the rainforests of Brazil. It’s a type of bush-cricket that’s dark brown in color except for the last section of its legs, which are greenish-blue. Those parts of its legs are also really spiny. That is literally all I know about it except for its scientific name, Listroscelis cyanotibiatus, but it’s awesome. Let’s leave the world of invertebrates behind and look at some fish next. This was the year of the catfish, with new species discovered in both India and South America. Catfish can be really weird in general and both these new species are pretty strange. The first is tiny, only 35 mm long at most, or a little over an inch, and it has four pairs of barbels growing from its face. It looks red because its blood shows through its skin, because its skin doesn’t have any pigment. The fish also doesn’t have any eyes. If this makes you think it’s a cave-dwelling fish, you’re exactly right, but instead of an ordinary cave it actually lives in an aquifer. An aquifer is a source of water underground. It’s actually a layer of rock that’s broken up or otherwise permeable so that water can get through it, but with a non-permeable layer underneath. The water is trapped in the layer, sometimes far underground. If you’ve ever seen a spring, where water bubbles up from the ground, that water comes from an aquifer that has found its way to the surface. If you’ve ever drunk water pumped or dipped up from a well, the well-water also comes from an aquifer. The water gets into the aquifer in the first place when rain soaks into the ground, but it takes a long time to fill up. There are really deep aquifers that are completely sealed off from the surface, created thousands or even millions of years ago. As far as we know, nothing lives in those, although we could be wrong. Aquifers that are closer to the surface with some surface openings develop unique ecosystems, including animals that are found nowhere else on earth. That’s the case with the tiny red catfish found in the state of Kerala

Sorry to my Patreon subscribers, since this is mostly a rerun episode from April 2019. It’s a fun one, though! The teensy pumpkin toadlet [photo by Diogo B. Provete – http://calphotos.berkeley.edu, CC BY-SA 2.5, https://commons.wikimedia.org/w/index.php?curid=6271494]: The electromagnetic spectrum. Look how tiny the visible light spectrum is on this scale! [By NASA – https://science.nasa.gov/ems/, Public Domain, https://commons.wikimedia.org/w/index.php?curid=97302056]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This was supposed to be the 2023 discoveries episode, but not only have I had a really busy week that’s kept me from finishing the research, I’m also coming down with a cold. My voice still sounds okay right now but considering how I feel, it’s not going to sound good for long, and I need to finish the March Patreon episode too! I decided to rerun a very old Patreon episode this week to allow me time to finish the March Patreon episode before my voice turns into an unintelligible croak. I did drop in some fresh audio to correct a mistake I made in the original episode and add some new information. This is one of my favorite Patreon episodes and I hope you like it too. It’s about animals that can see ultraviolet light. I was going to make this a frog news episode, but I started writing about a tiny frog from Brazil called the pumpkin toadlet and the episode veered off in a very interesting direction. But let’s start with that frog. It’s called the pumpkin toadlet because it’s an orangey-yellow color that is just about the same color as pureed pumpkin. It’s poisonous and lives in the forests of Brazil. During mating season, the pumpkin toadlet comes out during the day, walking around making little buzzing noises. Researchers assumed those were mating calls until they started studying how the pumpkin toadlet and its relations process sounds. It turns out that the pumpkin toadlet probably can’t even hear its own buzzing noise. But they did discover that the pumpkin toadlet fluoresces brightly under UV light. We’ve talked about this phenomenon before, back in the Patreon episode about animals that glow. Quite a lot of frogs turn out to fluoresce in ultraviolet light, which is a component of daylight. That explains why the pumpkin toadlet comes out during the day in mating season. It wants to be seen by potential mates. It’s actually the frog’s bones that fluoresce, but since it has very thin skin without dark pigment cells, the ultraviolet light can light up the bones. I wanted to make sure I gave everyone the correct information about ultraviolet light, so I started researching it…and that led me down this rabbit hole. What animals can see in ultraviolet light? Can any humans see ultraviolet light? What does it look like? Light is made up of waves of varying lengths. The retina at the back of your eyeball contains two types of cells, rods and cones, which are named for their shapes. Rods are for low-light vision and cones are for detail and color vision. Humans have more cones than rods because we’re diurnal animals, meaning we’re most active during the day. Animals that are mostly nocturnal have more rods than cones, which help them see in low light although they don’t see color as well or sometimes at all as a result. Most humans can see any color that’s a mixture of red, green, and blue, since we have three types of cone cells that react to wavelengths roughly equivalent to those three colors. Some people have what’s called red-green color blindness, which means either the person doesn’t have cones that sense the color red or cones that sense the color green. Various shades of green and red look alike for these people. Red-green color blindness is much more common in men than in women, with as many as 8% of men having the condition. A lot of times they don’t even know it. When I did my student teaching in a first grade class, one day I prepared a math lesson for the students that involved them sorting a little cup of candy into colors, and after they did the math problems associated with the different colors, they got to eat the candy. One little boy kept sorting certain colors of Skittles into the same column, and when I asked him, he didn’t realize they were different colors. They looked the same to him. So that day I learned to be careful about what kind of candy I used for sorting lessons, and he learned that he had red-green color blindness. My own dad was color blind too. It’s pretty common. Occasionally a person is born without the ability to see colors at all, but that’s extremely rare. The visible light spectrum, also sometimes called the color spectrum, runs from violet to red. Just below violet is the wavelength referred to as ultraviolet. Many insects and birds can see ultraviolet, but typically an animal that can see ultraviolet can’t see infrared, which is the wavelength of light just past red. Birds that can see ultraviolet can usua

Thanks to Jason for suggesting this week’s topic, the bison! Further reading: New research documents domestic cattle genetics in modern bison herds Higgs Bison: Mysterious Hybrid of Bison and Cattle Hidden in Ice Age Cave Art A cave painting of steppe bison and other animals: An American bison [photo by Kim Acker, taken from this site]: Some European bison [photo by Pryndak Vasyl, taken from this site]: The bison sound in this episode came from this site. Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about the bison, a suggestion from Jason. There are two species of bison alive today, the American bison and the European bison. Both are sometimes called buffalo while the European bison is sometimes called the wisent. I’m mostly going to call it the wisent too in this episode so I only have to say the word bison 5,000 times instead of 10,000. Bison are herd animals that can congregate in huge numbers, but these big herds are made up of numerous smaller groups. The smaller groups are made up of a lead female, called a cow, who is usually older, other cows, and all their offspring, called calves. Males, called bulls, live in small bachelor groups. The American bison mostly eats grass while the European bison eats a wider selection of plants in addition to grass. The bison is a big animal with horns, a shaggy dark brown coat, and a humped shoulder. The American bison’s shoulder is especially humped, which allows for the attachment of strong neck muscles. This allows the animal to clear snow from the ground by swinging its head side to side. The European bison’s hump isn’t as pronounced and it carries its head higher. The bison looks slow and clumsy, but it can actually run up to 35 mph, or 55 km/hour, can swim well, and can jump obstacles that are 5 feet tall, or 1.5 meters. The American bison can stand over six and a half feet high at the shoulder, or 2 meters, while the European bison stands almost 7 feet tall at the shoulder, or 2.1 meters. This is massively huge! Bison are definitely ice age megafauna that once lived alongside mammoths and woolly rhinos, so we’re lucky they’re still around. Both species almost went extinct in recent times and were only saved by a coordinated effort by early conservationists. The American bison in particular has a sad story. Before European colonizers arrived, bison were widespread throughout North America. Bison live in herds that migrate sometimes long distances to find food, and many of the North American tribes were also migratory to follow the herds, because the bison was an important part of their diet and they also used its hide and other body parts to make items they needed. The colonizers knew that, and they knew that by killing off the bison, the people who depended on bison to live would starve to death. Since bison were also considered sacred, the emotional and societal impact of colonizers killing the animals was also considerable. In the 19th century, colonizers killed an estimated 50 million bison. A lot of them weren’t even used for anything. People would shoot as many bison as possible from trains and just leave the bodies to rot, and this practice was actually encouraged by the railroads, who advertised these “hunting” trips. The United States government also encouraged the mass killing of bison and even had soldiers go out to kill as many bison as possible. Bison that escaped the coordinated slaughter often caught diseases spread by domestic cattle, and the increased plowing and fencing of prairie land reduced the food available to bison. By 1900, the number of American bison in the world was probably only about 300. As early as the 1860s people started to sound the alarm about the bison’s impending extinction. Some ranchers kept bison, partly as meat animals and partly to just help stop them from all dying out. The Yellowstone National Park had been established in 1872, and 25 bison survived there, although many others were poached by hunters. Members of various Plains tribes, who had been forced onto reservations by the United States government so the government could give their land to colonizers, collected as many bison as they could to keep them safe. These days the American bison is out of immediate danger, although its numbers are still very low. Because there were so few bison when conservation efforts started, the genetic diversity is also low. Bison will also hybridize with domestic cattle and the resulting female calves are fertile, so the main goal of modern conservationists is to genetically test herds to determine which bison have a larger percentage of cattle genes, and mainly only breed the ones that have the least. A 2022 study determined that there is no population of American bison alive today that doesn’t have at least a small percentage of cattle genes. Cattle are domesticated animals, and it’s never a good thing when a wild animal ends up with the DNA of a domestic c

Thanks to Pranav for suggesting this mystery big cat this week, the marozi! Further reading: From Black Lions to Living Sabre-Tooths: My Top Ten Mystery Cats Spotted Lions A young lioness who still has some of her cub spots: Subadult lions who still have a lot of cub spots: The skin of an animal supposedly killed in 1931 and said to be a marozi: Two photos of a “leopon,” a lion-leopard hybrid bred in captivity in a Japanese zoo: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about a mystery animal suggested by Pranav. It’s the marozi, a big cat from the mountains of Kenya. Kenya is in east Africa, and humans have lived in what is now Kenya since humans existed. Because of this, usually when we talk about Kenya or east Africa, we’re talking about hominins, but today we’re talking about big cats. Kenya is home to a lot of animals you think of when someone mentions the animals of Africa, like elephants and giraffes, and it’s also home to three big cats: lions, leopards, and cheetahs. The lion is generally a tawny brown color although different individuals and populations can be various shades of brown or gray. A lion cub is born with dark spots, and as it grows the spots fade. Sometimes a young adult lion will still have some spots, especially on its legs and belly, but in general an adult lion has no spots at all. In comparison, both the leopard and the cheetah are famous for their spots. The lion prefers to live in savannas and open woodlands. These days it’s only found in a few parts of India, along with various places in sub-Saharan Africa. This just means south of the Sahara desert. In the past, though, the lion had a much larger range. It lived throughout most of Africa, the Middle East, southern Asia, and even southern Europe. Overhunting drove it to extinction in many parts of its historic range, which is called extirpation. I’ve used the term before but it specifically means that an animal has been driven to extinction in one area where it once lived, but it isn’t extinct in other areas. Some subspecies of lion have gone extinct, and the lions who remain are vulnerable to habitat loss, poaching, and many other factors. Just because lions are common in zoos doesn’t mean lions in the wild are doing fine. The same is true of the cheetah, which has an even smaller range than the lion these days but which was once common throughout Africa and the Middle East along with a lot of southern Asia and Europe. We talked about the cheetah in episode 145. It’s actually not closely related to the lion or the leopard, and in fact genetic testing reveals that it’s most closely related to the puma of North America. The leopard, on the other hand, is a very close relation to the lion. Both belong to the same genus, Panthera, which also includes tigers, jaguars, and snow leopards, but the lion and leopard are the closest cousins. While it’s also vulnerable to habitat loss, poaching, and other factors, it’s more widespread than the lion and cheetah. It lives throughout much of sub-Saharan Africa, Asia–especially India–and even parts of eastern Russia, and in the past it was even more widespread. It prefers forests where its spots help it blend in with dappled sun and shade. So, the lion, the leopard, and the cheetah all live in Kenya, but there’s another big cat that’s supposed to live there too. It’s called the marozi, also sometimes called the spotted lion. Stories of lions that have spots like a leopard go back for centuries among the local people. The spotted lion is supposed to be small and the male either has no mane or only a small one. It’s supposed to live in the mountains and is solitary instead of living in family groups like ordinary lions. In fact, “marozi” supposedly means “solitary lion” in the local language. Instead of living in open grasslands, it lives in thick forest where a spotted coat and smaller body size would be useful, allowing it to maneuver through the trees more easily while not being seen. It wasn’t until the colonial era in the late 19th and early 20th centuries that Europeans became aware of the marozi. The first known sighting of a spotted lion by a European occurred in 1903, when a British soldier reported seeing more than one in the mountains of Kenya. He said the lions were darker in color than an ordinary lion, with leopard-like rosette markings. In 1924, a game warden reported killing a spotted lioness and her cubs, with the lioness having just as many spots as the babies. In 1931 a farmer shot two small spotted lions in the mountains. He said they were fully grown despite their small size, but they had even more spots than lion cubs do. One was a male and he had a sparse, short mane. The farmer kept the male’s skin, which eventually made its way to the Natural History Museum in London, possibly with the lion’s skull too, although it’s not clear if the skull actually belongs to the same animal. As

Thanks to Chuck for suggesting this week’s topic, a weird little deer called the muntjac! Further reading: Dam Project Reveals Secret Sanctuary of Vanishing Deer Wildlife camera trap surveys provide new insights into the occurrence of two threatened Annamite endemics in Viet Nam and Laos Getting ahead (or two?) with Vietnam’s Viking Deer – the Long-Running Saga of a Slow-Running Mystery Beast A giant muntjac [photo by Mark Kostich, taken from article linked above]: A Reeve’s muntjac [photo by Don Southerland, taken from this site]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a suggestion from Chuck, who wanted to learn about a small hoofed animal that I don’t think we’ve ever covered before, the muntjac. It’s a deer, but it’s a very weird deer. In fact, it’s not just one deer, it’s at least 12 different species that are native to parts of south and southeast Asia, although it used to have a much broader range. Muntjac fossils have been found throughout Europe in particular. It prefers thick forests with lots of water around. Most species live in tropical or subtropical areas, although it can tolerate colder temperatures. It eats leaves, grass, fruit, seeds, and other plant parts, and it will also sometimes eat bird eggs and small animals when it finds them. It will even sometimes eat carrion. The typical muntjac is small, barely larger than a fox. The largest species, the giant muntjac, stands a little over two and a half feet tall at the shoulder, or 80 cm, while there are several species of muntjac that don’t grow taller than 15 inches high, or 40 cm. It’s brown or reddish-brown, sometimes with darker or lighter markings depending on species. The muntjac appears hump-backed in shape like a rabbit, since instead of having a mostly level back, its back slopes upward from the shoulders to the rump. Its tail is very short and males grow short antlers that either have no branches or only one branch. Males also have a single pair of sharp, curved fangs that grow down from the upper jaw, more properly called tusks. The muntjac is usually a solitary animal, with each individual defending a small territory. Both males and females have a large gland near the eye that secretes an oily substance with a strong smell. It also has another pair of scent glands on the forehead. The muntjac rubs its face on the ground to mark the edges of its territory with scent. It can even flare its scent glands open to communicate with other muntjacs by smell more effectively. Unlike many deer species, the muntjac doesn’t have a particular mating season. Females, called does, can come into season any time of the year, so males are always ready to fight with other males for a doe’s attention. The male loses and regrows his antlers yearly, but mainly he only uses them to push an opponent over. He does the real fighting with his fangs. There are other types of hoofed animals with fangs. We talked about the musk deer and the chevrotain in episode 116, but even though the chevrotain in particular looks a lot like the muntjac, it’s not closely related to it at all. Neither is the musk deer. In fact, neither the musk deer nor the chevrotain are actually deer, and they’re not even closely related to each other. The southern red muntjac is one of the smallest species of muntjac known and is fairly common throughout much of southeast Asia, although we don’t know much about it. One thing we do know is that it has the smallest number of chromosomes of any mammal ever studied. Males have 7 diploid chromosomes and females only have 6. In comparison, the common Reeve’s muntjac has 46 diploid chromosomes. Scientists have no idea why there’s so much difference in chromosome count between species, but it works for the muntjac. Many species of muntjac are common and are doing just fine, but others are endangered due to habitat loss, hunting, and the other usual factors we talk about a lot. But the muntjac is small, solitary, and very shy, so there are also species that are probably still waiting to be discovered. The giant muntjac, also called the large-antlered muntjac, was only discovered in 1994 from a skull found in Vietnam. Scientists were eager to learn more about the animal, especially whether it was still alive or had gone extinct. They talked to hunters and other local people in Vietnam and Laos, and set up camera traps, and went on expeditions searching for it. The hunters said it was still around but the scientists just couldn’t find any. It wasn’t until 1997 that a camera trap took a few pictures of one near a newly constructed dam, which gave everyone hope that this animal could be saved from possible extinction. Scientists had been searching for the giant muntjac for so long, and had only finally gotten a photograph after 13 years of trying, that they figured it would be an even longer time before they learned more about it. But then, suddenly, only four months aft

Let’s take a look at some new findings about the temnospondyls this week! Further reading: Ancient giant amphibians swam like crocodiles 250 million years ago Fossil of Giant Triassic Amphibian Unearthed in Brazil Kwatisuchus rosai was an early amphibian [picture taken from article linked above]: Koolasuchus was a weird big-headed boi: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to revisit an animal we talked about way back in episode 172, the temnospondyl. That’s because a new species of temnospondyl has been named that lived about 250 million years ago, and some other new information has been published about temnospondyls in general. In case you haven’t listened to episode 172 in a while, let’s brush up on some history. The temnospondyls arose about 330 million years ago during the Carboniferous period. Ocean levels were high, the continents were coming together slowly to form the supercontinent Pangaea, and much of the land was flooded with warm, shallow water that created enormous swampy areas full of plants. Naturally, a whole lot of animals evolved to live in the swamps, and the temnospondyls were especially successful. Temnospondyls were semi-aquatic animals that probably looked a lot like really big, really weird salamanders. This was before modern amphibians evolved, and scientists still aren’t sure if the temnospondyls are the direct ancestors of modern amphibians or just cousins that died out with no living descendants. Temnospondyls do share many traits with modern amphibians, but they still had a lot in common with their fish ancestors. Most temnospondyls had large heads that were broad and flattened in shape, often with a skull that was roughly triangular. Some had smooth skin but many had scales, including some species with scales that grew into armor-like plates. The earliest species had relatively small, weak legs and probably spent most of their time in the water, but it wasn’t long before species with stronger legs developed that probably lived mostly on land. Many temnospondyls were small, but some grew really big. The biggest found so far is Prionosuchus, which is only known from fragmentary specimens discovered in Brazil in South America. It had an elongated snout something like a ghavial’s, which is a type of crocodilian that mostly eats fish, and a similar body shape. That’s why its name ends in the word “suchus,” which refers to a crocodile or an animal that resembles a crocodilian. Inside, though, prionosuchus probably had more in common with its fish ancestors than with modern crocodiles, and of course it wasn’t a reptile at all. It was an amphibian, possibly the largest one that’s ever lived. The biggest specimen found so far had a skull that measured just over 5 feet long, or 1.6 meters. That was just the skull! The whole animal, tail and all, might have measured as much as 30 feet long, or about 9 meters, although most paleontologists think it was probably more like 18 feet long, or 5-1/2 meters. That’s still incredibly big, as large as the average saltwater crocodile that lives today. The resemblance of many temnospondyls to crocodilians is due to convergent evolution, since researchers think a lot of temnospondyls filled the same ecological niche as modern crocodiles. If you’re an ambush predator who spends a lot of time hiding in shallow water waiting for prey to get close enough, the best shape to have is a long body, short legs, a long tail that’s flattened side to side to help you swim, and a big mouth for grabbing, preferably with a lot of teeth. A study published in March of 2023 examined some trace fossils found in South Africa that scientists think were made about 255 million years ago by a temnospondyl. The fossils were found in what had once been a tidal flat or lagoon along the shore of the ancient Karoo Sea. You didn’t need to know it was called the Karoo Sea but I wanted to say it because it sounds like something from a fantasy novel. Truly, we live in a wonderful world. Anyway, there aren’t very many footprints but there are swirly marks made by a long tail and body impressions where the animal settled onto the floor to rest. From those trace fossils, scientists can learn a lot about how the animal lived and moved. The swirly tail marks show that it used it tail to swim, not its legs. Since there are hardly any footprints, it probably kept its legs folded back against its body while it was swimming. When it stopped to rest, it may have been watching for potential prey approaching from above, since its eyes were situated on the top of its head to allow it to see upward easily. All these traits are also seen in crocodiles even though temnospondyls aren’t related to crocodilians at all. Other big temnospondyls that filled the same ecological niche as crocodiles were species in the family Benthosuchidae. Some grew over 8 feet long, or 2.5 meters. That may not seem very big compared to a dinosaur or a wha

Thanks to Oz from Las Vegas for suggesting this week’s topic! Further reading: Bobi, the supposed ‘world’s oldest dog’ at 31, is little more than a shaggy dog story Greenland sharks live for hundreds of years Scientists Identify Genetic Drivers of Extreme Longevity in Pacific Ocean Rockfishes Scientists Sequence Chromosome-Level Genome of Aldabra Giant Tortoise Giant deep-sea worms may live to be 1,000 years old or more A Greenland shark [photo by Eric Couture, found at this site]: The rougheye rockfish is cheerfully colored and also will outlive us all: An Aldabra tortoise all dressed up for a night on the town: Escarpia laminata can easily outlive every human. It doesn’t even know what a human is. Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a great suggestion by Oz from Las Vegas. Oz wanted to learn about some animals that will outlive us all, and gave some suggestions of really long-lived animals that we’ll talk about. We had a similar episode several years ago about the longest lived animals,where for some reason we talked a lot about plants, episode 168, but this is a little different. But first, a quick correction! Last week we talked about the dodo and some of its relations, including the Nicobar pigeon. I said that the Nicobar pigeon lived in the South Pacific, but Pranav caught my mistake. The Nicobar pigeon lives in the Indian Ocean on the Nicobar Islands, which I should have figured out because of the name. Anyway, back in the olden days when I was on Twitter all the time, I came across a tweet that’s still my absolute favorite. Occasionally I catch myself thinking about it. It’s by someone named Everett Byram who posted it in January 2018. It goes: “DATE: so tell me something about yourself “ME: I am older than every dog” Not only is it funny, it also makes you thoughtful. People live a whole lot longer than dogs. The oldest living dog is a chihuahua named Spike, who is 23 years old right now. A dog who was supposed to be even older, 31 years old, died in October of 2023, but there’s some doubt about that particular dog’s actual age. Pictures of the dog taken in 1999 don’t actually look like the same dog who died in 2023. The oldest cat who ever lived, or at least whose age is known for sure, died in 2005 at the age of 38 years. The oldest cat known who’s still alive is Flossie, who was born on December 29th, 1995. If your birthday is before that, you’re older than every cat and every dog. The oldest human whose age we know for sure was Jeanne Calment, who died in 1997 at the age of 122 years. We talked about her in episode 168. The oldest human alive today, as far as we know, is Maria Branyas, who lives in Spain and will turn 117 years old on her next birthday in March 2024. It’s not uncommon for ordinary people to live well into their 90s and even to age 100, although after you reach the century mark you’re very lucky and people will start asking you what your secret for a long life is. You might as well go ahead and make something up now to tell people, because it seems to mainly be genetics and luck that allow some people to live far beyond the lives of any dog or cat or most other humans. Staying physically active as you age also appears to be an important factor, so keep moving around. But there are some animals who routinely outlive humans, animals who could post online and say “I am older than every human” and the others of its species would laugh and say, “Oh my gosh, it’s true! I’m older than every human too!” But they don’t have access to the internet because they are, for instance, a Greenland shark. We talked about the Greenland shark in episode 163. It lives in the North Atlantic and Arctic Oceans where the water is barely warmer than the freezing point. It can grow up to 23 feet long, or 7 meters, with females being larger than males. Despite getting to such enormous sizes, it only grows one or two centimeters a year, and that was a clue for scientists to look into how old these sharks can get. In 2016, a team of scientists published a study about how they determined the age of Greenland sharks that had been accidentally caught by fishing nets or that had otherwise been discovered already dead. The lenses inside vertebrate eyeballs don’t change throughout an animal’s life. They’re referred to as metabolically inactive tissue, which means they don’t grow or change as the animal grows. That means that if you can determine how old the lens is, you know when the animal was born, or hatched in the case of sharks. In the past, scientists have been able to determine the age of dead whales using their eye lenses, but the Greenland shark was different. It turns out that the shark can live a whole lot longer than any whale studied, so the scientists had to use a type of carbon-14 dating ordinarily used by archaeologists. The Greenland shark may be the oldest-living vertebrate known. Its life expectancy is at

Thanks to Wilmer and Carson for suggesting we revisit the dodo! Further reading: Dodos and spotted green pigeons are descendants of an island-hopping bird On the possible vernacular name and origin of the extinct Spotted Green Pigeon Caloenus maculata Giant, fruit-gulping pigeon eaten into extinction on Pacific islands A taxidermied dodo: The Nicobar pigeon, happily still alive [photo by Devin Morris – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=110541928]: The 1823 illustration of the spotted green pigeon: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to revisit a bird that everyone’s heard of but no one has seen alive, because it’s famously extinct. We talked about the dodo way back in episode 19, so it’s definitely time we talked about it again. Thanks to Wilmer and Carson for suggesting it! We’re also going to learn about some of the close relations of the dodo. The first report of a dodo was in 1598 by Dutch sailors who stopped by the island of Mauritius in the Indian Ocean. Mauritius is east of Madagascar, which is off the eastern coast of Africa. The last known sighting of a dodo was in 1662, just 64 years later. The dodo went extinct so quickly, and was so little known, that for a couple of centuries afterwards many people assumed it was just a sailor’s story. But there were remains of dodos, and in the 19th century scientists gathered up everything they could find to study the birds. More remains were found on Mauritius. In the wild, the dodo was a sleek bird that could run quite fast. It may have eaten crabs and other small animals as well as roots, nuts, seeds, and fruit. It was also probably pretty smart. People only thought it was dumb because it didn’t run away from sailors—but it had no predators on Mauritius so never had to worry about anything more dangerous than an occasional egg-stealing crab before. When humans arrived on Mauritius, they killed and ate dodos and their eggs. What the sailors didn’t eat, the animals they brought with them did, like pigs and rats. It was a stark and clear picture of human-caused extinction, shocking to the Victorian naturalists who studied it. A lot of the drawings and paintings we have of dodos were made from badly taxidermied birds or from overfed captive birds. At least eleven live dodos were brought to Europe and Asia, some bound for menageries, some intended as pets. The last known captive dodo was sent to Japan in 1647. The dodo grew over three feet tall, or almost a meter, with brown or gray feathers, a floofy tuft of gray feathers as a tail, big yellow feet, and a weird head. The feathers stopped around the forehead, making it look sort of like it was wearing a hood. Its face was bare and the bill was large, bulbous at the end with a hook, and was black, yellow, and green. The dodo looks, in fact, a lot like what you might expect pigeons to evolve into if pigeons lived on an island with no predators, and that’s exactly what happened. The dodo’s closest living relation is the Nicobar pigeon, which can grow 16 inches long, or over 40 cm. Like other pigeons, the dodo’s feathers probably had at least some iridescence, but the Nicobar pigeon is extra colorful. Its head is gray with long feathers around its shoulders like a fancy collar, and the rest of its body is metallic blue, green, and bronze with a short white tail. Zoos love to have these pigeons on display because they’re so pretty. It’s a protected animal, but unfortunately it’s still captured for sale on the pet black market or just hunted for food. It only lays one egg a year so it doesn’t reproduce very quickly, and all this combined with habitat loss make it an increasingly threatened bird. Scientists are trying to learn more about it so it can be better protected. The Nicobar pigeon lives on a number of islands in the South Pacific and it can fly. Sometimes an errant individual is discovered in Australia, often after storms. Imagine going into your back yard one day and seeing a 40-centimeter-long bird whose feathers shine like jewels! The Nicobar pigeon lives in small flocks and eats seeds, fruit, and other plant material. An even closer relative to the dodo is also the most mysterious. We don’t even know for sure if it’s extinct, although that’s very likely. It’s the spotted green pigeon and we only have one specimen–and we don’t even know where it was collected, just that it was an island somewhere in the South Pacific. There used to be two specimens, but no one knows what happened to the second one. For a long time researchers weren’t even sure the spotted green pigeon was a distinct species or just a Nicobar pigeon with weird-colored feathers, but in 2014, DNA testing on two of the remaining specimen’s feathers showed it was indeed a separate species. Researchers think the spotted green pigeon, the dodo, and another extinct bird, the Rodrigues solitaire, all descended from an unknown pigeon an

Thanks to Murilo for suggesting this week’s episode about the sawfish and the sawshark! Further Reading: Sawfish or sawshark? Two New Species of Sixgill Sawsharks Discovered Do not step: The underside of a largetooth sawfish [photo by J. Patrick Fischer – Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=17421638]: The sawshark has big eyes [photo by OpenCago.info – Wikimedia Commons [1], CC BY-SA 2.5, https://commons.wikimedia.org/w/index.php?curid=25240095]: A comparison of rostrums. The sawskate is in the middle, the one with barbels is the sawshark, and the really toothy one is the sawfish [picture by Daeng Dino – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=137983599]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about an amazing fish suggested by Murilo. It’s the sawfish, and while we’re at it, we’re also going to learn about a different fish called the sawshark. There are five species of sawfish alive today in two genera, and they’re all big. The smallest species can still grow over 10 feet long, or 3 meters, while the biggest species can grow over 20 feet long, or 6 meters. The largest sawfish ever reliably measured was 24 feet long, or 7.3 meters. Since all species of sawfish are endangered due to overfishing, pollution, and habitat loss, really big individuals are much rarer these days. The sawfish lives mostly in warm, shallow ocean waters, usually where the bottom is muddy or sandy. It can also tolerate brackish and even freshwater, and will sometimes swim into rivers and live there just fine. The largetooth sawfish is especially happy in freshwater. Let’s talk specifically about the largetooth sawfish for a moment, since we know the most about it. Like other sawfish, the female gives birth to live young, up to 13 babies at a time, and the babies can be up to three feet long at birth, or 90 cm. When a baby is born, its saw, which we’ll talk about in a minute, is covered with a jelly-like sheath that keeps it from hurting its mother. The sheath dissolves soon after birth. The mother usually gives birth around the mouth of a river, and instead of swimming into the ocean, the babies swim upstream into the river. They live there for the next several years, and some individuals and even some populations may live their whole lives in the river. It’s sometimes called the river sawfish or the freshwater sawfish for this reason. One interesting thing about the largetooth sawfish is how agile it is. All sawfish are good swimmers, but the largetooth sawfish is especially good. It can swim backwards, it can jump more than twice its own length out of the water, and it can climb over rocks and other obstacles using its fins, even if the obstacle isn’t completely submerged. It’s possible that other species of sawfish can do the same, but scientists just haven’t observed this behavior yet. We actually don’t know that much about most species of sawfish because of how rare they’ve become. The sawfish is a type of ray, and rays are most closely related to sharks. Like sharks, rays have an internal skeleton made of cartilage instead of bone, but they also have bony teeth. You can definitely see the similarity between sharks and sawfish in the body shape although the sawfish is flattened underneath, which allows it to lie on the ocean floor. There’s also another detail that helps you tell a sawfish from a shark: the rostrum, or snout. It’s surprisingly long and studded with teeth on both sides, which makes it look like a saw. The teeth on the sawfish’s saw are actual teeth. They’re called rostral teeth and the rostrum itself is part of the skull, not a beak or a mouth. It’s covered in skin just like the rest of the body. The sawfish’s mouth is located underneath the body quite a bit back from the rostrum’s base, and the mouth contains a lot of ordinary teeth that aren’t very sharp. So, you may be asking, if the sawfish has plenty of teeth in its mouth, how and why does it also have those extra teeth on both sides of its saw? It’s because the rostral teeth evolved from dermal denticles. We’ve talked about dermal denticles a few times before, but a few months ago we had a Patreon bonus episode that went into more detail. In that episode, I talked about an article about a type of catfish, so let me just quote the whole section of that episode. It’s not long and I think it’s really interesting. Heck, I’ll just drop the audio in directly from that Patreon episode: Our next article is from October 2017 and is intriguingly titled “When teeth grow on the body.” It sounds horrific, but it’s actually a study of certain catfish that grow bony plates with tiny teeth on their bodies as defense. Catfish don’t have scales, but some species of denticulate catfish that live in South America grow bony plates that act like armor. Many of these plates are covered in thin little teeth–actual tee

Welcome to 2024! Let’s learn about some exciting new discoveries in our own family tree! Further reading: 476,000-Year-Old Wooden Structure Unearthed in Zambia Mysterious 300,000-year-old skull could be new species of human, researchers say Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s time to start the new year off with an episode that has me really excited. I was initially going to include this in the updates episode that usually comes out around summertime, but I just can’t wait. In 2023, scientists discovered what they think might be a new lineage of extinct human ancestors! We’ll come back to that in a moment, but first I want to highlight another amazing human-relateded discovery from 2023. And just to let you know, I am going to be using the words “humans” and “people” and “hominins” more or less interchangeably. I try to make it clear when I’m talking about Homo sapiens versus other species of ancient hominin, but these are all our ancestors–in many cases our direct ancestors–so they’re all people as far as I’m concerned. As you may know, especially if you’ve listened to previous episodes where we’ve discussed ancient human ancestors, the ancestors of all humans evolved in Africa. Specifically, we arose in the southern part of Africa, in areas that had once been dense forest but gradually changed to open woodland and savanna. Because there weren’t very many trees, our far-distant hominin ancestors, the australopiths, no longer needed to be able to climb trees as well as their ape cousins. Instead, they evolved an upright stance and long legs to see over tall grasses, and the stamina to run after the animals they hunted until the animal was exhausted and couldn’t run anymore. Once our ancestors were walking on two legs all the time, their hands were free to carry babies and food and anything else they wanted. Being fully bipedal meant that women had a harder time giving birth, since the pelvis had to change position to allow them to walk and run, so babies started being born when they were smaller. This meant the babies needed a whole lot more care for a lot longer, which meant that family groups became even more important and complicated. One thing we’ve learned about sociability in animals is that it leads to increased intelligence, and that’s definitely what happened with our long-distant ancestors. As their brains got bigger, they became more creative. They made lots of different types of tools, especially weapons and items that helped them process food, but eventually they also made artwork, baskets, clothing, jewelry, and everything else they needed. All this took a long time, naturally. We know Australopithecus used stone tools over three million years ago, but we don’t have evidence of human ancestors using fire until a little over 1.5 million years ago. Homo sapiens was once thought to have only evolved around 100,000 years ago, maybe less, but as scientists find more remains and are able to use more sophisticated techniques to study those remains, the date keeps getting pushed back. Currently we’re pretty certain that actual humans, if not the fully modern humans alive today, arose about 300,000 years ago and maybe even earlier. Homo sapiens evolved from Homo erectus, which arose about two million years ago and went extinct about 100,000 years ago. They were probably the first hominin to use fire, which allowed humans to start migrating longer distances into colder climates. They might also have communicated with language. Basically, Homo erectus was a lot like us but not quite us yet. The modern-day country of Zambia is in the middle of south-central Africa, and naturally it’s been home to humans and our ancestors for as long as humans have existed. One especially important part of Zambia is also one of its most beautiful places, Kalambo Falls, which is really close to the equally important and beautiful country of Tanzania. Scientists have known that humans of one kind or another have lived around Kalambo Falls for at least 447,000 years, long before Homo sapiens actually evolved. When a team of archaeologists excavated a sandbar near the falls in 2019, they were surprised to find wooden artifacts. Wood doesn’t usually preserve for very long and the site they were excavating was quite old. In addition to wooden tools, they found two logs that had been shaped and notched to allow them to fit together securely. The researchers thought the logs had once been part of a structure like a walkway that would keep people’s feet out of the mud and water, or possibly the floor of a wooden structure used to store food. It might even have been the floor of a little house. Wood can be dated with simple tests to find out its age, but the test is only useful for trees that died within the last 50,000 years. Anything older than that is just, you know, older than 50,000 years. The tools and logs te

Apologies to patrons for redoing an old Patreon episode, but I have a cold and it’s the holidays. The noble emu: A baby emu (picture from this site, which has lots of good info about emus and lots more great pictures): Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. I had a different episode planned to finish off the year, but I had lots of stuff to do for the holidays so I put it off, and then I came down with a cold. It’s just a cold, at least, and it’s not too serious, but I decided to repurpose a Patreon episode from early 2020 instead of making a new episode, because I don’t feel good. Apologies to my patrons for getting a rerun, but I did give the episode a brush-up and re-recorded it. Our topic this week is a bird from Australia, the emu, but mostly we’re going to learn about the emu war that happened in 1932. The emu is a large, flightless bird almost as big as an ostrich, over 6 feet tall, or 2 meters. Like the ostrich, it can run really fast, over 30 miles per hour, or 50 km/hour. It’s only distantly related to the ostrich, though, and in fact it’s much more closely related to the tiny kiwi of New Zealand. The emu has long legs and a long neck, soft feathers that are gray and brown, and three toes on each foot. It also has small vestigial wings that are only about eight inches long, or 20 cm. The body feathers make the emu look shaggy, but the head and the upper portion of the neck are less heavily feathered so that it sort of looks like it’s wearing a fancy coat with a high collar. It also looks like it has a poofy wedge of a downward-pointing tail, but it actually doesn’t have much of a tail at all. What looks like a tail is mostly part of the body. The emu’s skeleton is built for running, which includes a modified pelvis and leg bones for the attachment of strong leg muscles. In winter, the female puffs out her feathers and struts around to attract a mate while making drumlike calls. Females sometimes fight each other by kicking, especially if a female approaches a male who already has a mate. The male builds a nest on the ground by placing dry grass, sticks, bark, and other plant materials on a flat, open area where he can see any predators that might approach. The female lays up to 15 green eggs that are around five inches long, or 13 cm. The male broods the eggs for the next eight weeks and doesn’t eat during that entire time, and only drinks whatever dew he can gather from the plants around the nest without leaving the nest. A male can lose a third of his weight while brooding. Meanwhile, the female often leaves and finds another mate, sometimes laying several clutches of eggs during the nesting season. When the babies hatch, the father takes care of them for the next six or seven months, at which point they’re fully grown. While he’s in charge, the father won’t let any other emus near the chicks, even their mother. He teaches them to find food and if the babies feel threatened, they’ll run underneath him to hide. Baby emus have gray and white longitudinal stripes and are super cute. The emu eats plants and insects, and will sometimes travel long distances to find enough food and water. It can go a long time without eating and several days without drinking. It usually only drinks once a day but it will drink a whole lot of water during that one time. Some populations of emu migrate to the coast after breeding season, where they can find more food and cooler weather. But in 1932 in western Australia, migrating emus didn’t find their usual food supplies. They found a whole lot of wheat fields cultivated by former soldiers, who had been given land after World War I. The Australian government had encouraged the soldiers to clear the land of native vegetation and grow lots of wheat, which they did. Then the emus showed up. Naturally, without their usual food to eat, the emus sampled the wheat plants. And they found the plants yummy. Also, even though there was a drought that year, there was plenty of water for the wheat, which meant plenty of water for emus. So the emus showed up and showed up and showed up, an estimated 20,000 emus eating as much wheat as they could hold and crashing through fences to get to it. The farmers sent a group to speak to the Minister of Defence to get help. The Minister of Defence sent a major with a small handful of soldiers to deal with the birds, with the soldiers armed with two lightweight machine guns. On November 2, 1932, the men encountered their first emus. The birds were too far away to shoot so the men tried to herd them closer, but the emus scattered instead of staying in a group. Two days later, the men encountered approximately a thousand emus and lay in wait until the birds were close enough to shoot at–but the gun jammed and the birds scattered again. At this point the soldiers had killed maybe two dozen birds in all. That was enough that the emus had figured out the men were a danger. The men repo

Thanks to Morgan for suggesting this week’s topic, the Antarctic Death Star! Further reading: Giant Monster Starfish ALERT Echinoderm Tube Feet Don’t Suck! They Stick! Bodies of Starfish and Other Echinoderms Are Really Just Heads, New Research Suggests The Antarctic death star [from first link listed above]: The “beartrap” structures, magnified [from first link listed above]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s been way too long since we talked about an invertebrate, so this week we’ll look at one suggested by Morgan, the Antarctic death star. It has a lot of other names too, including the Antarctic sun starfish and the wolftrap or beartrap starfish. Its scientific name is Labidiaster annulatus. I’m going to call it the death star because I think that’s hilarious. As you may have guessed from its common names, the Antarctic death star is a starfish that lives in cold ocean waters near the Antarctic, AKA the south pole. But its common names also hint at how it gets its food, and this would be a good time to take a moment and be glad you’re not a copepod that also lives in the Antarctic Ocean. The death star is reddish-brown on its dorsal side, white underneath. It’s a large starfish, up to two feet across, or 60 cm, and it also has a lot of legs, more properly called rays—up to 50 of them. The rays are long, narrow, and very flexible, and the undersides have rows of little structures called tube feet. All echinoderms, including starfish, have these tube feet and they’re used for several purposes. One important purpose is helping the animal stick to a hard surface, which allows it to climb around more easily and right itself if it gets flipped over. For over 150 years scientists thought the tube feet acted like little suction cups, but that didn’t explain how a starfish or other echinoderm could stick to porous surfaces. It wasn’t until 2012 that a study was published explaining how the tube feet actually work. The tube feet exude tiny amounts of a sticky chemical that acts like glue. The death star’s body also has little spines and bumps all over it, but it also has some structures that give the animal its other names, the wolftrap or beartrap starfish. The structures are called pedicellariae [PED-uh-suh-LAIR-ee-aye], which are also common in echinoderms. Most echinoderms seem to use them to keep algae and other organisms from settling on the body, although scientists aren’t completely sure. Pedicellariae have muscles and sensory receptors, and when something touches them, they snap shut like a trap. In the case of the Antarctic death star, its pedicellariae are extra big and really sharp. When a krill or other tiny animal brushes against one of these little traps, it grabs the animal and then the death star can eat it. But that’s just part of what’s going on when the death star goes hunting, so let’s discuss it in more detail. Most starfish spend almost all their time on the ocean floor, walking around looking for food. The death star does this too, but not all the time. Quite often a death star will climb on top of a rock or other large structure, and then it will extend some of its rays up and out into the water. It waves its rays around and if it touches a small animal, it will wrap the rays around it. The pedicellariae also snap shut. Then the death star can eat whatever it caught. Usually this is krill or amphipods, but it’s not a picky eater. Since it will eat animals it finds already dead, researchers aren’t completely sure if the death star ever catches fish. They’ve certainly found dead fish in death star stomachs, but the water it lives in is so cold that not many fish live there anyway. Fish don’t make up a big part of the death star’s diet, whether or not it’s catching them itself. The death star also eats other starfish, including smaller death stars. Like other starfish, the death star can eat surprisingly large pieces of food because it can evert its stomach. This means it can actually push its stomach out through its mouth and engulf whatever large food it’s found or caught. The digestion process starts right away, which allows the starfish to eat food that can’t actually fit through its mouth. It doesn’t chew its food because it doesn’t have any kind of teeth or jaws, but who needs teeth and jaws if your stomach can just reach out and grab food? While I was researching the death star, I came across a study published in November 2023 about echinoderms, so let’s learn something surprising about starfish and their relations in general. Echinoderms demonstrate radial symmetry instead of bilateral symmetry. That’s why you can’t tell when a starfish or other echinoderm is facing forward, because it doesn’t actually have a forward. But it’s actually more complicated than it sounds, because the distant ancestor of echinoderms, which lived during the Cambrian almost half a billion years ago, did demonstrate bilateral symmetry,

Thanks to Dean, Mia, and Lydia for their suggestions this week! The tayra looks kind of like a canid but is a mustelid [photo by Bob Johnson – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=85291909]: The bush dog looks kind of like a mustelid but is a canid: The maned wolf looks like a fox with reallllllly long legs: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a suggestion from Dean, who wanted to learn about the bush dog. We’re actually going to learn about two animals that share the name bush dog, along with an animal suggested by both Mia and Lydia, the maned wolf. We’ll start with the bush dog that isn’t a dog. It’s more commonly called the tayra and it’s native to much of Central and South America. It prefers to live in forests, especially tropical forests, but it will travel long distances to find food and can sometimes be found in grasslands and other areas. Despite the name bush dog, it’s not a canid at all. It’s a member of the family Mustelidae, which includes weasels, ferrets, and wolverines. The tayra has a long body and short legs, but it’s also bulkier than most mustelids, more similar to a wolverine. It can grow almost four feet long, or 1.2 meters, including its long tail, and its fur is short and black or dark brown. It also has a patch of lighter fur on its chest that’s a unique shape to every individual, sometimes called a heart patch. The tayra is mostly active during the day and does a lot of climbing around in trees, where it eats birds, lizards and other reptiles, small mammals, eggs, fruit, honey, and large insects and other invertebrates. It especially likes plantains, which is a type of banana. The tayra will pick green plantains and hide them, then come back to eat them after they ripen. It’s also really good at catching spiny rats, so good that the indigenous peoples in various places would sometimes tame a tayra or two in order to keep spiny rats and other rodents away from their food stores. The bush dog that is actually a canid is also from South America, but we’re going to start not with the living animal, but with an extinct one. Back in the 19th century, when it was possible to specialize in several fields of science at once, a Danish man named Peter Wilhelm Lund made a name for himself as an archaeologist, a paleontologist, and a zoologist. He moved to Brazil in South America in 1825, went back to Europe in 1829 to finish his doctoral degree, but returned to Brazil in 1832 for the rest of his life. He just really liked it there. He described hundreds of Brazilian plants and animals scientifically and is most well known for his studies of extinct ice age megafauna, along with prehistoric cave paintings. One of the animals he described was an unusual canid. He discovered its skull in a cave in 1839, so he called it the cave wolf. That makes it sound scary and impressive, but it was actually a fairly small animal. He gave it the scientific name Speothos pacivorus, which means “cave wolf hunter.” In 1842 Lund described a living canid with a similar skull, although its teeth weren’t as big and it was even smaller than the cave wolf. But he didn’t quite make the connection and placed the living animal in a completely different genus. In 1843 another scientist renamed the animal but again placed it in a completely different genus from the cave wolf. It’s not unusual for an animal to be studied repeatedly and its taxonomy debated by various scientists as they try to figure out what the animal’s closest relations are. But in the case of the bush dog, it kept getting shuffled from genus to genus every few years, so that in the 180 years since it was originally described it’s been placed and re-placed in nine different genera, until it was finally renamed Speothos venaticus and recognized as a close relation, or possibly the direct descendant, of the cave wolf. Although the bush dog’s ancestors lived in the highlands of Brazil, the bush dog alive today is adapted for forests. It has partially webbed toes that help it walk on soft soil around water, and it spends a lot of time in water. It’s brown all over, although some individuals have a patch of lighter brown fur on the throat, and its legs and tail are often darker. Puppies are black all over. Its legs are short and it has a short snout and small ears. It actually really does look similar in many ways to the other bush dog, the tayra, although its tail is shorter. The bush dog is incredibly shy and lives in remote areas that are hard for humans to explore, so we actually don’t know a whole lot about it. It’s so shy that it’s even hard to catch on camera traps. It’s a social animal that sometimes hunts by itself and sometimes in groups, and it eats pretty much anything it can catch. Its main prey is rodents, especially large rodents like capybaras, but it also hunts peccaries, tapirs, and the large flightless bird called the rhea. Part of the reaso

This week we’re going to talk about stories of scientists, explorers, and other modern people eating meat from long-dead extinct animals. Did it ever really happen? Check out the great new podcast Herbarium of the Bizarre! I highly recommend it even though they don’t eat any mammoth meat. Further reading: Was frozen mammoth or giant ground sloth served for dinner at The Explorers Club? Study Proves the Explorers Club Didn’t Really Eat Mammoth at 1950s New York Dinner Company Serves World’s First ‘Mammoth’ Meatball, but Nobody Is Allowed to Eat It Don’t eat me bro: Blue Babe, a steppe bison mummy found in Alaska: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. We’ve talked about mammoths and other ice age megafauna plenty of times before, but this week we’re going to learn something specific and really weird about these animals, although it’s more accurate to say we’re going to learn how weird humans are. You may have heard this story before, or something similar to this story. A group of scientists in Siberia or Alaska have unearthed a mammoth carcass that’s been frozen in permafrost for at least 25,000 years. It’s in such good shape that the meat looks as fresh as a fancy restaurant steak that’s ready to go on the grill. At the end of a long day of using pickaxes to dig the mammoth out of ground frozen as solid as rock, the scientists are so hungry that when someone suggests they actually grill some mammoth meat, they all think it’s a good idea. The meat turns out to taste as good as it looks. Everyone has a big steak dinner, even the camp dogs, and when the expedition ends they not only have a mammoth to put on display in their museum, they have a great story to tell about a meal no human has eaten for thousands of years. You may even have come across an event that inspired this particular story. The incredibly well preserved 44,000 year old Berezovsky mammoth was discovered in Russia in 1900 and excavated in 1901, and it’s now on display in the Zoological Museum in Saint Petersburg. Rumors persisted for years that the expedition members ate some of the mammoth meat, but while we don’t know exactly what happened, definitely no one actually sat down to have a yummy meal of mammoth steak. It turns out that the meat did look appetizing when thawed, but stank like old roadkill. The expedition erected a big tent over the dig site as they excavated the carcass, which was a slow process in 1901, and the smell became so bad that the expedition members had to take frequent breaks and leave the tent for fresh air. Apparently the scientists got drunk one night and dared each other to try a bite of the meat, but even after they practically covered it in pepper to disguise the taste, no one could force any down. One man might have managed to eat a single bite, but reports vary. They fed the meat to the camp dogs instead, who were just fine. Dogs and wolves have short, fast digestive tracts and can tolerate eating foods that would make humans very sick. But that’s not the only story of modern humans eating meat from frozen mammoth carcasses. It supposedly happened on January 13, 1951 at the Roosevelt Hotel’s grand ballroom in New York City. A group called the Explorers Club met for their annual fancy dinner that evening, and as always, the menu contained lots of exotic foods. The main course has gone down in history as being slices of mammoth meat from a 250,000-year-old carcass found in Alaska. That’s where things get confusing, though, because supposedly the main course was megatherium meat found in Alaska. Megatherium was a giant ground sloth that hasn’t ever been found frozen in permafrost at all, certainly not in Alaska. It lived in South America. However, the Christian Science Monitor magazine thought megatherium was another word for mammoth and reported that the group was served mammoth meat. Some of the Explorers Club members genuinely thought they were dining on megatherium. Some may have thought it was mammoth. The club’s press release just said “prehistoric meat,” which doesn’t sound very appetizing. An Explorers Club member who couldn’t attend the dinner asked that his portion be saved for him in a bottle of formaldehyde that he provided. This was done, and the promoter himself, Wendell Phillips Dodge, better known as Mae West’s one-time film agent, filled out the supplied specimen card as “megatherium meat.” The club member put his bottled meat on display at the Bruce Museum in Greenwich, Connecticut, where he worked. There the bottle stayed until 2001, when it ended up at the Yale Peabody Museum of Natural History. In 2014, a couple of Yale students ran DNA tests on the meat. As you may have already guessed, the meat wasn’t from a mammoth or a giant ground sloth. It’s meat from the decidedly not extinct green sea turtle, although the green sea turtle is endangered and protected these days, so don’t eat it. Since green sea turtle soup

Thanks to Eva for suggesting the adorable volcano rabbit this week! Further watching: American Pikas Calling Out The volcano rabbit is not a volcano but it is a very small rabbit: The volcano rabbit is SO CUTE: The American pika looks kind of like its rabbit cousin [photo by Justin Johnsen, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=91574]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a suggestion from Eva, who wanted to learn about volcano rabbits! What are volcano rabbits? Do they shoot lava at their enemies? Let’s find out! (No, they don’t shoot lava. Sorry. That’d be awesome!) The most important thing to know about the volcano rabbit is how small it is. It’s almost the smallest rabbit known. It typically only grows about 9 inches long, or 23 cm, and that’s when it’s stretched out. Rabbits usually sit more bunched up, which makes it look even smaller. Its ears are small and rounded, its tail is short even for a rabbit, and its legs are short. Its fur is also short and very thick, mostly grayish-tan in color. The second most important thing to know about the volcano rabbit is how rare and endangered it is. That’s because it only lives in one small part of Mexico, specifically on the upper slopes of four volcanoes. Because people also live in this area, which isn’t far from Mexico City, the rabbits’ natural range is fragmented by human-made obstacles like highways that are dangerous for it to cross, along with habitat destruction from logging, livestock grazing, and the building of new houses. People even hunt the rabbit even though it’s a protected animal. We don’t know for sure how many of the volcano rabbits are left in the wild, but the best estimate is around 1,200 rabbits in small populations that are often widely separated. It’s even been declared extinct on another volcano where it used to live, although there may be a small population still hanging on. The volcano rabbit prefers open woodland in higher elevations where there’s plenty of tall, dense grass native to the area. It makes rabbit-sized tunnels through the grass so it can move around undetected by predators. It also mostly eats this grass. It’s most active at dawn and dusk, which also helps it hide from predators. When a volcano rabbit does feel threatened, it doesn’t thump its feet to alert other rabbits of danger. Instead, it gives a little alarm squeal. This is really unusual in a rabbit, but it’s something the pika does, and the pika is closely related to rabbits. The pika lives in parts of central Asia and western North America, especially in cold areas like mountaintops. It’s so well adapted to the cold that it can die if the temperature climbs over about 78 degrees Fahrenheit, or 25 Celsius. The American pika actually looks a lot like the volcano rabbit in some ways, although it’s less rabbit-like in shape and more rodent-like, although it’s not a rodent. It’s a lagomorph. It’s about the same size or a little smaller than the volcano rabbit, with short legs and dense grayish-brown fur that grows longer in winter. It especially likes places with a lot of rocks, since it makes its home in little cracks and crevices between rocks. It prepares for winter by harvesting the plants it eats and storing them in little haypiles. Since it doesn’t hibernate, it needs plenty of food for times when snow and ice make it hard to find plants. The pika is intensely territorial, because it doesn’t want any other pikas sneaking around eating up its hay, but it does communicate with other pikas. During breeding season the males will make a singing call to attract a female, and all pikas will call to warn others of a predator nearby. I couldn’t find any recordings of a volcano rabbit, but this is what an American pika sounds like: (wait for it…) [pika beeping] Like other rabbits, the volcano rabbit eats grass and other plant parts. The problem is that most of the plants in its habitat are not very high in protein. The more fragmented its habitat is, the harder it is for the rabbits to find enough food to survive, much less to also reproduce. Every time someone decides to let cattle or other livestock graze on the local plants, the rabbits have that much less food. Fortunately, conservationists in Mexico are working on educating people so they know this cute little rabbit is a protected species. Captive breeding programs are underway too, and parts of the volcanoes where the rabbit lives are within the bounds of a national park. There are plans to create safe corridors to link the rabbit’s fragmented habitats so it can come and go without getting squished by cars, and to restore its range with more native plants so it has plenty of food. You might worry that the volcano rabbit, besides having all these issues with habitat loss and habitat fragmentation, is also in danger of its volcano home erupting. The volcanoes where it lives are active, but only one of the four poses any danger, a

This week we learn about two tiny owls! Thanks to Elizabeth and Alexandra for their suggestions! Further reading: Burrowing Owl Elf Owl The burrowing owl is tiny but fierce [photo by Christopher Lindsey, taken from page linked above]: The elf owl is also tiny but fierce [photo by Matthew Grube, taken from page linked above]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about two tiny owls. Thanks to Elizabeth and Alexandra for their owl suggestions! The burrowing owl is native to the Americas, especially the western part of North America, and most of Central and South America. It prefers grasslands and other open areas. It’s a small owl, not much bigger than the average songbird. It’s mostly brown with lighter underparts that are barred with a brown pattern. You can tell a lot about an owl by the color of its eyes. In general, an owl with dark eyes is most active at night, an owl with orange or red eyes is likely to be most active at dawn and dusk, and an owl with yellow eyes is often active in the day. That’s not a hard and fast rule, but it can help you make a good guess about an owl’s behavior. The burrowing owl has yellow eyes, and it is indeed active in the day. The term for daytime activity is diurnal. In past episodes I’ve said that owls have long legs that are usually hidden by feathers. In the case of the burrowing owl, its long legs are in plain sight because it spends a lot of the time running around on the ground. It will sometimes chase prey on foot, but other times it will perch on a fence post, tree branch, or some other high place to watch for a small animal to pass by. Then it will swoop down to grab it just like any other owl. It eats mice and other small rodents, lizards, small snakes, frogs, large insects and other invertebrates like scorpions and caterpillars, and birds. It especially likes termites and grasshoppers. Females are more likely to hunt during the daytime, while males are more likely to hunt at night or at dawn and dusk. Sometimes the burrowing owl will eat fruit and seeds too. When the burrowing owl has more food than it can eat, it will store some in underground larders. The burrowing owl gets its name because it builds a nest in a burrow in the ground, often in burrows dug by other animals like prairie dogs and skunks. Some subspecies of burrowing owl will dig its own burrow, and all subspecies will enlarge an existing burrow until it’s happy with the size. It uses its beak to dig and kicks the dirt out with its feet. Both the male and female will work on the burrow together. Once it’s the right size and shape, the owl will bring in dried grass and other materials to line the burrow. One of its favorite materials is dried animal dung, especially from cattle. The dung releases moisture inside the burrow, making it more comfortable, and attracts insects that the owls eat. Win-win! It will also scatter animal dung around the entrance of its burrow and will sometimes also collect trash like bottle caps and pieces of foil to decorate the entrance. The female lays her eggs in the burrow and spends most of her time incubating the eggs, only going outside briefly to stretch her legs. The male stands guard at the entrance to the burrow or nearby except when he’s out hunting. He brings food back for the female. When the eggs hatch, both parents take care of the babies. At first the chicks stay in the burrow, but as they grow older they come out to play outside and start learning how to fly. Since burrowing owls usually nest in small colonies, there’s always an adult watching for danger somewhere nearby. Most birds abandon their nests after their chicks are grown. The burrowing owl often uses its burrow year-round, although populations that migrate will usually make a new burrow when they return to their summer range. The burrow gives the owls a place to nap during the hottest part of the day, and it’s also a good place to hide if a predator approaches. Rattlesnakes also use burrows for the same purposes, and when a burrowing owl runs from a predator and hides in its burrow, it will mimic the rattling and hissing of an angry rattlesnake. A lot of times that’s enough to make a predator think twice about digging up the burrow. This is what a burrowing owl sounds like when it’s not imitating an angry rattlesnake: [burrowing owl call] The burrowing owl is increasingly threatened by habitat loss and introduced predators likes cats and dogs. Luckily it’s an adaptive bird and is happy to use artificial burrows in protected areas. It’s a useful bird to have around since it eats a lot of insects, prairie dogs, and other animals that are considered pests by humans. Plus it’s an incredibly cute bird. I mean, it’s a tiny owl with long legs! How could you not find that cute? Small as it is, the burrowing owl isn’t the smallest owl known. The elf owl is even smaller, about the size of a sparrow. It’s only about 5 inches tall, or 13

Thanks to Hannah, who suggested sheep as this week’s topic! We’ll also learn about a few other hoofed animals, including the weird giraffe relative, sivatherium. Further reading: The American Jacob Sheep Breeders’ Association What happened with that Sumerian ‘sivathere’ figurine after Colbert’s paper of 1936? Well, a lot. A Jacob sheep ewe with four horns (pic from JSBA site linked above): The male four-horned antelope [photo by K. Sharma at this site]: A modern reconstruction of sivatherium that looks a lot like a giraffe [By Hiuppo – Own work, CC BY 3.0, https://commons.wikimedia.org/w/index.php?curid=2872962]: The rein ring in question (on the left) that might be a siveratherium but might just be a deer: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to look at an animal suggested by Hannah a long time ago. Hannah suggested we talk about sheep, and I can’t even tell you how many times I almost did this episode but decided to push it back just a little longer. Finally, though, we have the sheep episode we’ve all been waiting for! We’re also going to learn about a strange animal called sivatherium and a mystery surrounding when it went extinct. The sheep has cloven hooves and is a ruminant related to goats and cattle. It mostly eats grass, and it chews its cud to further break down the plants it eats. It’s one of the oldest domesticated animals in the world, with some experts estimating that it was first domesticated over 13,000 years ago. Mammoths still roamed the earth then. Sheep are especially useful to humans because not only can you eat them, they produce wool. Wool has incredible insulating properties, as you’ll know if you’ve ever worn a wool sweater in the snow. Even if it gets wet, you stay nice and warm. Even better, you don’t have to kill the sheep to get the wool. The sheep just gets a haircut every year to cut its wool short. Wild sheep don’t grow a lot of wool, though. They mostly have hair like goats. Humans didn’t start selecting for domestic sheep that produced wool until around 8,000 years ago. Like other animals that were domesticated a very long time ago, including dogs and horses, we’re not sure what the direct ancestor of the domestic sheep is. It seems to be most closely related to the mouflon, which is native to parts of the middle east. The mouflon is reddish-brown with darker and lighter markings and it looks a lot like a goat. Other species of wild sheep live in various parts of the world but aren’t as closely related to the domestic sheep. The bighorn and Dall sheep of western North America are closely related to the snow sheep of eastern Asia and Siberia. The ancestors of all three species spread from eastern Asia into North America during the Pleistocene when sea levels were low and Asia and North America were connected by the land bridge Beringia. The male sheep is called a ram and grows horns that curl in a spiral pattern, while the female sheep is called a ewe. Some ewes have small horns, some don’t. This is the case for both wild and domestic sheep. Sheep use their horns as defensive weapons, butting potential predators who get too close, and they also butt each other. Rams in particular fight each other to establish dominance, although ewes do too. But some breeds of domestic sheep are what is called polycerate, which means multi-horned. That means a sheep may have more than two horns, typically up to six. Many years ago I kept a few Jacob sheep, which are a polycerate breed, and in a Patreon episode from 2018 I went into really too much detail about this particular breed of sheep. I will cut that short here. The Jacob is a hardy, small sheep with tough hooves, and it’s white with black spots. Ideally, a Jacob sheep will have four or six well-balanced horns. In a six-horned sheep, the upper pair branch upward, the middle pair curl like an ordinary ram’s horns, and the lower pair branch downwards. Sometimes a sheep will have three or five horns, or will start out with four horns but as they grow, two will merge so it looks like they have a single horn on one side. Sometimes a ram’s horns will grow so large that the blood supply is choked off for the lower pair, which will die and stop growing. Breeding a pair of six-horned Jacob sheep doesn’t guarantee that the babies will have more than two horns, though. It’s still a recessive trait. Sheep, goats, cattle, and some antelopes are all bovids. Polyceratism appears to be a bovid trait. It’s caused by a mutation where the horn core divides during the animal’s development. Occasionally, a sheep of non-polycerate breed, or a goat, or even a cow, is born with multiple horns. The blue wildebeest is also occasionally born with multiple horns. Sometimes an animal grows a lot of horns, like eight, but usually it’s three, four, five, or six. Another animal with more than two horns is the four-horned antelope that lives in India and Nepal.

This week we’re going to learn about some fish that feature warm-bloodedness! Thanks to Eilee for suggesting the moonfish, or opah. Further reading: Are all fish cold-blooded? The Opah Fish Is Warm-Blooded! Basking Sharks Are Partially Warm-Blooded, New Research Suggests Megalodon Was Partially Warm-Blooded, New Research Shows The opah, or moonfish, looks like a pancake with fins but is an active swimmer [picture from first article linked above]: An opah not having a good day [photo by USA NOAA Fisheries Southwest Fisheries Science Center – https://swfsc.noaa.gov/ImageGallery/Default.aspx?moid=4724, Public Domain]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Months ago now, Eilee suggested we talk about the sunfish. We’re actually not going to talk about the sunfish this week, although it is on the list to cover eventually. Instead, we’re going to talk about something else in Eilee’s email. Eilee asked if there was a moonfish too, and not only is there a moonfish, it’s basically the most unique fish alive today in one particular way. It’s warm-blooded! The moonfish is also called the opah. It’s golden-orange in color with little white spots, and it’s very round and flattened side-to-side, like a pancake with orange fins. It has big golden eyes and a tiny mouth. It’s also quite large, with the biggest species growing up to 6 and a half feet long, or 2 meters. That’s a really big pancake. It lives in the ocean, sometimes diving deeply, and despite looking like a pancake, it can swim very quickly to catch squid and small fish. It also eats krill. The reason it can swim so quickly is because it has huge muscles that power its fins, and the muscles also generate a lot of heat, enough to keep its entire body at least several degrees warmer than the surrounding water. This is a warm-blooded trait, but fish are supposed to be cold-blooded. The scientific term for warm-bloodedness is endothermy. Mammals and birds are endothermic, meaning our internal body temperature stays roughly the same no matter what temperature it is outside. Cold-bloodedness, called ectothermy, means an animal’s internal body temperature fluctuates depending on the temperature outside its body. Reptiles, amphibians, fish, and invertebrates are all cold-blooded. To us as mammals, it feels like warm-bloodedness is a really good idea, but it comes at a high cost. Mammals and birds have to eat a lot more and a lot more often than cold-blooded animals do, because keeping our body temperature steady takes a whole lot of energy. An endothermic animal generates heat mainly by metabolizing food, although muscle movements like shivering and running also generate heat. An endothermic animal can be as active at night as it is during the day, and can be as active in winter as it is in summer. Some otherwise cold-blooded animals can generate enough heat with muscle movements to warm parts of the body, called regional endothermy, or can generate heat with muscle movements in certain situations, called facultative endothermy. The female of some species of snake, especially some pythons, will wrap her body around her eggs and shiver, which generates enough heat to keep the eggs warm. Bumblebees can also shiver to warm their bodies enough to allow them to fly in cold weather. At least some species of sea turtle, including the green sea turtle and the leatherback, generates enough heat in its muscles while swimming that it’s able to migrate long distances in very cold water. Some scientists think all marine reptiles may be regional endotherms to some degree. Some fish demonstrate regional endothermy too. So far, 35 species of fish are known to be partially warm-blooded, including some species of tunas, sharks, and billfish. Scientists originally thought that only predatory fish needed the extra boost of speed and endurance that endothermy provides, but then they discovered the basking shark is regionally endothermic, and the basking shark is a filter feeder that doesn’t need to chase after fast-moving fish. Also, almost nothing eats it, so it’s not running from anything either. The basking shark is also huge, one the largest sharks alive today. It can grow over 40 feet long, or more than 12 meters, and possibly longer, although most individuals are closer to 25 feet long, or around 7 1/2 meters. It mostly lives in cold waters, sometimes diving quite deeply but sometimes feeding at the surface of the ocean. It just goes where it can find lots of tiny food that it filters out of the water with structures called gill rakers. The basking shark just swims forward with its gigantic mouth open, water flows through its gills, and the gill rakers catch any tiny particles of food. The gill rakers funnel the food toward the throat so the shark can swallow it. It mostly swims slowly and isn’t a threat to anything in the ocean except the tiniest of tiny animals. So why does it need parts of its body to be warmer than the water i

Happy Halloween! We have a super spooky episode for you this week, a full five out of five bats on the spookiness scale, all about the not-deer of modern folklore! Join our Patreon and get bonus episodes and other perks! You can also buy copies of the Beyond Bigfoot & Nessie book and Kate’s other books! Further reading: Not Deer, or a Deer? Days before Halloween, creepy trail photo reveals deer standing on 2 legs in NC woods Sharon A Hill’s Spooky Geology (not about the not-deer but a lot of fun even so) The white-tailed deer uses its bright white tail to warn other deer of danger: White-tailed deer sometimes stand on their hind legs to reach vegetation or fight: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Happy Halloween! It’s time for our spookiest episode of the year! It’s rated five out of five bats on our spookiness scale. If you like scary stories on Halloween, make some cocoa and popcorn and sit back to be spooked. If you’re not really a fan of the scarier stuff, you might want to skip this one. Some people also really don’t like hearing about diseases, and that’s one of the things we’ll be discussing. We’re going to talk about a really weird cryptid called the not-deer. Before we get started, though, we have a little bit of housekeeping, as the big podcasters call it. First, I want to reassure everyone who has sent me suggestions that I’m trying to get to them as soon as possible. I love how many people listen and want to share their enthusiasm about animals, but I do feel bad that some people have been waiting a really long time for their suggestion to make it off of the massive humongous ever-growing ideas list into an episode. At the same time, I’ve been thinking of ways to make money off the podcast without running ads. I make Strange Animals Podcast because I love helping people learn about animals and science, and I also really value the people who are able to support the podcast through Patreon. But I do put an awful lot of work into each episode, so much that it’s basically a second job. I thought about it, and decided to make a new Patreon tier that’s a little different from the others. It’s called the terror bird tier, and when I drew the art for it I forgot that terror birds didn’t have actual teeth, but we’ll call that artistic liberty. It’s a $25 a month tier, and not only do you get access to the bonus episodes that all patrons can listen to, after three months at that tier you can message me your episode idea AND tell me what week you’d like that episode to run. I’ve limited the new tier to 25 backers, to make it fair for people who don’t have the money for that, and honestly I don’t expect to get very many people at that level at all, because that’s a lot of money, but I thought I’d give it a try. Finally, the Beyond Bigfoot & Nessie book is still available, as are my other books, and in 2024 I’m planning to attend some conventions again to sell copies of the book. I’ll let you know where I’ll be as I find out, in case you want to come say hi. I’m also very slowly working on a sequel to the book, tentatively titled Small Mysteries, which is all about mystery animals that are really small, like frogs and insects and teeny fish. It probably won’t be ready to publish for a few years, so I’m working hard to make sure it’s got a whole lot of footnotes with references. That’s one of the things I regret not doing for Beyond Bigfoot & Nessie. Now, with all that out of the way, on to the spookiness! The not-deer is a cryptid, or mystery creature, that’s mostly reported from the Appalachian region of the United States. I live in the southern Appalachians near the Smoky Mountains, but I’d never heard of the not-deer until a few months ago. I subscribe to Sharon Hill’s Strange Times newsletter, and also love her Spooky Geology website where you can learn all the science behind weird events like earthquake lights. There’s a link in the show notes, but you can search for https://spookygeology.com/ to find it. Sharon Hill wrote about the not-deer in mid-2023 in her newsletter, where she said the not-deer “looks like a deer until you REALLY look and find that it’s not a deer. It displays unsettling characteristics that scare the heck out of people.” Reports vary, but in general, the not-deer is supposed to look like an ordinary deer at first glance, but then the witness realizes it’s really weird in some ways. Some people report that the deer appears to have extra joints in its legs, a misshapen or overly large head, an overly long neck or legs that are too long or too short, eyes that are close together on the front of its head instead of on the sides of its head as is normal with hoofed animals, and so on. It might walk on its hind legs like a human, and sometimes people say the creature appears to be unusually intelligent and not afraid of people. The not-deer became popular online around the summer of 2020, especially on TikTok, with the

Thanks to Will and Henry for their suggestions this week! This episode is two bats out of five on the spookiness scale for monster month, so it’s only a little spooky. Further reading: Does the Bunyip Really Haunt the Australian Wetlands? A map and drawing of the original earth carving of a bunyip, from the mid-19th century: An elephant seal can really look like a monster: So can a leopard seal [photo by Greg Barras and taken from this site]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week, as we get closer and closer to Halloween, we’re taking a break from spooky bigfoot monsters. Instead, we’re in the water with some spooky monsters suggested by Henry and Will! This episode is rated two bats out of five on our spookiness scale, so it’s not too scary. We’ll start with Will’s suggestion, the bunyip. We talked about it a long, long time ago in episode 36, so it’s definitely time to revisit it. The bunyip is supposed to be a monster that attacks and eats people who come too near the waterholes or lagoons where it lives. It’s sometimes said to be gray and covered with feathers, or is described as a humongous starfish or snake, or is supposed to be yellow with black stripes, but the earliest reports in English, back in 1812, describe it as looking like a huge black seal. It was supposed to warn people away with a terrifying bellow or roar. By about the 1850s the word bunyip had been adopted into Australian English as a term meaning something like humbug or poser. As early as 1933, at least one non-Aboriginal person suggested that the bunyip was inspired by seals that sometimes come up into rivers. If someone who had never seen or heard of a seal before saw one up close, it would definitely look like a monster. That’s mainly what we talked about in episode 36. An Aboriginal sacred site near Ararat, Victoria once had the outline of a bunyip carved into the ground and the turf removed from within the figure. Every year the local indigenous people would gather to re-carve the figure so it wouldn’t become overgrown, because it symbolized an important event. At that spot, two brothers had been attacked by a bunyip. It killed one of the men and the other speared the bunyip and killed it. When he brought his family and others back to retrieve his brother’s body, they traced around the bunyip’s body. The bunyip carving was 26 feet long, or 8 meters. Unfortunately it’s long gone, since eventually the last Aborigine who was part of the ritual died sometime in the 1850s and the site was fenced off for cattle grazing. But we have a drawing of the geoglyph from 1867. A copy of it is in the show notes. It’s generally taken to be a two-legged sea serpent type monster with a small head and a relatively short, thick tail. Some people think it represents a bird like an emu. But if you turn it around, with the small head being the end of a tail, and the blunt tail being a head, suddenly it makes sense. It’s the shape of a seal. The Southern elephant seal lives around the Antarctic, but is a rare visitor to Australia. It’s also enormous, twice the size of a walrus, six or seven times heavier than a Polar bear. The males can grow over 20 feet long, or over six meters, while females are typically about half that length. The male also has an inflatable proboscis which allows him to make a roaring or grunting sound, although he usually only does this when he’s about to fight another male. This is what it sounds like: [southern elephant seal sound] The leopard seal also lives in the Antarctic Ocean but sometimes it’s found around Australia, especially the western coast. It’s not as big as the elephant seal but it can grow up to 11 ½ feet long, or 3.5 meters, the size of a walrus although it’s not as heavy. It’s an active, streamlined animal with large jaws. Its teeth that lock together to allow it to filter small animals from the water by pushing the water out of its mouth through its teeth and swallowing any tiny food that remains in its mouth. In addition to filter feeding, the leopard seal can kill and eat fish and even large animals like penguins and even other species of seal, including young southern elephant seals. Its only natural predator is the orca. It’s a fast swimmer with large front flippers to help it maneuver. It’s also quite vocal, especially the males, and even though it mostly makes sounds underwater, they’re often loud enough to hear above the water too. This is what a leopard seal sounds like (admittedly it does not sound scary, unless perhaps you are a small fish): [leopard seal sound] Even though the bunyip carving was bigger than the largest known leopard seal or southern elephant seal, it’s possible the carving was enlarged by accident over the years. Then again, maybe there really was a truly enormous seal or other animal that attacked two brothers centuries ago. But the bunyip is much more than this one event. “Bunyip” isn’t even the word that all Aboriginal Austr

It’s another spooky episode (three out of five bats on this year’s spookiness scale), with suggestions from Will and Pranav! Further reading: Tracking the Swamp Monsters Further watching: The Harlan Ford Footage (Honey Island Swamp Monster) A crab-eating macaque: A plaster cast purportedly from the Honey Island Swamp Monster’s footprints [photo from article linked above]: Alligator tracks in the mud [photo from this site]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week as monster month continues, we’ll learn about three more strange bipedal monsters suggested by Will and Pranav. This is another episode that I’ll give three out of five bats for spookiness. We’ve definitely got some spooky monsters this year (also you may be sensing a theme). We’ll start with Will’s suggestion, the yara-ma-yha-who. We talked about it once before back in episode 219, but it’s such a strange monster that it definitely deserves more attention. According to a 1932 book called Myths and Legends of the Australian Aboriginals, the yara-ma-yha-who is a little red goblin creature that stands about four feet tall, or 1.2 meters. It’s skinny all over except for its head and belly, and its mouth is especially big, like a frog’s mouth. It doesn’t have any teeth, but it can open its jaws incredibly wide like a snake, which allows it to swallow its food whole. And what is its food? People! The yara-ma-yha-who was supposed to live in trees, especially the wild fig tree that has thick branches. In the summer when someone would stop under the tree for shade, or in the winter when it was rainy and someone would stop for shelter, the yara-ma-yha-who would drop down and grab the person. The ends of the yara-ma-yha-who’s fingers were said to be cup-shaped suckers, and when the suckers fastened onto a person’s arm, they were able to suck blood right through the person’s skin. After the person became weak from blood loss and fainted, the yara-ma-yha-who was able to swallow them whole. After that, the yara-ma-yha-who would drink a lot of water and fall asleep, and when it woke up it would vomit up its meal. If the person was still alive, they were supposed to lie still and pretend to be dead even while the yara-ma-yha-who poked at them to see if they responded. If the person moved, the yara-ma-yha-who would swallow them again and the whole thing would start over. But every time a person was swallowed by the little red goblin, when they were vomited up again they were shorter and redder, until after three or four times if they couldn’t get away, the person was transformed into another yara-ma-yha-who. Some cryptozoologists speculate that the yara-ma-yha-who may be based on the tarsier, which is the subject of episode 219 and why we talked about this particular monster in that episode. The tarsier has never lived in Australia, although it does live in relatively nearby islands. Most tarsier species have toe pads that help them cling to branches, but so do many frogs that do live in Australia. It’s much more likely that the legend of the yara-ma-yha-who was inspired by frogs, snakes, monitor lizards, and other Australian animals. More importantly, the monster was used as a cautionary tale to warn children not to go off by themselves into the bush. Unfortunately, the only information about the yara-ma-yha-who comes from this 1932 book. We don’t know which Aboriginal peoples this story was collected from, and we don’t know how much it was changed in translation to English. It’s still a fun story, though. Next, we’ll talk about Pranav’s suggestions. Last week we talked about the monkey-man of New Delhi, and one of the monsters we’ll cover today is also a monkey-man from Asia, this time from Singapore. It’s the Bukit Timah Monkey-Man, said to mainly live in the Bukit Timah rainforest nature reserve but occasionally seen in the city surrounding the nature reserve. The Bukit Timah Monkey-Man is supposed to look like a monkey the size of a human. It walks like a human on two legs and otherwise looks like a person, but is covered in gray hair and has a monkey-like face. It’s only ever seen at night and although people are scared when they see it, the monster has never attacked anyone and doesn’t seem to be interested in people at all. The oldest report possibly dates back to 1805, or to the 1940s according to other accounts, but sightings are rare. One very common monkey that lives in Bukit Timah is the crab-eating macaque, also called the long-tailed macaque and I bet you can guess why. Its tail is longer than its body, although its arms and legs are shorter than in most monkeys. It mostly lives on the ground and eats pretty much anything, although most of its diet is fruit and other plant materials. It does sometimes eat crabs, and is good at swimming and diving to find them, but it also eats bird eggs and nestlings, lizards, frogs, insects, and other small animals. It even has a cheek pouch where it

Thanks to Pranav for suggesting one of the monsters we’re talking about this week! This episode is rated three out of five bats on our spookiness scale. Further reading: The Return of Spring-Heeled Jack Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. As monster month continues, this week we have a really spooky episode on a topic Pranav suggested a long time ago. I’m rating it three out of five bats, meaning that if you’re one of our younger listeners, you might want to skip this one or make sure to listen to it in the daytime with your favorite grown-ups around you. It’s about the monkey-man of New Delhi, but we’re also going to talk about one of my favorite monsters too as part of it. In May of 2001, several families made a strange complaint to the police in the city of Ghaziabad in India, near the capital city of New Delhi. A masked man had sneaked into their homes and pushed and scratched people before running away into the darkness. No one was badly injured, but they were definitely scared. Then other people started reporting something similar in parts of East Delhi. People were left with scratches and bruises caused by a masked man, according to some witnesses. But others said they were attacked by a monkey. As the reports flooded in over the next few days, the reports got stranger and stranger. The attacker was said to be a man with a monkey-like face, a big monkey wearing skin-tight clothes and a helmet, a creature with black fur and glowing cat eyes, even a robot with metal claws. It could reportedly jump incredibly high and even disappear. No one could agree on what the attacker looked like, but before long everyone was jumpy and ready to run if they even thought the strange creature was nearby. This sadly led to at least two people dying on different occasions when they panicked and tripped down stairs. The police tried their best to find the culprit, but it was always gone before they arrived. Meanwhile, the news media exaggerated the reports and whipped people into a frenzy of fear. But despite all the sightings, no one ever got even a blurry photo of the so-called monkey-man. When the police questioned people who were supposedly attacked, most of them admitted that they hadn’t really seen anything. Often they only felt the presence of the monkey-man, and later noticed bruises or scratches that might have been caused by ordinary events during the day. Weird as all this sounds, it isn’t the first time such a strange situation has happened in a big city. In 1837, in London, England, a very similar creature caused a very similar panic. The main difference is that instead of a monkey-man, the London monster was more like a devil, sometimes said to have horns and bat wings. He was called spring-heeled Jack. Spring-heeled Jack got his nickname because he was supposed to be able to jump incredibly high, as though he had springs in his boots. Some reports said the creature had claws, possibly metal ones, that he could shoot sparks or blue fire from his mouth, that he had glowing red eyes, and that his hands felt cold and clammy like a corpse. Some people even referred to him as a ghost. The monster was supposed to have attacked young women in particular, scratching them with his claws. In the most famous case, a teenaged girl named Jane Alsop was at home in February 1838 when someone knocked on the door and shouted that he was a police officer who had caught spring-heeled Jack! The officer asked for a light, since it was a dark evening, but when Jane brought a candle outside, instead of meeting a valiant police officer who had caught a monster, she only encountered the monster himself. Spring-heeled Jack grabbed her by the neck! With the help of her sisters, who heard her screams, Jane was able to tear herself away from the monster with only some scratches on her arms and neck. Spring-heeled Jack bounded away into the night. Another encounter only nine days later happened to eighteen-year-old Lucy Scales, who was returning home with her sister in the evening. As they passed an alley, a man wearing a large black cloak jumped out at Lucy, spat blue flame into her face, and hurried away when she collapsed in shock. As in India over 150 years later, the newspapers printed sensationalized reports of the attacks that made things even worse. The police arrested various men at different times, but there was no evidence that any of them had attacked the women or had dressed up as spring-heeled Jack. The scratches and bruises reported by victims weren’t actually that bad, and might have been caused by anything. In the end, the reports gradually stopped, although there was a brief revival of reports in the 1870s, over 30 years later. So what’s going on here? Could spring-heeled Jack and the monkey-man of New Delhi be reports of the same creature or entity, with details differing between the two monsters because of the cultural differences of people reporting those details? Whe

Thanks to Anbo for suggesting Australopithecus! We’ll also learn about Gigantopithecus and Bigfoot! Further reading: Ancient human relative, Australopithecus sediba, ‘walked like a human, but climbed like an ape’ Human shoulders and elbows first evolved as brakes for climbing apes You Won’t Believe What Porcupines Eat Past tropical forest changes drove megafauna and hominin extinctions An Australopithecus skeleton [photo by Emőke Dénes – kindly granted by the author, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=78612761]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s officially monster month, also known as October, so let’s jump right in with a topic suggested by Anbo! Anbo wanted to learn about Australopithecus, and while we’re at it we’re going to talk about Gigantopithecus and Bigfoot. On our spookiness rating scale of one to five bats, where one bat means it’s not a very spooky episode and five bats means it’s really spooky, this one is going to fall at about two bats, and only because we talk a little bit about the Yeti and Bigfoot at the end. In 1924 in South Africa, the partial skull of a young primate was discovered. Primates include monkeys and apes along with humans, our very own family tree. This particular fossil was over a million years old and had features that suggested it was an early human ancestor, or otherwise very closely related to humans. The fossil was named Australopithecus, which means “southern ape.” Since 1924 we’ve discovered more remains, enough that currently, seven species of Australopithecus are recognized. The oldest dates to a bit over 4 million years old and was discovered in eastern Africa. Australopithecus was probably pretty short compared to most modern humans, although they were probably about the size of modern chimpanzees. A big male might have stood about 4 ½ feet tall, or 1.5 meters. They were bipedal, meaning they would have stood and walked upright all the time. That’s the biggest hint that they were closely related to humans. Other great apes can walk upright if they want, but only humans and our closest ancestors are fully bipedal. In 2008 a palaeoanthropologist named Lee Rogers Berger took his nine-year-old son Matthew to Malapa Cave in South Africa. Dr. Berger was leading an excavation of the cave and Matthew wanted to see it. While he was there, Matthew noticed something that even his father had overlooked. It turned out to be a collarbone belonging to an Australopithecus boy who lived almost 2 million years ago. Later, Dr Berger’s team uncovered more of the skeleton and determined that the remains belonged to a new species of Australopithecus, which they named Australopithecus sediba. More remains of this species were discovered later, including a beautifully preserved lower back. That discovery was important because it allowed scientists to determine that this species of Australopithecus had already evolved the inward curve in the lower back that humans still have, which helps us walk on two legs more easily. That was a surprise, since A. sediba also still shows features that indicate they could still climb trees like a great ape. It’s possible that Australopithecus, along with other species of early humans, climbed trees at night to stay safe from predators. In the morning, they climbed down to spend the day mostly on the ground. One study published only a few weeks ago as this episode goes live suggests that the flexible shoulders and elbows that humans share with our great ape cousins originally evolved to help apes climb down from trees safely. Monkeys don’t share our flexible shoulder and elbow joints because they’re much lighter weight than a human or ape, and don’t need as much flexibility to keep from falling while climbing down. Apes and hominins like humans can raise our arms straight up over our heads, and we can straighten our arms out completely flat. Australopithecus could do the same. The study suggests that when another human ancestor, Homo erectus, figured out how to use fire, they stopped needing to climb trees so often. They evolved broader shoulders that allowed them to throw spears and other weapons much more accurately. Australopithecus probably mostly ate fruit and other plant materials like vegetables and nuts, along with small animals that they could catch fairly easily. This is similar to the diet of many great apes today. The big controversy, though, is whether Australopithecus made and used tools. Their hands would have been more like the hands of a bonobo or chimpanzee, which have a lot of dexterity, but not the really high-level dexterity of modern humans and our closest ancestors. Stone tools have been found in the same areas where Australopithecus fossils have been found, but we don’t have any definitive proof that they made or used the tools. There were other early hominins living in the area who might have made the tools instead. We also

Thanks to Max for suggesting one of our slightly spooky amphibians this week! Further reading: New crocodile newt discovered in Vietnam Further watching: Brave Wilderness Giant Screaming Frog! The new Halloween-y crocodile newt discovered in Vietnam [photo by Phung My Trung and taken from the article linked above]: A smoky jungle frog: A screenshot from the video linked above: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s the end of September and you know what that means: we’re about to start Monster Month! This year I have so many awesome ideas for episodes that we’re starting monster month early, with a non-spooky episode about two sort of spooky-looking amphibians. Thanks to Max for suggesting one of the animals we’re about to talk about! Instead of rating the monster month episodes on a spookiness scale from one to five ghosts, this year we’re rating them on a spookiness scale of one to five bats, which seems more appropriate. This episode is only one bat, meaning even our younger listeners shouldn’t find it scary. But first, a quick correction. Thanks very much to Mary for catching a mistake I made in last week’s rhinoceros episode. I said that black rhinos can weigh 18 kilograms, when I should have said 1800 kilograms. 18 kg is about 40 pounds, so I think you can agree that I made a BIG mistake. Now, on to the “spooky” amphibians. Lots of amphibians live in southeast Asia, many of them never seen by scientists. In 2018, a team of scientists were studying crocodile newts in Vietnam when they discovered one that didn’t look like any of the many other crocodile newts that live in Asia. Since there are over 30 species known, with new ones being discovered all the time, including seven others from Vietnam alone, they suspected this might be a species new to science. The new newt lives in high elevations in the central highlands in Vietnam, much farther south and in much higher elevations than the other known crocodile newt species. After the initial finding in 2018, the lead scientist, an amphibian and reptile expert named Phung My Trung (apologies because I probably pronounced his name wrong) spent four years searching for more specimens and learning about them before he described it as a new species. One thing I love is that he was quoted as saying that the adult newts “were so beautiful that I was shaking and could hardly believe I was holding a live specimen in my hand.” And it is absolutely a gorgeous animal. It’s black with orangey-red markings on its back, lovely Halloween colors, and in fact the markings sort of look like the skull, backbone, and ribs of a cartoon skeleton. Females are bigger than males, and a big female can grow as much as 3 inches long, or 7.5 cm, from snout to vent, not counting its tail that’s almost as long as its body. That’s pretty much all we know so far about this newt. Because it appears to have such a restricted range, it’s most likely endangered due to habitat loss and climate change, but now that we know it’s there, scientists and conservationists can work to keep it and its habitat safe. Our other amphibian this week is one suggested by Max. Max, by the way, is an incredible artist who specializes in making reptiles and amphibians out of clay. Max asked specifically about the giant screaming frog, which definitely sounds like a Halloween-themed animal. The giant screaming frog isn’t the actual name of the frog, or at least I couldn’t find a frog with that specific name. I think it’s from an awesome video posted in 2017. I’ll put a link in the show notes if you want to watch the video, which is a YouTube channel called Brave Wilderness. In the video, a man called Coyote Peterson catches a giant frog called the Smoky Jungle Frog. When he does, the frog makes this sound: [screaming frog!] That doesn’t actually sound all that spooky. But it is a warning call so I bet other smoky jungle frogs think it’s terrifying! The smoky jungle frog lives in tropical and subtropical areas of Central and northern South America, where it lives in swamps, ponds, and even rivers, especially in rainforest environments. It’s a bit unusual in that males are larger than females, although only slightly. Both males and females grow about 7 inches long from snout to vent, or 18 cm, and are a mottled brown with darker spots and stripes that help them blend in with dead leaves on the forest floor. The smoky jungle frog is nocturnal, and during the day it stays hidden in a burrow or buries itself in fallen leaves. At night it comes out to find food, and because it’s such a big, strong frog, it eats animals much larger than insects. It’s been observed eating small birds, especially baby birds, bats, snakes up to 19 inches long, or 50 cm, lizards, and sometimes even other frogs, including poison dart frogs. How embarrassing would that be if you were a bat, with strong wings and the amazing ability to echolocate, and you got eaten by a frog. When a frog feels threa

Thanks to Mia for suggesting the black rhino this week! We’ll also learn about other rhinos and their relations, including a mystery rhino. Further reading: Photos suggest rhino horns have shrunk over past century The Blue Rhinoceros – In Quest of the Keitloa A rhino with a very small third horn: Some rhinos have really big second horns [photo by David Clode and taken from this site]: The “blue rhinoceros,” or keitloa, as illustrated in the mid-19th century: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to talk about an animal I can’t believe we haven’t covered before. Thanks to Mia for suggesting the rhinoceros, specifically the black rhino! We’ll also learn about a mystery rhino. We’ve talked about elephants lots of times, hippos quite a few times, and giraffes a couple of times, but pretty much the only episodes where we discussed a rhinoceros were 5 and 256. Episode 256 was mostly about mammoths, although we talked very briefly about the woolly rhinoceros, while episode 5 was about the unicorn and didn’t actually specifically talk about the rhino. So after almost 350 episodes of this podcast, one of the most amazing animals alive is one we literally haven’t learned about! Let’s fix that now. Most people are pretty familiar with what a rhinoceros looks like. Basically, it’s a big, heavy animal with relatively short legs, a big head that it carries low to the ground like a bison, and at least one horn that grows on its nose. It’s usually gray or gray-brown in color with very little hair, and its skin is tough. It eats plants. The rhinoceros isn’t related to the elephant or the hippopotamus. It’s actually most closely related to the horse and the tapir, which are odd-toed ungulates. The rhino has three toes on each foot, with a little hoof-like nail covering the front of each toe, but the bottom of the rhino’s foot is a big pad similar to the bottom of an elephant’s foot. The rhino’s nose horn isn’t technically a horn because it doesn’t have a bony core. It’s made of long fibers of keratin all stuck together, and keratin is the same protein that forms fingernails and hair. That makes it even weirder that some people think a rhinoceros horn is medicine. It’s literally the same protein as fingernails, and no one thinks of fingernails are medicine. The use of rhinoceros horn as medicine isn’t even all that old. Ancient people didn’t think it was medicine, but some modern people do, and they’ll pay a whole lot of money for part of a rhino horn to grind up and eat. Seriously, they might as well be eating ground-up fingernails. (That’s gross.) Because rhino horns are so valuable, people will kill rhinos just to saw their horns off to sell. That’s the main reason why most species of rhino are so critically endangered, even though they’re protected animals. Sometimes conservationists will sedate a wild rhino and saw its horn off, so that poachers won’t bother to kill it. A 2022 study determined that the overall size of rhino horns has shrunk over the last century, probably for the same reason that many elephants now have overall smaller tusks. Poachers are more likely to kill animals with big horns, which means animals with smaller horns are more likely to survive long enough to breed. The species of rhinoceros alive today are native to Africa and Asia, but it used to be an animal found throughout Eurasia and North America. It’s one of the biggest animals alive today, but in the past, some rhinos were even bigger. We’ve talked about Elasmotherium before, which lived in parts of Eurasia as recently as 39,000 years ago. It had long legs and could probably gallop like a horse, but it was the size of a mammoth. It also probably had a single horn that grew in the middle of its forehead, which is why it’s sometimes called the Siberian unicorn. We’ve also talked about Paraceratherium before. It was one of the biggest land mammals that ever lived, and while it didn’t have a horn, it was a type of rhinoceros. It lived in Eurasia between about 34 and 23 million years ago, and it probably stood about 16 feet tall at the shoulder, or 5 meters. The tallest giraffe ever measured was 19 feet tall, or 5.88 meters, at the top of its head. Paraceratherium had a long neck, possibly as much as eight feet long, or 2.5 meters, but it would have held its neck more or less horizontal most of the time. It spent its time eating leaves off of trees that most animals couldn’t reach, and when it raised its head to grab a particularly tasty leaf, it was definitely taller than the tallest giraffe, and taller than any other mammal known. While rhinos are famous for their horns, not every rhinoceros ancestor had a horn. But because rhino horns are made of keratin and not bone, we don’t always know if an extinct species had a horn. Most of the time the horns rotted away without being preserved. We do know that some ancient rhinos had a pair of nose horns that grew side

This week let’s learn about some astonishing giraffes and zebras that don’t look like you’d expect! Further reading: See the Rare, Spotless Giraffe Born at a Tennessee Zoo Giraffe Conservation Foundation Brights Zoo A tale of two zebras: South African photos used in misleading posts about Kenya’s polka-dot foal Zebra News: Spotted Tira, Zonkeys and Zorses Further viewing: The Mysterious Return of Tira the Spotted Dark Zebra in Masai Mara Kipekee the spotless giraffe [pic is from the first link posted above]: The picture posted on Facebook by Giraffe Conservation Foundation on Sept. 10, 2023: Tira the spotted zebra as a baby in 2019: Tira the spotted zebra is getting so grown up (or was in 2021)! A DIFFERENT spotted zebra from South Africa: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. I’m back from Dragon Con, where I had a great time as usual! I was careful and wore a mask while I was around other people, but masking works best when everyone wears a mask, which as we all know doesn’t happen very often right now. Luckily I didn’t get covid, but I did come down with an ordinary cold. I’m just about over it now, though, so hopefully I don’t sound too bad. I live in Tennessee, and before I left for Dragon Con I kept seeing news reports about an unusual baby giraffe born in a Tennessee zoo. You may have heard about the giraffe calf too. As you probably know, giraffes have an elaborate pattern of markings called spots, although they’re not spots like a leopard’s spots. They look a lot like the cracks in a dried-up mudpuddle, where the muddy parts are dark brown or orangey-brown, and the cracks in between are tan or white. It’s sometimes called a web pattern, where the lighter design looks like a web overlaid on a darker coat. Whatever you call it, all giraffes have these markings. But on July 31, 2023, a calf was born that didn’t have any spots at all. She’s completely brown. Also, very beautiful and cute as a little button. The calf was born at Brights Zoo, which is near a community called Limestone in Tennessee. I’d never heard of the zoo, so I assumed it was in middle or west Tennessee, and I live in east Tennessee. But when I looked it up, it’s actually quite close to me. I will definitely be visiting as soon as I get a chance! (Its website says Google Maps has its address wrong, by the way, in case you plan to visit it too.) It’s a private zoo dedicated to education and conservation, and among the animals they care for are giraffes. The calf in question is an endangered reticulated giraffe. Conservationists estimate that fewer than 9,000 reticulated giraffes remain in the wild these days, but it does well in captivity and is a popular animal in zoos. The reticulated giraffe was once common throughout northeast Africa, although its range is fractured into little areas now. It’s happy in a number of habitats, including rainforests and savannas. The zoo came up with four name choices for their calf and invited people to vote for which name they liked best. The winning name was announced just a few days ago as this episode goes live, Kipekee. It means “unique” in Swahili, the official language of Kenya. Kipekee is healthy and active, and the zoo reports she was immediately accepted by her mother and all the other giraffes as just a regular baby. I guess giraffes understand that what you look like isn’t nearly as important as how you act, and Kipekee acts like a curious little baby giraffe. In a lot of news reports, you’ll hear that Kipekee is the only unspotted giraffe seen since 1972, when one was born in a zoo in Japan, and that she’s likely the only unspotted giraffe alive in the entire world right now. But then, only a matter of hours before this episode goes live, because I took forever to start working on it, the Giraffe Conservation Foundation dropped a post on their Facebook page. It has a photo of a giraffe mama and baby running along in the wild in Namibia in Africa. And the baby giraffe HAS NO SPOTS! As of right now, that’s all we know about the other spotless giraffe calf, but I’ll definitely keep you posted in future episodes. Speaking of updates, reading about the giraffe without spots reminded me of an episode we released at the end of 2019, about Tira the zebra. Instead of stripes like ordinary zebras, Tira had spots! Tira was first observed by a tour guide in Kenya in September of 2019. The guide’s name is Antony Tira and the foal was named after him. Little Tira was just a baby back then, living with her herd on a national reserve. But then, according to internet rumor, something awful happened. Little Tira and her mom were captured, put on a truck to smuggle them out of the reserve, and sold to a private collector! There were even pictures of the pair in a truck. And sure enough, Tira was nowhere to be found in the wild. But things aren’t always what they seem, especially on the internet. Because amazingly, just like little Kipekee bein

Thanks to Clay for suggesting this week’s topic, psittacosaurus! Thanks to Will for a correction about kangaroos too. Don’t forget to check out the great podcast I Know Dino for all the best big dinosaur info! Further reading: What dinosaurs’ colour patterns say about their habitat Unusual fossil shows rare evidence of a mammal attacking a dinosaur A countershaded psittacosaurus model [photo by Jakob Vinther, from first article linked above]: Repenomamus and psittacosaurus, fighting forever [photo from second article linked above]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to look at a dinosaur suggested by Clay, who has been very patient waiting for this one. In a huge coincidence, the podcast I Know Dino is trading promos with us, so if you haven’t heard about I Know Dino yet, make sure to listen until the very end of this episode for some more information about it. It’s a great podcast that I love to pieces, and I think you’ll love it too. We also have a quick correction, and I feel really bad because this one should have gone in the updates episode last month. Will emailed me back in April to point out that in episode 73, about phantom kangaroos, I said that kangaroos and wallabies were native to Australia, New Zealand, and New Guinea. In fact, they’re not native to New Zealand, although they’ve been introduced there. So yikes, that was a big oversight on my part, and thanks very much to Will! Now, on to Clay’s suggestion, psittacosaurus! Psittacosaurus was a type of ceratopsian that lived during the early Cretaceous, between about 125 and 100 million years ago. We’ve talked about ceratopsians before back in episode 125, so if you remember that episode you’ll know that ceratopsians were big herbivorous dinosaurs famous for their head frills and horns. Triceratops is the most famous example, although it had lots of relations. But Psittacosaurus was a very early ceratopsian, and it’s nothing like Triceratops. If you had a time machine and went back to look at Psittacosaurus, you might not even think it was related to Triceratops at all. It didn’t have real horns or frills, most species were only about six and a half feet long at most, or two meters, but most importantly, it walked on its hind legs. We have hundreds of Psittacosaurus fossils, so we know quite a bit about it. Young individuals apparently walked on all four legs, but as it grew up, Psittacosaurus became bipedal. It still ate plants, though, and may have specialized in eating seeds and other tough plant materials. It couldn’t chew its food the way later ceratopsians could, but it did swallow little stones to help it grind up hard plant parts. These gastroliths have been found preserved with Psittacosaurus fossils. Psittacosaurus lived in what is now Asia, especially eastern and central Asia, and probably spent most of its time in forested areas. Because it lived only in the early Cretaceous, and because it was such a common animal with so many fossils found, if a paleontologist finds a Psittacosaurus fossil at a dig site, they can be pretty confident that the site dates to the early Cretaceous. Paleontologists have identified about twelve species of Psittacosaurus so far, although there’s still debate about the actual number of species, and at least some of them had feathers. We know because we have some well-preserved fossils with feather and skin impressions. Psittacosaurus wasn’t completely covered with feathers, though. Its feathers were bristle-like and have only been found sticking up along the top of the tail. Scientists think they were probably used for display. That means they were probably brightly colored, so if you go back in that time machine I mentioned earlier, please make sure to take lots of pictures. In fact, Clay said that Psittacosaurus looks like it’s “half parrot, half porcupine and half dinosaur” (that is actually one and a half animals, Clay, but we know what you mean and that actually is a really good description of it). Psittacosaurus’s bristles stuck up kind of like porcupine quills, although they weren’t sharp. Careful study of the quills shows that they were probably more like highly modified scales instead of feathers like you’d find on a modern bird, and that they grew around 6 inches long, or 15 cm. Some modern birds do actually have bristles like this, including the turkey. Most male turkeys, and some females, have a bundle of hair-like bristles on the breast that’s called a beard. Psittacosaurus’s name means “parrot lizard” because of the shape of its beak, which may have helped it crack seeds and nuts. Its head kind of resembled that of a turtle, although unlike a turtle it also had teeth. Its head was broad with cheekbones that jutted out sideways, sometimes so far that it looked like it had horns on the sides of its face just above the jaw. At least one species had prominances behind the eye that again, kind of look like little horns bu

This week we finish out Invertebrate August with some mysterious jellyfish, including a suggestion by Siya! Further reading: Mystery giant jellyfish washes up in Australia New jellyfish named after curious Australian schoolboy Mysterious jellyfish found off the coast of Papua New Guinea intrigues researchers Newly discovered jellyfish is a 24-eyed weirdo related to the world’s most venomous marine creature Rare jellyfish with three tentacles spotted in Pacific Ocean The Immortal Jellyfish A mystery jellyfish washed up on an Australian beach [photo by Josie Lim]: The tiny box jellyfish found in a pond in Hong Kong: The very rare Chirodectes: The mystery jelly that may be Chirodectes or a close relation: A mystery deep-sea jelly with only three tentacles: Bathykorus, a possible relation of the three-tentacled mystery jelly: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s hard to believe Invertebrate August is already ending, so let’s finish the month out with some mystery jellyfish, including a recent suggestion from Siya! When you visit the beach, it’s pretty common to find jellyfish washed ashore. They’re usually pretty small and obviously you don’t want to touch them, because many jellies can sting and the stings can activate even if the jelly is dead. Well, in February 2014, a family visiting the beach in Tasmania found a jelly washed ashore that was a little bit larger than normal. Okay, a lot larger than normal. The jellyfish they found measured almost five feet across, or 1.5 meters. It had flattened out under its own weight but it was still impressive. The family was so surprised at how big it was that they sent pictures to the state’s wildlife organization, who sent scientists to look at it. The scientists had heard reports of a big pink and white jellyfish for years, and now they had one to examine. Dr. Lisa-ann Gershwin thought it might even be a new species of lion’s mane jelly. New species of jellyfish are discovered all the time. Dr. Gershwin has described over 200 new species herself. One example is a jellyfish discovered by a nine-year-old. In 2013, a nine-year-old boy in Queensland, Australia was fishing in a canal with his dad and a friend, when he noticed a jellyfish and scooped it up with a net. Its bell was only about an inch long, or 2.5 cm, and the boy thought it was really cute and interesting. He wanted to know what kind of jellyfish it was, so after some pestering on his part, his dad helped him send it to the Queensland Museum for identification. Dr. Gershwin was the jellyfish expert at the museum at the time, and she was as surprised as the boy’s dad to discover that the jellyfish was new to science! The boy’s name was Saxon Thomas, and to thank him for being so persistent about getting his jellyfish looked at by a scientist, the jellyfish was named Chiropsella saxoni. It’s a type of box jellyfish, which can be deadly, but this one is so small that it’s probably not that dangerous to humans. You still wouldn’t want to be stung by one, though, I bet. In 2022, a diver visiting Papua New Guinea got video of several really pretty jellyfish. He sent the video to Dr. Gershwin, who realized the jelly was either a very rare jelly called Chirodectes, or it was new to science. Chirodectes was only discovered in 1997 and described in 2005. It’s a type of box jellyfish and only one specimen has ever been collected, caught off the coast of Queensland, Australia near the Great Barrier Reef after a cyclone. Its bell was about 6 inches long, or 15 cm, but if you include the tentacles it was almost 4 feet long, or 1.2 meters. It’s pale in color with darker rings and speckles on its bell. The 2022 video appears to show a jellyfish without speckles or other markings, and it’s also larger than the single known Chirodectes specimen. Its bell appears to be about the size of a soccer ball, or a football if you live in most of the world. However, Dr. Gershwin and other experts who have studied the video say that it’s similar in many ways to Chirodectes and may be a close relation. Since all we have is the video, there’s no way to tell for sure if it’s a species new to science. Most box jellies live around Australia and New Guinea, but in 2020 scientists in Hong Kong studying organisms living in an intertidal shrimp pond noticed a jellyfish they didn’t recognize. It was tiny, even smaller than Saxon’s little box jelly, with a bell barely half an inch long, or about 15 mm. There were hundreds of the little jellies in the pond, which connects to the ocean with a narrow tidal channel, and they appeared to be eating the tiny shrimp living in the pond. Close study of the jelly determined that it was indeed a new species. The box jelly gets its name from its bell shape, which is shaped sort of like a cube. Most species are transparent to some degree, with tentacles that hang down from the corners of its cube-shaped bell. Most box jellies are fast swimmers, able to use jet prop

Thanks to Tobey and Anbo for their suggestions this week! We’re going to learn about some giant invertebrates! Further reading: The Invasive Giant African Land Snail Has Been Spotted in Florida A very big shell: The giant African snail is pretty darn giant [photo from article linked above]: The largest giant spider crab ever measured, and a person: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about some giant invertebrates, suggested by Tobey and Anbo. Maybe they’re not as big as dinosaurs or whales, but they’re surprisingly big compared to most invertebrates. Let’s start with Tobey’s suggestion, about a big gastropod. Gastropods include slugs and snails, and while Tobey suggested the African trumpet snail specifically, I couldn’t figure out which species of snail it is. But it did lead me to learning a lot about some really big snails. The very biggest snail known to be alive today is called the Australian trumpet snail, Syrinx aruanus. This isn’t the kind of snail you’d find in your garden, though. It’s a sea snail that lives in shallow water off the coast of northern Australia, around Papua New Guinea, and other nearby areas. It has a coiled shell that’s referred to as spindle-shaped, because the coils form a point like the spindle of a tower. It’s a pretty common shape for sea snails and you’ve undoubtedly seen this kind of seashell before if you’ve spent any time on the beach. But unless you live in the places where the Australian trumpet lives, you probably haven’t seen a seashell this size. The Australian trumpet’s shell can grow up to three feet long, or 91 cm. Not only is this a huge shell, the snail itself is really heavy. It can weigh as much as 31 lbs, or 14 kg, which is as heavy as a good-sized dog. The snail eats worms, but not just any old worms. If you remember episode 289, you might remember that Australia is home to the giant beach worm, a polychaete worm that burrows in the sand between high and low tide marks. It can grow as much as 8 feet long, or 2.4 meters, and probably longer. Well, that’s the type of worm the Australian trumpet likes to eat, along with other worms. The snail extends a proboscis into the worm’s burrow to reach the worm, but although I’ve tried to find out how it actually captures the worm in order to eat it, this seems to be a mystery. Like other gastropods, the Australian trumpet eats by scraping pieces of food into its mouth using a radula. That’s a tongue-like structure studded with tiny sharp teeth, and the Australian trumpet has a formidable radula. Some other sea snails, especially cone snails, are able to paralyze or outright kill prey by injecting it with venom via a proboscis, so it’s possible the Australian trumpet does too. The Australian trumpet is related to cone snails, although not very closely. Obviously, we know very little about the Australian trumpet, even though it’s not hard to find. The trouble is that its an edible snail to humans and humans also really like those big shells and will pay a lot for them. In some areas people have hunted the snail to extinction, but we don’t even know how common it is overall to know if it’s endangered or not. Tobey may have been referring to the giant African snail, which is probably the largest living land snail known. There are several snails that share the name “giant African snail,” and they’re all big, but the biggest is Lissachatina fulica. It can grow more than 8 inches long, or 20 cm, and its conical shell is usually brown and white with pretty banding in some of the whorls. It looks more like the shell of a sea snail than a land snail, but the shell is incredibly tough. The giant African snail is an invasive species in many areas. Not only will it eat plants down to nothing, it will also eat stucco and concrete for the minerals they contain. It even eats sand, cardboard, certain rocks, bones, and sometimes other African giant snails, presumably when it runs out of trees and houses to eat. It can spread diseases to plants, animals, and humans, which is a problem since it’s also edible. Like many snails, the African giant snail is a simultaneous hermaphrodite, meaning it can produce both sperm and eggs. It can’t self-fertilize its own eggs, but after mating a snail can keep any unused sperm alive in its body for up to two years, using it to fertilize eggs during that whole time, and it can lay up to 200 eggs five or six times a year. In other words, it only takes a single snail to produce a wasteland of invasive snails in a very short amount of time. In June 2023, some African giant snails were found near Miami, Florida and officials placed the whole area under agricultural quarantine. That means no one can move any soil or plants out of the area without permission, since that could cause the snails to spread to other places. Meanwhile, officials are working to eradicate the snails. Other parts of Florida are also under the same quaran

Thanks to Murilo and an anonymous listener for their suggestions this week! Further reading: The ‘sheep’ that can photosynthesize Meet the ‘mold pigs,’ a new group of invertebrates from 30 million years ago A leaf sheep: Shaun the sheep: A mold pig: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week let’s learn about two animals that sound like you’d find them on a farm, but they’re much different than their names imply. Thanks to Murilo for suggesting the leaf sheep, which is where we’ll start. The leaf sheep isn’t a sheep or a leaf. It’s actually a type of sea slug that lives in tropical waters near Japan and throughout much of coastal south Asia. The reason it’s called a leaf sheep is because it actually looks a lot like a tiny cartoon sheep covered with green leaves instead of wool. Back in episode 215 we talked about the sea bunny, which is another type of sea slug although it’s not closely related to the leaf sheep. The leaf sheep is even smaller than the sea bunny, which can grow up to an inch long, or about 25 mm. The leaf sheep only grows about 10 mm long at most, which explains why it wasn’t discovered until 1993. No one noticed it. The leaf sheep’s face is white or pale yellow with two tiny black dots for eyes set close together, which kind of makes it look like Shaun the Sheep. It also has two black-tipped protuberances that look like ears, although they’re actually chemoreceptors called rhinophores. The rest of its body is covered with leaf-shaped spines called cerata, which are green and often tipped with pink, white, or black. This helps disguise it as a plant, but there’s another reason why it’s green. The leaf sheep eats a particular kind of algae called Avrainvillea, which looks like moss or fuzzy carpet. While algae aren’t exactly plants or animals, many do photosynthesize like plants. In other words, they transform sunlight into energy to keep them alive. In order to photosynthesize, a plant or algae uses a special pigment called chlorophyll that makes up part of a chloroplast in its cells, which happens to be green. The leaf sheep eats the algae, but it doesn’t digest the chloroplasts. Instead, it absorbs them into its own body and uses them for photosynthesis. That way it gets nutrients from eating and digesting algae and it gets extra energy from sunlight. This is a trait shared by other sea slugs in the superorder Sacoglossa. Because they need sunlight for photosynthesis, they live in shallow water, often near coral reefs. When the leaf sheep’s eggs hatch, the larvae have shells, but as they mature they shed their shells. This is a good place to talk about cyanobacteria, which was requested ages ago by an anonymous listener. Cyanobacteria mostly live in water and are also called blue-green algae, even though they’re not actually classified as algae. They’re considered bacteria, although not every scientist agrees. Some are unicellular, meaning they just consist of one cell, while others are multicellular like plants and animals, which means they have multiple cells specialized for different functions. Some other cyanobacteria group together in colonies. So basically, cyanobacteria looked at the chart of possible life forms and said, “yes, thanks, we’ll take some of everything.” That’s why it’s so hard to classify them. Cyanobacteria photosynthesize, and they’ve been doing so for far longer than plants–possibly as much as 2.7 billion years, although scientists think cyanobacteria originally evolved around 3.5 billion years ago. The earth is about 4.5 billion years old and plants didn’t evolve until about 700 million years ago. Like most plants also do, cyanobacteria produce oxygen as part of the photosynthetic process, and when they started doing so around 2.7 billion years ago, they changed the entire world. Before then, earth’s atmosphere hardly contained any oxygen. If you had a time machine and went back to more than two billion years ago, and you forgot to bring an oxygen tank, you’d instantly suffocate trying to breathe the air. But back then, even though animals and plants didn’t yet exist, the world contained a whole lot of microbial life, and none of it wanted anything to do with oxygen. Oxygen was toxic to the lifeforms that lived then, but cyanobacteria just kept producing it. Cyanobacteria are tiny, but there were a lot of them. Over the course of about 700 million years, the oxygen added up until other lifeforms started to go extinct, poisoned by all that oxygen in the oceans and air. By two billion years ago, pretty much every lifeform that couldn’t evolve to use or at least tolerate oxygen had gone extinct. So take a deep breath of life-giving oxygen and thank cyanobacteria, which by the way are still around and still producing oxygen. However, they’re still up to their old tricks because they also produce what are called cyanotoxins, which can be deadly. That brings us to another animal in our imaginary farm, the mold pig. It

Thanks to Eilee for suggesting the sea louse this week! Further reading: Secrets of the Whale Riders: Crablike ‘Whale Lice’ Show How Endangered Cetaceans Evolved Parasite of the Day: Neocyamus physeteris A whale louse [By © Hans Hillewaert, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=19259257]: The salmon sea louse [By Thomas Bjørkan – Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=7524020]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s now officially August, so we’re officially kicking off Invertebrate August with two invertebrates with the word louse in their names, even though neither of them are technically lice. Thanks to Eilee for suggesting sea lice, and thanks to our patrons because I used some information from an old Patreon episode for the first part of this episode. That would be the whale louse. The whale louse isn’t actually a louse, although it is a parasite. Lice are insects adapted for a parasitic lifestyle on the bodies of their hosts, but whale lice are crustaceans—specifically, amphipods specialized to live on whales, dolphins, and porpoises. There are many species of whale louse, with some only living on a particular species of whale. In the case of the sperm whale, one species of whale louse lives on the male sperm whale while a totally different species of whale louse lives on the female sperm whale and on calves. This was a fact I found on Wikipedia and included in the Patreon episode, but at the time I couldn’t find out more. It’s puzzled me ever since, which is one of the reasons I wanted to revisit this topic. I couldn’t figure out how the male calves ended up with male sperm whale lice, and I couldn’t figure out why males and females would have different species of lice. I’m happy to report that I now know the answers to both questions, or at least I can report what experts hypothesize. Male sperm whales spend more time in polar waters while females spend more time in warmer waters to raise their calves. Sperm whales are actually host to three different whale lice species, but one species prefers colder water and is much more likely to live on males, while another species prefers warmer water and is much more likely to live on females and calves. Any sperm whale might have lice from any of the three species, though, and whale lice are spread when whales rub against each other. This happens when the whales mate, but it also happens when males fight or when whales are just being friendly. The whale louse has a flattened body and legs that end in claws that help it cling to the whale. Different species are different sizes, from only five millimeters up to an inch long, or about 25 mm. Typically the lice cling to areas where water currents won’t sweep them away, including around the eyes and genital folds, ventral pleats, blowholes, and in wounds. Barnacles also grow on some whales and the lice live around the barnacles. But even though all that sounds horrible, the lice don’t actually harm the whales. They eat dead skin cells and algae, which helps keep wounds clean and reduces the risk of infection. The right whale is a baleen whale that can grow up to 65 feet long, or almost 20 meters. Right whales have callosities on their heads, which are raised patches of thickened, bumpy skin. Every whale has a different pattern of callosities. Right whales are dark in color, but while the callosities are generally paler than the surrounding skin, they appear white because that’s where the whale lice live, and the lice are white. This allows whales to identify other whales by sight. It’s gross but it works for the whales. Right whales also usually host one or two other species of louse that don’t live on the callosities. Dolphins typically have very few lice, since most dolphins are much faster and more streamlined than whales and the lice have a harder time not getting washed off. Some dolphins studied have no lice at all, and others have less than a dozen. Almost all whales have lice. Scientists study whale lice to learn more about whales, including how populations of whales overlap during migration. Studies of the lice on right whales helped researchers determine when the whales split into three species. But sometimes what researchers learn from the lice is puzzling. In 2004 researchers found a dead southern right whale calf and examined it, and were surprised to find it had humpback whale lice, not southern right whale lice. Researchers hypothesize that something had happened to the calf’s birth mother and it was adopted by a humpback whale mother. Another study determined that a single southern right whale crossed the equator between one and two million years ago and joined up with right whales in the North Pacific. Ordinarily right whales can’t cross the equator, since their blubber is too thick and they overheat in warm water. Researchers suggest that the right whale in question was an adventurous juve

Is it an invertebrate? Is it a vertebrate? It’s the Tully monster! Further reading: 3D Tully monster probably not related to vertebrates Has the “Tully monster” mystery finally been solved after 65 years? Possibly what the Tully monster looked like while alive: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about an ancient creature surrounded by mystery. When I was working on last week’s updates episode, I found some new information about it and intended to include it as an update. Then I realized I was referencing a Patreon episode, which I also reworked into a chapter of the Beyond Bigfoot & Nessie book. So instead, I included the new information in this episode all about the Tully monster. In 1955, an amateur fossil collector named Francis Tully discovered a really weird fossil. This was in one particular area of Illinois in the United States, roughly in the middle of North America. The fossil was about six inches long, or 15 cm, and Tully thought it resembled a tiny torpedo. He took the fossil to the Field Museum of Natural History in Chicago in hopes that somebody could tell him what his fossil was. The paleontologists he showed it to had no idea what it was or even what it might be related to. It was described in 1966 and given the name Tullimonstrum, which means Mr. Tully’s monster, which is pretty much what everyone was calling it already. 300 million years ago, in what is now the state of Illinois, a strange animal lived in the shallow sea that covered part of the area. The land that bordered this sea was swampy, with many rivers emptying into the ocean. These river waters carried dead plant materials and mud, which settled to the bottom of the ocean. When an animal died, assuming it wasn’t eaten by something else, its body sank into this soft muddy mess. The bacteria in the mud produced carbon dioxide that combined with iron that was also present in the mud, which formed a mineral called siderite that encased the dead animal. This slowed decay long enough that an impression of the body formed in the mud, and as the centuries passed and the mud became stone, the fossilized body impression was surrounded by a protective ironstone nodule. That’s why we know about the soft-bodied animals from this area, even though soft-bodied animals rarely leave fossil evidence. So what did this weird animal look like? The Tully monster was shaped sort of like a slug or a leech, and it had a segmented body. Its eyes were on stalks that jutted out sideways, although the stalks were more of a horizontal bar that grew across the top of the head. The tail end had two vertical fins, which argues that the Tully monster was probably a good swimmer. But at the front of its body it had a long, thin, jointed proboscis that ended in claws or pincers lined with eight tiny tooth-like structures. It’s easy to assume that the pincers acted as jaws and therefore the proboscis was a mouth on a jointed stalk, but we really don’t know. The Tully monster may have used its proboscis to probe for food in the mud at the bottom of the sea, but because the proboscis had a joint, it probably couldn’t act as a sort of straw. The pincers may have grabbed tiny prey and conveyed it to a mouth that hasn’t been preserved on the specimens we have. The Tully monster resembles nothing else known, and is so bizarre that researchers aren’t sure where to place it taxonomically. And it wasn’t rare. Paleontologists have since found lots of Tully monster fossils in the Illinois fossil beds, known as the Mazon Creek formation. The Mazon Creek formation is also the source of highly detailed fossils of hundreds of other plant and animal species, including some that have never been found anywhere else. Scientists have suggested any number of animal groups that the Tully monster might belong to. It might be a type of arthropod, a mollusk, a segmented worm…or it might be a vertebrate. The tiny tooth-like structures in the pincers have been analyzed and some researchers think they were more similar to keratin than chitin. Keratin is a vertebrate protein while chitin is an invertebrate protein. In 2016 a study argued that pigments in the eyes are arranged the same way as they are in vertebrates, which meant the Tully monster might have been a vertebrate. The problem is that some invertebrates also have these same pigment arrangements, notably cephalopods like octopuses. A 2019 study also looked at the chemical makeup of the fossil eyes, this time with even more advanced equipment—specifically, a synchrotron radiation lightsource, which is a type of particle accelerator. It sounds so science-y. This study suggested that the Tully monster’s eyes had a different chemical makeup than the vertebrates found in the same fossil beds, which means the Tully monster probably wasn’t a vertebrate after all. But it also didn’t match up with known invertebrates from the same fossil beds. Of cou

This week we have our annual updates and corrections episode, and at the end of the episode we’ll learn about a really weird clam I didn’t even think was real at first. Thanks to Simon and Anbo for sending in some corrections! Further reading: Lessons on transparency from the glass frog Hidden, never-before-seen penguin colony spotted from space Rare wild asses spotted near China-Mongolia border Aye-Ayes Use Their Elongated Fingers to Pick Their Nose Homo sapiens likely arose from multiple closely related populations Scientists Find Earliest Evidence of Hominins Cooking with Fire 153,000-Year-Old Homo sapiens Footprint Discovered in South Africa Newly-Discovered Tyrannosaur Species Fills Gap in Lineage Leading to Tyrannosaurus rex Earth’s First Vertebrate Superpredator Was Shorter and Stouter than Previously Thought 252-Million-Year-Old Insect-Damaged Leaves Reveal First Fossil Evidence of Foliar Nyctinasty The other paleo diet: Rare discovery of dinosaur remains preserved with its last meal The Mongolian wild ass: The giant barb fish [photo from this site]: Enigmonia aenigmatica, AKA the mangrove jingle shell, on a leaf: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week is our annual updates and corrections episode, but we’ll also learn about the mangrove jingle shell, a clam that lives in TREES. A quick reminder that this isn’t a comprehensive updates episode, because that would take 100 years to prepare and would be hours and hours long, and I don’t have that kind of time. It’s just whatever caught my eye during the last year that I thought was interesting. First, we have a few corrections. Anbo emailed me recently with a correction from episode 158. No one else caught this, as far as I can remember. In that episode I said that geckos don’t have eyelids, and for the most part that’s true. But there’s one family of geckos that does have eyelids, Eublepharidae. This includes the leopard gecko, and that lines up with Anbo’s report of having a pet leopard gecko who definitely blinked its eyes. This family of geckos are sometimes even called eyelid geckos. Also, Anbo, I apologize for mispronouncing your name in last week’s episode about shrimp. After episode 307, about the coquí and glass frogs, Simon pointed out that Hawaii doesn’t actually have any native frogs or amphibians at all. It doesn’t even have any native reptiles unless you count sea snakes and sea turtles. The coqui frog is an invasive species introduced by humans, and because it has no natural predators in Hawaii it has disrupted the native ecosystem in many places, eating all the available insects. Three of the Hawaiian islands remain free of the frogs, and conservationists are working to keep it that way while also figuring out ways to get them off of the other islands. Simon also sent me the chapter of the book he’s working on that talks about island frogs, and I hope the book is published soon because it is so much fun to read! Speaking of frogs, one week after episode 307, an article about yet another way the glass frog is able to hide from predators was published in Science. When a glass frog is active, its blood is normal, but when it settles down to sleep, the red blood cells in its blood collect in its liver. The liver is covered with teensy guanine crystals that scatter light, which hides the red color from view. That makes the frog look even more green and leaf-like! We’ve talked about penguins in several episodes, and emperor penguins specifically in episode 78. The emperor penguin lives in Antarctica and is threatened by climate change as the earth’s climate warms and more and more ice melts. We actually don’t know all that much about the emperor penguin because it lives in a part of the world that’s difficult for humans to explore. In December 2022, a geologist named Peter Fretwell was studying satellite photos of Antarctica to measure the loss of sea ice when he noticed something strange. Some of the ice had brown stains. Dr Fretwell knew exactly what those stains were: emperor penguin poop. When he obtained higher-resolution photos, he was able to zoom in and see the emperor penguins themselves. But this wasn’t a colony he knew about. It was a completely undiscovered colony. In episode 292 we talked about a mystery animal called the kunga, and in that episode we also talked a lot about domestic and wild donkeys. We didn’t cover the Mongolian wild ass in that one, but it’s very similar to wild asses in other parts of the world. It’s also called the Mongolian khulan. It used to be a lot more widespread than it is now, but these days it only lives in southern Mongolia and northern China. It’s increasingly threatened by habitat loss, climate change, and poaching, even though it’s a protected animal in both Mongolia and China. In February of 2023, a small herd of eight Mongolian wild asses were spotted along the border of both countries, in a nature reserve. A local herdsman not

Thanks to Zachary and Anbo for their suggestions this week! Let’s learn about some shrimp! Further reading: This is why the pistol shrimp is immune to its own powerful shock waves The Symbiotic Relationship Between Gobies and Pistol Shrimp An eastern ghost shrimp: A snapping shrimp: A goby fish and its snapping shrimp buddy: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to have an episode about a few different types of shrimp, with suggestions from Zachary and Ambo. Let’s start with the ghost shrimp, since Zachary recently got an aquarium and has some ghost shrimp in it. The name ghost shrimp refers to various species of freshwater shrimp in the genus Palaemon. One of the most popular species to keep as a pet is Palaemonetes paludosus. It’s sometimes called the glass shrimp since it’s mostly transparent, or the eastern ghost shrimp. The eastern ghost shrimp can grow up to about an inch long, or 2.5 cm. It’s native to the southeastern United States, mostly east of the Appalachian Mountains, where it lives in lakes and eats plankton. Even though the eastern ghost shrimp is mostly transparent, it can actually change its color to blend in with its background. Only one other species of ghost shrimp is known to do this, a very similar species that is only found in the Mississippi River. There are dozens of species of ghost shrimp, though, and they live throughout the world. Some species are freshwater, others are marine. Most are at least partially transparent and rarely grow more than two inches long, or maybe 5 cm at most. In some cases people catch them to eat, although more often they’re caught to use as bait or fish food, and of course they’re eaten by a whole lot of wild animals. We actually don’t know a whole lot about many species of ghost shrimp. Some have only recently been discovered, and some are endangered. For instance, the Florida cave shrimp is only found in a single sinkhole near Gainesville, Florida. It’s the only known species of ghost shrimp that lives in a cave, and it’s closely related to the eastern ghost shrimp. The Florida cave shrimp grows a little over one inch long, or about 3 cm. It has eyes but doesn’t need them, so they don’t work anymore. It’s mostly transparent with some white spots. It was discovered in 1953 during a scientific exploration of a sinkhole in the Squirrel Chimney Cave and hasn’t been seen since 1973. It may even be extinct by now, but further explorations of the sinkhole have revealed that it connects with a much larger underwater cave system. Hopefully the little shrimp lives within this cave system, but it hasn’t been found anywhere else so far and we know almost nothing about it. That’s pretty much all there is to know about the ghost shrimp, so congratulations to Zachary for keeping a mysterious little friend in your aquarium. Next, Anbo wanted to learn about snapping shrimp. (Anbo also wanted to learn about the mantis shrimp, but it turns out that the mantis shrimp isn’t actually a shrimp, or a mantis, and it deserves its own episode one day.) We talked about the snapping shrimp before in episode 273, but there’s definitely more to learn about it. There are a whole lot of species–like, more than a thousand. They’re especially common in coral reefs and live in colonies that communicate with each other by snapping their claws. The sound is so loud that it can sound like a gunshot, which is why it’s sometimes called the pistol shrimp. The snapping shrimp is about the same size as the ghost shrimp, about 2 inches long at most, or 5 cm. One of its claws is ordinary, but the other claw is much bigger, and it’s the large claw that makes the snapping sound. As we discussed in episode 273, the snapping shrimp will hide in a burrow or rock crevice with its antennae sticking out, and when a small animal like a fish happens by, the shrimp will emerge from its hiding place just far enough to get a good shot at the animal. It opens its big claw and snaps it shut so fast and so forcefully that it shoots tiny bubbles out at speeds of over 60mph, or 100 km/hour. The bubbles only travel a few millimeters in distance, but the shock wave is powerful enough at this short range to stun or outright kill a small animal. Scientists figured out how the snapping shrimp’s snap worked in 2020, but it wasn’t until 2022 that they discovered why the shrimp doesn’t damage its tiny shrimp brain when it snaps. It turns out that its brain is protected by a translucent helmet called an orbital hood. It needs to be translucent because it covers the shrimp’s eyes as well as the rest of its head. The hood is an extension of the shrimp’s exoskeleton, and it has an opening at the back. Scientists think that when the shock wave of a snap meets the hood, the change in water pressure under the hood is expelled out the opening instead of affecting the brain. Scientists want to learn how exactly the orbital hood works to redirect pressure wa

Thanks to Kari for suggesting this week’s topics! Definitely check out her book Butt or Face?, which is funny and has lots of animal information! Further reading: Butt or Face? by Kari Lavelle GBIF: Araneus praesignis [the spider pictures below come from this site] The turtle ant’s body is flattened and the soldier caste ants have specialized head shapes to block the nest entrances: The alien butt spider has a butt that looks like an alien’s face! The alien butt spider hides during the day in its leaf fort: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about two really weird invertebrates suggested by Kari. One of these two animals is her favorite and the other is a weird ant from a book she wrote. Kari’s full name is Kari Lavelle and her book is for kids, called Butt or Face? It actually releases tomorrow as this episode goes live, so if you’re listening to this episode on Monday, July 10, 2023, you still have time to preorder the book, or you can just wait a day and run out to your local bookstore or library to get a copy. Kari was nice enough to send me a copy of the book and it’s really funny and interesting. It’s partly a game where you look at a picture and decide whether it shows an animal’s butt or its face. It’s a lot harder than you’d think! You make your guess and turn the page to find out if you’re right and learn about the animal. It’s very fun and I actually guessed wrong on one animal, but I’m not telling you which one. There’s a link in the show notes if you want to learn more about the book and maybe order a copy for yourself. Anyway, let’s talk about the ant first, because it’s actually one I’ve had on the list to talk about for a while. I was really excited to see it in Kari’s book. It’s called the turtle ant, sometimes called the “door head” ant. That gives you a clue as to whether its picture in the book features its butt or its face. The turtle ant is any of the well over 100 species of ant in the genus Cephalotes, which are native to the Americas. Most live in Central and South America, especially in tropical and subtropical areas. Almost all species live in trees, nesting in cavities originally made by beetle larvae. For the most part, turtle ants are pretty typical compared to other ant species. They have a generalized diet, eating pretty much anything they find. This includes plant material, dead insects and other animals they find, bird poop, nectar, and even pollen in some species. Each colony has a single queen that mates with multiple males and lays all the eggs for the colony. Worker ants tend the eggs and larvae, gather food, and keep the colony clean. But as in some other ants, many species of turtle ant have a soldier caste. These are worker ants who are specialized to defend the nest. We talked about army ants recently, in episode 328, and also back in episode 185, and army ant soldiers have massive sharp mandibles that can inflict painful bites. But the turtle ant soldiers don’t have sharp mandibles and aren’t aggressive. They have one job, and that job is to stand at the nest’s entrances and stop them up with their heads, only moving when another ant needs to get through. As a result, turtle ant soldiers have weird-shaped heads. The head shape varies from species to species, with some looking more normal and some being heavily armored and strangely shaped. Well, they’re not strangely shaped except in comparison to an ordinary ant head. They’re shaped exactly right to do the job they’ve evolved to do, be a door. In some species, the top of the soldier’s head is completely round and flattened, just the right size and shape to block the entrance. Turtle ants have another ability that they share with some other ants. If an ant falls from the twig or branch it’s climbing on, instead of just falling to the ground, it can glide back to the tree trunk. Turtle ants have flattened bodies, which helps catch the air like a tiny ant-shaped parachute. Unlike other ants that do this, which glide head-first, the turtle ant glides abdomen-first. It uses its legs and head to adjust which way it’s gliding, and most of the time it lands safely on the tree trunk. There are undoubtedly more turtle ant species than we know about so far, and we actually don’t know very much about most of the species we have discovered. Most turtle ants live in trees, and that makes them hard to study. There’s actually a spider called the ant-mimicking crab spider that eats turtle ants. It looks so much like a turtle ant worker that it can get close to the actual ants before it’s recognized as a predator, at which point it has a good chance of grabbing an ant to eat before the ant can run away. But that’s not actually the type of spider we’re talking about next. The other animal we’re talking about today isn’t one from the book, it just happens to be one of Kari’s favorite animals *cough*sequel*cough*. It’s called the alien butt sp