Strange Animals Podcast

Further reading: Beavers Have Metal Teeth Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Let’s find out about some animals that incorporate metal into their bodies in more than just trace amounts. We’ll start with the scaly-foot gastropod, a deep-sea snail. It lives around hydrothermal vents in the Indian Ocean, about 1 and ¾ miles below the surface, or about 2800 meters. The water around these vents, referred to as black smokers, can be more than 350 degrees Celsius. That’s 660 degrees F, if you even need to know that that’s too hot to live. The scaly-foot gastropod was discovered in 2001 but not formally described until 2015. The color of its shell varies from almost black to golden, depending on which population it’s from, and it grows to almost 2 inches long, or nearly 5 cm. It doesn’t have eyes, and while it does have a small mouth, it doesn’t use it for eating. Instead, the snail contains symbiotic bacteria in a gland in its esophagus. The bacteria convert toxic hydrogen sulfide from the water around the hydrothermal vents into energy the snail uses to live. It’s a process called chemosynthesis. In return, the bacteria get a safe place to live. The snail’s shell contains an outer layer made of iron sulfides. Not only that, the bottom of the snail’s foot is covered with sclerites, or spiky scales, that are also mineralized with iron sulfides. While the snail can’t pull itself entirely into its shell, if something attacks it, the bottom of its foot is heavily armored and its shell is similarly tough. Researchers are studying the scaly-foot gastropod’s shell to possibly make a similar composite material for protective gear and other items. The inner layer of the shell is made of a type of calcium carbonate, common in mollusk shells and some corals. The middle layer of the shell is regular snail shell material, organic periostracum, which helps dissipate heat as well as pressure from squeezing attacks, like from crab claws. And the outer layer, of course, is iron sulfides like pyrite and greigite. Oh, and since greigite is magnetic, the snails stick to magnets. The scaly-foot gastropod is the only animal known that incorporates iron sulfide into its skeleton, but other animals use metals in their teeth. Some spiders have tiny amounts of zinc in the tips of their fangs. Some mollusks have small amounts of iron in the teeth of their radulas—you know, the tongue-like structure used to scrape food off rocks. The teeth of the limpet, a type of mollusk, may be one of the strongest structures in the world. It contains goethite nanofibers, and goethite is a type of iron. The teeth of beavers and some other rodents contain iron in the enamel coating. This makes the teeth much harder, although the amount of iron is quite small and unstructured. Most other mammals, including humans, have magnesium in tooth enamel instead of iron. The iron content makes the teeth look orange because of rust. Bloodworms are disgusting horrible worms that my uncle used to fish with when we visited the beach when I was a kid. I was scared of the bloodworms, which irritated my uncle, because I was very vocal about hating the worms and he wasn’t catching any fish with them. Bloodworms live in the sand or silt of shallow water, usually in the ocean but since they can tolerate low salt levels, they may also live farther inland in canals and inlets. Some species can grow nearly 15 inches long, or 37 cm. They’re usually pink or reddish in color with bristles along the body and four little antennae on the head. But the reason I’m talking about them here is that their teeth are reinforced with copper that makes them nearly as hard as teeth coated with enamel. Its jaw also contains copper ions. Copper is toxic to most animals, which may be the source of the bloodworm’s venom. That’s right: horrible worms are also venomous. Another invertebrate that incorporates metal in its body is the parasitic fig wasp. Fig wasps are interesting and there are a lot of them. Figs are pollinated by fig wasps that are not parasitic. The fig flower has a bulb at its base containing a tiny hole. The pollinating fig wasp crawls into the hole, pollinating the flower at the same time, and lays her eggs inside the bulb. She then dies. As the fig developes, the wasp eggs hatch into larvae and then develop into adult wasps. Males mate with females, then chew a hole out of the fig, but only the female wasps have wings, so the males remain and die. As the fig ripens, it actually digests the dead wasps, and—and this is important to those of us who really like figs—leaves no bits of dead wasp inside the fig. So that’s how the pollinating fig wasps work. It’s a symbiotic relationship between the fig tree and the wasp. But the parasitic fig wasp is different. The female has a long ovipositor, which it uses to drill into developing figs and into the pollinating fig wasp larvae. When its eggs hatch, they eat the larva alive. This is yet another re

Is there life on Europa? We take a look at Greenland and Antarctica to find out more about life on Jupiter’s icy moon. Further reading: Life on Venus claim faces strongest challenge yet Stanford researchers’ explanation for formation of abundant features on Europa bodes well for search for extraterrestrial life Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Today we’re going to learn about the potential of life on Europa, a moon of Jupiter! To do that we’ll need to look at some extreme life on Earth too. Back in September 2020, we talked about potential signs of life in the atmosphere of Venus, which excited me a whole lot. As a follow-up to that episode, further studies suggest that signs of phosphine detected in Venus’s atmosphere, which might be produced by life, may actually just be sulfur dioxide (not a sign of life). But while it’s not looking likely that phosphine is actually found in Venus’s atmosphere, so far no studies can completely rule it out. So, maybe. Venus isn’t the only part of our solar system where life might exist outside of Earth, though. Astronomers have been speculating about Europa for a long time. The planet Jupiter is a gas giant that has at least 80 moons, but Europa is the one that’s closest to the planet. It’s only a little bit smaller than our own moon. Europa has an atmosphere, mostly made up of oxygen but so thin that if you could magically appear on the moon, you wouldn’t be able to breathe. Also, you would freeze to death almost immediately. It’s a dense moon, so astronomers think it’s probably mostly made up of silicate rock, which is what Earth is mostly made up of, along with Mars, Venus, Mercury, and a lot of moons. If you’ve ever looked at our moon through a telescope or binoculars, you know it has lots of impact craters on its surface caused by asteroid strikes in the past. Europa doesn’t have very many craters—in fact, its surface is incredibly smooth except for what look like cracks all over it. It’s mostly pale in color, but the cracks are reddish-orange or brown. The cause of the cracks has been a mystery ever since astronomers got the first good look at Europa. Many astronomers think these cracks are where warm material from below the surface erupted through the crust, sort of like what happens where lava oozes up on Earth and forms oceanic ridges. But on Europa, the material breaking through the crust isn’t lava, it’s ice—but ice that isn’t as cold as the surface ice. You know you’re on a cold, cold moon when ice that’s close to freezing instead of way below freezing can act like lava. The surface of Europa is about 110 kelvin at the equator and even colder at the poles. That’s -260 F or -160 C. The exciting thing is that researchers are pretty sure the surface of Europa is icy but that the crust lies over a deep saltwater ocean that covers the entire moon. Yes, an ocean! As Europa orbits Jupiter, the planet’s gravity pulls at the moon, while the smaller gravity fields of the other nearest moons also pull on Europa in other directions. This push and pull causes tides that help warm the ocean and keep it from freezing solid. The brown coloration in the moon’s cracks may be due to mineral salts from the water that get leached up through the cracks after warm ice breaks through, assuming that’s what is actually happening to cause the cracks. Astronomers even have images of Europa taken by space probes that show what look like water plumes erupting through the surface and shooting up an estimated 120 miles high, or 200 km. But new studies suggest that the water plumes might not be from the ocean. They might be from pockets of water that form within the crust itself, which grow larger until they burst out through the crust. This is even more exciting when it comes to potential life on the moon, because it suggests that the crust isn’t just a big block of ice. It’s a dynamic system that might harbor life instead of all potential life on Europa being restricted to the ocean. But to learn more about Europa, we have to come back to Earth and examine the island of Greenland. Most of Greenland is covered with a permanent ice sheet like the ones found in Antarctica, but it’s a lot easier to study than Antarctica. One feature seen in the ice sheet is something called a double ridge, shaped sort of like a capital letter M. It’s caused when the ice fractures around pressurized water that forms inside the ice sheet and refreezes. This is caused when water from streams and lakes on the surface finds its way into the ice. The double ridge can look like a crack. New pictures of the cracks on Europa’s surface look just like Greenland’s double ridges, but much bigger. My explanation of all this is extremely clumsy, because this is a really complex mechanism. Researchers only figured it out because some of the team had been studying Greenland’s double ridges for a completely different project, and noticed the similarities. There’s a link i

It’s Albert the Albanerpetontid! Further reading: Earliest example of a rapid-fire tongue found in ‘weird and wonderful’ extinct amphibians Amphibian skullllll: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Let’s learn about a long-extinct amphibian that looked a lot like a reptile. It’s a family of animals called Albanerpetontidae. That’s a mouthful, so instead of talking about Albanerpetontids, I’ll talk about all the various species as though they were not only a single species, but a single individual named Albert. Albert first appears in the middle Jurassic, around 165 million years ago, and disappears from the fossil record around 2 million years ago. That means it survived the extinction event that killed off the non-avian dinosaurs and many other animals, which is also true for many other amphibians. But Albert wasn’t like the amphibians we have around today. It belonged to its own order, Allocaudata. There’s a lot of confusion in general as to how amphibians are related to each other and how closely related, for instance, the frogs and the salamanders actually are. The same is true for Albert. What we do know is that Albert was definitely an amphibian, but it was also really different in many respects from modern amphibians. That’s weird, because only two million years ago Albert was still around and seems to have been fairly common. Albert fossils have been found in Europe, North America, northern Africa, and parts of Asia. Two million years isn’t all that long when you’re talking about big differences between related animal groups. But although Albert appears in the fossil record at about the same time as other amphibians, it seems to have evolved very differently in many ways. Albert looked like a salamander and was originally classified as a salamander. It was small, its body was slender and elongated, its legs were short, and it had a long tail. It had tiny teeth and seemed to prefer wet environments, which makes sense when you’re talking about an amphibian. But Albert had a lot of traits not found in other amphibians, such as scales. The scales were more fish-like than reptilian and were embedded in Albert’s skin like osteoderms, especially concentrated on the head. These scales have caused confusion for a whole lot of scientists. In 2016, for instance, scientists identified an unusual lizard found fossilized in amber as a 99-million-year-old chameleon. That’s because it had a weird bone in its jaw shaped like a little rod, which looked like a bone found in the modern chameleon’s tongue. It turns out that the lizard was no lizard at all but our friend Albert, an amphibian. The chameleon is a reptile and not related to Albert, but they share the same type of elongated tongue bone. When the skull of a second amber specimen was discovered that was even better preserved, including a tongue pad and other soft tissue, scientists were able to evaluate whether Albert used its tongue the same way that a chameleon does. One trait found in Albert skulls that scientists had long been confused about was how robust and large its skull was. Some scientists suggested that it used its big head to dig burrows, ramming its head into soft mud until it created a hole big enough to hide in. But it also had big eyes, which isn’t typical in an animal that burrows. Scientists now think that Albert’s head was so strong because it needed to withstand the forces of its own tongue. It could probably shoot its tongue out incredibly fast like a chameleon, much faster even than a frog. It’s referred to as a projectile tongue, ballistic tongue, rapid-fire tongue, or boomerang tongue. The muscles that power a chameleon’s tongue are specialized to store energy when it contracts, then launch the tongue out like someone releasing a stretched-out rubber band. Albert’s similar ability evolved separately from the chameleon’s, and much earlier. It’s also possible that Albert didn’t undergo a larval stage the way most other amphibians do. Juvenile specimens look like miniature adults, which is unusual in amphibians but ordinary in reptiles. Albert also had lizard-like claws. But we know Albert wasn’t a reptile, and in fact it may have demonstrated one of the most amphibian traits known, breathing through its skin. Many modern salamanders don’t have lungs or gills at all as adults, and instead absorb oxygen directly through the skin, called cutaneous respiration. The specialized bone in Albert’s jaw would have made it hard to breathe in the ordinary way, and we know it didn’t have gills. The big question is why Albert went extinct when other amphibians are doing just fine. We don’t have an answer for that, or not yet. While Albert did seem to be quite successful, fossils of tiny, delicate animals like two-centimeter-long amphibians are rare, and that means we don’t have the full picture of what happened two million years ago that drove Albert to extinction. For that matter, some scien

Further reading: Identifying the beasts in Caesar’s forest Reindeer: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. After the glaciers retreated from Europe at the end of the last ice age, around 11,000 years ago, forests grew wherever there was enough soil to support a tree. As these new forests spread, they joined forests that had survived the glaciations. By the time ancient Romans were writing about the things they encountered while exploring western Europe, around 2,000 years ago, the forest stretched across much of the continent and was considered a wild, dangerous place. They called it the Hercynian [her-SIN-ian] forest and it was supposed to be full of peculiar animals. An account of the forest appears in the book Commentarii del Bello Gallico, the first edition of which was published just over 2,000 years ago in 49 BCE. It was written by Julius Caesar, or at least he was involved in it even if he didn’t actually write it personally, since it was about his military campaigns. In one section of the book he discusses the Hercynian forest and three remarkable animals that lived in it. The first was called the uri, which were supposed to look like bulls but were almost the size of elephants, and were incredibly aggressive. This is probably the same animal often called the aurochs, which we talked about in episode 58. The aurochs was probably the wild ancestor of the domesticated cow and could stand almost six feet tall at the shoulder, or 1.8 meters. It had already gone extinct in most places 500 years before Caesar wrote his book, but it still lived in parts of Europe. The second animal is a lot harder to identify. The alces looked like a big goat that either didn’t have horns or had very short ones, but its legs didn’t have joints. If an alces fell over, it couldn’t get up again. Caesar explained that hunters used this to their advantage. Because the alces couldn’t lie down at night, it would sleep by propping itself against a tree. The hunters would note which tree an alces preferred, and during the day they’d cut a notch in the trunk. When the alces leaned against it at night to sleep, the tree would topple over, taking the animal with it. The waiting hunters would then be able to just stroll up and kill the alces. Naturally, this story doesn’t make any sense. All tetrapods have jointed legs. But the story of an animal without joints in its legs crops up in various stories from around this time, including the part where hunters cut a notch in a tree trunk to knock the animal over. It’s a story once told about the elephant and the Eurasian elk, among others, and the alces was probably based on the Eurasian elk. That’s the Eurasian population of the animal called the moose in North America. Because the story specifies that the alces either didn’t have horns or had very small ones, it’s possible that Caesar based his story on the female elk, which doesn’t have antlers. Incidentally, we’re so certain that the alces was the same animal as the Eurasian elk that its scientific name is actually Alces alces. Finally, the Hercynian deer was likewise large and had a single horn. A translation of the passage states: “There is an ox with the shape of a deer; projecting out of its forehead, in the middle, between the ears, is a single horn, which is both longer and more upright than those horns we are used to seeing.” Other sources that talk about this animal also say that the horn branched at the end, and Caesar notes that both males and females had these horns. This gives us a big clue as to what animal might have inspired the account. Unlike most deer, both male and female reindeer have antlers. Unlike caribou, the North American reindeer species, the European reindeer often has relatively long and straight main shafts on its antlers that then enlarge at the end in what’s called a palmate structure. That basically means it’s shaped like a hand. But reindeer have two antlers, not one. It’s possible that the story of the Hercynian deer was inspired by the unicorn legend, which was based on the rhinoceros. It might also have been inspired by Caesar sighting a reindeer that had dropped one antler but hadn’t yet lost the other one, since like other deer, reindeer shed their antlers and regrow them every year. The reason Caesar wrote about the animals of the Hercynian forest in the first place was to underline how strange and uncivilized the people living in the area were. The people in question are what today we would call Germans. Caesar stresses that all these animals are ones never seen anywhere else, and he might easily have added exotic details from other fabulous animals to make these animals seem extra weird. These days most of the Hercynian forest is long gone, chopped down for people to turn into farmland and towns. While the Eurasian elk and the reindeer are still around, they no longer live as far south as Germany. The last aurochs went extinct in 1627 in Poland. But the G

This week let’s look at the work of a really astonishing number of spiders! Further reading: Megaweb! Some of the webs: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Baltimore, Maryland is a city in the northeastern United States, in North America, with a population of 2.8 million people. In 1993 a new wastewater treatment plant was built called the Back River Wastewater Treatment Plant, which filters water through big sand beds to trap any particles remaining in it after it’s been filtered and treated in other facilities. The plant consists of 48 big sand beds with a corridor down the middle, and in order to keep the sand beds as clean as possible, the whole area has a big metal roof over it held up with steel columns. It doesn’t have walls, though, just a roof. The whole thing covers four acres, or 1.6 hectares, which I think is a metric term. It’s just over 16,000 square meters. It’s big, in other words, and the roof is pretty tall, up to 24 feet high over the walkway, or 7.5 meters. Obviously, I’m telling you about this place in detail because of an animal that got into the water treatment plant and caused a lot of alarm. It wasn’t a big animal like a bear, though. It wasn’t even a dangerous animal. It was, in fact, a really small animal that’s mostly harmless to humans, various species of orbweaver spider. The problem wasn’t the spider itself but just how many spiders were in the water treatment plant. The plant had always had problems with lots of orbweavers, but in 2009 there were so many spiders that the workers were worried for their safety. In late October 2009, the managers called for help about “an extreme spider situation.” The problem was way beyond anything that an ordinary pest control business could deal with, so the city put together a team of arachnologists, entomologists, and experts in urban pest control to figure out the best course of action. The team didn’t just charge in, say, “Wow, that’s a lot of spiders, let’s hose the whole place down.” They were scientists and studied the situation methodically. They consulted the architectural plans of the plant to determine just how much volume was available under the roof, they took samples of the webs and stored them for study, they took over 300 photos, and basically they got as much data as they could. There were so many spiders that their webs blended together into thick mats that filled almost every space the spiders could reach. These cobweb mats were attached to the rafters, the walkways, everywhere, with the older mats starting to detach and fray. Light fixtures hung down from the tallest point of the roof that were 8 feet long, or 2.44 meters, and there were so many webs attached to them that they were pulled out of alignment. And all the webs were filled with spiders. The spiders in the web samples were removed and preserved, then examined to see what species they belonged to. The team identified specimens from nine genera in six families, but most of the spiders caught were the species Tetragnatha guatemalensis. This is a type of long-jawed orbweaver native to North and Central America. Females are much larger than males, with a legspan up to 2 inches across, or about 5 cm. Long-jawed orbweavers have long, thin bodies, and one of the ways it hides is by stretching out on a blade of grass or a twig with its legs out straight. It especially likes marshy areas, such as in the rafters above 48 giant sand beds full of water. A conservative estimate of the number of spiders in the Back River Wastewater Treatment Plant in the first week of November, 2009 was 107 million. 107 million spiders! Since a big percentage of the spiders were newly hatched, there were probably a lot more in the facility than the scientists estimated from the samples they took, so there might easily have been several hundred million spiders total. The sheets of webbing in the ceiling covered an estimated 2 acres total, or about 8,000 square meters, while the cloud-like masses of webbing in other areas was about half that size and would have filled 23 railroad boxcars. The really interesting thing is that orbweaver spiders are usually solitary. Spiders may build webs near each other, but not usually like this. But these orbweavers lived in a place protected from wind and weather, and close to water, which attracted lots of midges and other small insects, and the presence of humans probably kept a lot of potential spider predators away, like birds. Life was good for these spiders and the scientists observed that they weren’t acting aggressively to each other, even when they were of different species. After studying the water treatment plant and its spiders, the team came to several conclusions. Since the spiders are harmless to humans, and are doing a really good job controlling the midge population, the scientists decided that pest control was not necessary and would even be a bad idea since the pesticides would inevitably get

DRAMA! Bird drama! Here are some further-reading links if you want to verify that I’m not vilifying anyone: Buff-breasted Buttonquail: An image claimed to be of this species revealed Buff-breasted Buttonquail: Smoke & Mirrors A review of specimens of Buff-breasted Button-quail Turnix olivii suggests serious concern for its conservation outlook A painted button quail: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Back in episode 136 we talked about the button quail, because that episode was about tiny animals and the button quail is really tiny. But let’s revisit the button quail this month, because we have a mystery associated with a particular species of button quail. Button quails generally live in grasslands and are actually more closely related to shore and ocean birds like sandpipers and gulls than to actual quails, but it’s not very closely related to any other living birds. It can fly but it mostly doesn’t. Instead it depends on its coloring to hide it in the grass where it lives. It’s mostly brown with darker and lighter speckled markings, relatively large feet, and a short little tail. It eats seeds and insects along with other small invertebrates. The button quail is especially interesting because the female is more brightly colored than the male, although not by much. In some species the female may have bright white markings, while in others her speckled markings are crisper than the males. The female is the one who calls to attract a male and who defends her territory from other females. The female even has a special bulb in her throat that she can inflate to make a loud booming call. The male incubates the eggs and takes care of the chicks when they hatch. Baby button quails are fuzzy and active like domestic chicken babies but they’re only about the size of a bumblebee. In many species, as soon as the female has laid her eggs, she leaves them and the male and goes on to attract another male for her next clutch of eggs. The various species of button quail live in different areas, including Africa, Asia, and Australia. The species we’re talking about today is the buff-breasted button quail, which is native to one small area of Queensland, Australia. It grows about 9 inches long, or 23 cm, which is big for a button quail, most of which are closer to the size of sparrows, and it’s reddish-brown with darker and lighter speckles. It’s critically endangered due to habitat loss and introduced animals like cats and cattle. There are only an estimated 50 individuals alive today. But that’s only an estimate, because no one has actually for sure seen a buff-breasted button quail since 1922. Also, I’m going to call it the BBBQ from now on because that name is hard to say. The 1922 specimen was shot by a naturalist who was collecting specimens for a museum, which was regrettably common at the time and led to a lot of endangered species being driven to extinction. The bird was already rare in 1922 and that was the last anyone saw of it until 1985, when someone reported seeing one. People flocked to the area in hopes of spotting it, but while there were lots of sightings, no one got a good picture of a BBBQ. All the pictures, and all the recordings of its calls, turned out to be of another species of button quail, a very similar bird called the painted button quail. It’s been 100 years since the bird was last seen, so while we have lots of museum specimens, we don’t have any modern sightings. That means two things. Either the buff-breasted button quail is probably extinct…or it never actually existed in the first place. There are two other species of button quail that live in the same areas where the BBBQ is found, the painted button quail and the brown quail. They’re smaller but otherwise look very similar, especially the painted button quail. Maybe people were mistaking larger individuals of painted button quails as a different species. In 2018, a team of scientists from the University of Queensland conducted a search for the BBBQ. All they found were painted button quails. But they discovered something surprising that had never been documented before. During the breeding season, the female painted button quail’s feathers are much more reddish-brown, while the rest of the year the feathers on her back are more gray-brown. The team also studied as many BBBQ skins as they could track down from museums, where they learned something else surprising. It turns out that it’s not any larger than the painted button quail, which grows up to 8 inches long, or 20 cm. So the birds are the same size and during part of the year, they have almost identical plumage. Hmm. That doesn’t mean the buff-breasted button quail never existed. One very distinctive difference between the painted and the buff-breasted species is eye color, with the former having red eyes and the latter having yellow. As far as I know a genetic study hasn’t been carried out on the museum specimens, but it’s lik

This week let’s learn about some blue frogs! Further reading: Scientists make chance discovery of rare blue skin mutation in Kimberley magnificent tree frog White’s True-Blue Green Tree Frog Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. When most of us draw a frog, we reach for the green markers, because most frogs are green. That’s true of the magnificent tree frog, also called the splendid tree frog, which is fairly common in the Kimberley region of western Australia. It grows just over 4 inches long, snout to vent, or about 10 and a half cm, and lives in rocky areas. It spends the day hiding in rock crevices, holes in trees, or sometimes in people’s houses, and it comes out at night to hunt for insects and other small invertebrates. From the name, you might imagine that this is an especially pretty frog, and it is. It’s mostly bright green on top and yellow to white underneath, and it has tiny yellow spots on its head and back. It looks like it has an olive green cap on its head, but that’s actually a large parotoid gland, a skin gland common in frogs and toads that secretes neurotoxins. Most frogs don’t have a parotoid gland at all, and in ones that do you typically will barely notice it, but the magnificent tree frog’s covers the entire top of its head almost to its nostrils and down onto its back. The skin color of a frog depends on its chemical makeup. Melanophores make black and brown colors, xanthophores make yellow. Blue is different, since it’s not a color that’s actually found in skin pigments. Instead, a green frog’s skin contains iridophores that reflect blue light waves, the same way a bird’s feathers show blue. The combination of yellow and blue makes green, and the addition of melanophore pigments determine how dark or bright the green is. In July of 2024, two land managers were working in the Charnley River-Artesian Range Wildlife Sanctuary. They were in a workshop when one of them noticed a magnificent tree frog sitting on a bench, not that unusual of an occurrence–except that this frog wasn’t green. It was blue! The condition is called axanthism, where the yellow pigments in the frog’s skin don’t show up the way they should. Most of them time axanthism in frogs means the animal has little patches of blue or bluish coloration, but this specific frog was blue just about everywhere it should have been green. Its parotoid gland was still olive green and it had yellow on its feet, but mainly it was a very attractive dark blue. The land managers were stunned. They took photos and sent them to pretty much everyone, and frog experts and ecologists hurried to examine the blue frog. But they decided not to keep the frog in captivity. It was released back into the wild to live out its blue froggy life normally. Some frogs are naturally blue, like some poison dart frogs of South America. The blue poison dart frog’s legs are dark blue and its body a lighter blue with black spots. It grows less than two inches long, or about 4.5 cm. Poison dart frogs collect toxins in their bodies from some of the toxic insects they eat, and the bright coloration signals to predators that this frog will make you really sick if you eat it. Axanthism is rare but not all that uncommon in frogs. About the same time that the blue magnificent tree frog was hopping into the workshop in Australia, two little girls playing around a pond in Nova Scotia, Canada found a teal-blue frog. Ironically, the frog is actually called the green frog and it’s ordinarily a dark olive-green all over. The girls named the frog Bluey and released it back into the pond. Another blue green frog was found in New Hampshire, in the United States, also in July 2024. In June 2024 a forest ranger spotted a northern leopard frog in Washington state that had splotches of light blue on its head and back. In May of 2024 a light blue Japanese tree frog was found by a couple on a walk. The Australian green tree frog is closely related to the magnificent tree frog, although it doesn’t have a parotoid gland hat. It’s mostly green with a white or pale gray belly. It’s sometimes called the dumpy tree frog because it’s a little chonk. Actually, for a frog it’s a pretty big chonk, up to 4 and a half inches long, or over 11 cm. It’s also sometimes called White’s tree frog after John White, who described it in 1790. It was the first Australian frog that was ever scientifically described. But that leads us to a little mystery. John White named the frog Rana caerulea. Its current scientific name is Ranoidea caerulea. But “caerulea” refers to the color blue, not green, as in cerulean blue. John White collected the frog in 1788, preserved it in alcohol, and finally described it two years later. He refers to it in his writing as a blue frog and the illustration accompanying it shows frogs that are actually blue. But this frog is supposed to be green! The main suggestion for why a famously green frog was initially described as b

Further reading: Parallels for cetacean trap feeding and tread-water feeding in the historical record across two millennia Haggling over the Hafgufa Many renditions of the hafgufa/aspidochelone: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Back in the olden days, as much as 1700 years ago and probably more, up through the 14th century or so, various manuscripts about the natural world talked about a sea monster most people today have never heard of. In ancient Greek it was called aspidochelone, contracted to aspido in some translations, while in Old Norse it was called the hafgufa. But it seemed to be the same type of monster no matter who was writing about it. The animal was a fish, but it was enormous, big enough that it was sometimes mistaken for an island. When its jaws were open they were said to be as wide as the entrance to a fjord. A fjord is an inlet from the sea originally formed by glaciers scraping away at rocks, and then when the glaciers melted the sea filled the bottom of what was then a steep valley. I’m pretty sure the old stories were exaggerating about the sea monster’s mouth size. The sea monster ate little fish, but it caught them in a strange way. It would open its mouth very wide at the surface of the water and exude a smell that attracted fish, or in one account it would regurgitate a little food to attract the fish. Once there were lots of little fish within its huge mouth, it would close it jaws quickly and swallow them all. Generally, any sea monster that’s said to be mistaken for an island was inspired by whales, or sometimes by sea turtles. The hafgufa is actually included in an Old Norse poem that lists types of whales, and the aspidochelone was considered to be a type of whale even though the second part of its name refers to a sea turtle. So whatever this sea monster was, we can safely agree that it wasn’t a fish, it was a whale. Up until just a few centuries ago people thought whales were fish because of their shape, but we know now that they’re mammals adapted to marine life. But the hafgufa’s behavior is really weird and doesn’t seem like something a whale would do. We’ve talked about skim feeding before, where a baleen whale cruises along at the surface with its mouth held open, until it’s gathered enough food in its mouth and can swallow it all at once. But whales aren’t known to hold their mouths open at the surface of the water and just sit there while fish swim in. At least, they weren’t known to do this until 2011. In 2011, marine biologists studying humpback whales off Canada’s Vancouver Island in North America observed some of the whales catching herring and other small fish in an unusual way. The whales would remain stationary in the water, tails straight down with the head sticking up partly out of the water. A whale opened its mouth very wide and didn’t move until there were a lot of fish in its mouth, which it then swallowed. Soon after, another team of marine biologists studying Bryde’s whales in the Gulf of Thailand in South Asia observed the same activity when the whales were feeding on anchovies at the surface of the water. The term for this activity is called trap feeding or tread-water feeding, and at first the scientists thought it was a response to polluted water that had caused the fish to stay closer to the surface. But once the two teams of scientists compared notes, they realized that it didn’t appear to have anything to do with pollution. Instead, it’s probably a way to gather food in a low-energy way, especially when there isn’t a big concentration of fish in any particular spot, and when researchers remembered the story of the hafgufa, they realized they’d found the solution to that mystery sea monster. The only question was whether the accounts were accurate that the hafgufa emitted a smell or regurgitated food to attract fish. Further observation answered that question too, and it turns out that yes, the old stories were at least partially right. The smell has been compared to rotten cabbage, but it isn’t emitted by the whale on purpose. It’s a smell released when phytoplankton is eaten in large numbers, whether by fish or whales or something else, and it does attract other animals. As for the regurgitation, this is always something that happens to some degree when a baleen whale feeds. The whale fills its mouth with water that contains the fish and other small animals it eats, and it presses its huge tongue upwards to force the water through its baleen, which acts as a sieve. Whatever’s left in its mouth after the water is expelled, it swallows. But baleen is tough and fish are small and delicate in comparison. Often, fish and other small animals get squished to death against the baleen, and parts of them are expelled with the water. This creates a sort of yucky slurry that could be interpreted as a whale regurgitating food to attract more fish. The scientists think that fish are mainly attracted not to any sm

Further reading: I Can Has Mutant Larvae? 200-Year-Old ‘Monster Larva’ Mystery Solved ‘Snakeworm’ mystery yields species new to science Hearkening back to the hazelworm Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. A few weeks ago when I was researching big eels, I remembered the mystery eel larva we talked about back in episode 49, and that led me down a fun rabbit hole about other mystery larvae. Let’s start with that eel larva. Eel larvae can be extremely hard to tell apart, so as a catchall term every eel larva is called a leptocephalus. They’re flattened side to side, which is properly referred to as laterally compressed, and transparent, shaped roughly like a slender leaf, with a tiny head at the front. Depending on the species, an eel may remain in its larval form for more than a year, much longer than most other fish, and when it does metamorphose into its next life stage, it usually grows much longer than its larval form. For instance, the larvae of conger eels are only about 4 inches long, or 10 cm, while an adult conger can grow up to 10 feet long, or 3 meters. On January 31, 1930, a Danish research ship caught an eel larva 900 feet deep, or about 275 meters, off the coast of South Africa. But the larva was over 6 feet long, or 1.85 meters! Scientists boggled at the thought that this larva might grow into an eel more than 50 feet long, or 15 meters, raising the possibility that this unknown eel might be the basis of many sea serpent sightings. The larva was preserved and has been studied extensively. In 1958, a similar eel larva was caught off of New Zealand. It and the 1930 specimen were determined to belong to the same species, which was named Leptocephalus giganteus. In 1966, two more of the larvae were discovered in the stomach of a western Atlantic lancet fish. They were much smaller than the others, though—only four inches and eleven inches long, or 10 cm and 28 cm respectively. Other than size, they were pretty much identical to Leptocephalus giganteus. The ichthyologist who examined them determined that the larvae were probably not true eels at all, but larvae of a fish called the spiny eel. Deep-sea spiny eels look superficially like eels but aren’t closely related, and while they do have a larval form that resembles that of a true eel, they’re much different in one important way. Spiny eel larvae grow larger than the adults, then shrink a little when they develop into their mature form. The six-foot eel larva was actually a spiny eel larva that was close to metamorphosing into its adult form. Not everyone agrees that Leptocephalus giganteus is a spiny eel. Some think it belongs to the genus Coloconger, also called worm eels, which are true eels but which have large larvae that only grow to the same size as adults. But worm eels don’t grow much bigger than about two feet long, or 61 cm. If the mystery larvae does belong to the genus Coloconger, it’s probably a new species. Until scientists identify an adult Leptocephalus giganteus, we can’t know for sure. Another mystery larva is Planctosphaera pelagica, which sits all alone in its own class because the only thing it resembles are acorn worms, but scientists are pretty sure it isn’t the larva of an acorn worm. It’s not much to look at, since the larva is just a little barrel-shaped blob that grows about 25 mm across. This sounds small compared to the eel larva we just discussed, but it’s actually quite large compared to similar larvae. Acorn worm larvae are usually only about a millimeter long. Planctosphaera has been classified as a hemichordate, which are related to echinoderms but which show bilateral symmetry instead of radial symmetry. Hemichordates are also closely related to chordates, which include all vertebrates. They’re marine animals that resemble worms but aren’t worms, so it’s likely that Planctosphaera is also wormlike as an adult. Planctosphaera isn’t encountered very often by scientists. It has limited swimming abilities and mostly floats around near the surface of the open ocean, eating tiny food particles. One suggestion is that it might actually be the larva of a known species, but one where an occasional larva just never metamorphoses into an adult. It just grows and grows until something eats it. So far, attempts to sequence DNA from a Planctosphaera hasn’t succeeded and attempts to raise one to maturity in captivity hasn’t worked either. Some people have estimated that an adult Planctosphaera might be a type of acorn worm that can grow nine feet long, or 2.75 meters, which isn’t out of the realm of possibility. The largest species of acorn worm known is Balanoglossus gigas, which can grow almost six feet long, or 1.8 meters, and not only is it bioluminescent, its body contains a lot of iodine, so it smells like medicine. It lives in mucus-lined burrows on the sea floor. Another mystery larva is Facetotecta, which have been found in shallow areas in many oceans around the world. Unli

It’s the annual discoveries episode! Thanks to Stephen and Aryeh for their corrections and suggestions this week! Further reading: Salinella Salve: The Vanishing Creature That Defied Science for Over a Century Three new species of the genus Scutiger Baeticoniscus carmonaensis sp. nov. a new Isopod found in an underground aqueduct from the Roman period located in Southwest Spain (Crustacea, Isopoda, Trichoniscidae) A new species of supergiant Bathynomus Giant ‘Darth Vader’ sea bug discovered off the coast of Vietnam A New Species of easter egg weevil Bizarre ‘bone collector’ caterpillar discovered by UH scientists Researchers Discover ‘Death Ball’ Sponge and Dozens of Other Bizarre Deep-Sea Creatures in the Southern Ocean 1,500th Bat Species Discovered in Africa’s Equatorial Guinea Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about some animals discovered in 2025! We’ll also make this our corrections episode. This is the last new episode we’ll have until the end of August when we reach our 500th episode, but don’t worry, until then there will be rescheduled Patreon episodes every single week as usual. We’ll start with some corrections. Shortly after episode 452 was published in September, where we talked about the swamp wallaby and some other animals, Stephen emailed to point out that I’d made a major mistake! In that episode I said that not all animals called wallabies were actually members of the family Macropodidae, but that’s actually not the case. All wallabies are macropodids, but they aren’t all members of the same genus in that family. I corrected the episode but I wanted to mention it here too so no one is confused. Stephen also caught another mistake in episode 458, which is embarrassing. I mentioned that marsupials didn’t just live in Australia, they were found all over the world. That’s not actually the case! Marsupials are found in North and South America, Australia, New Guinea and nearby areas, and that’s it. They were once also found in what is now Asia, but that was millions of years ago. So I apologize to everyone in Africa, Asia, and Europe who were excited about finding out what their local marsupials are. You don’t have any, sorry. One update that Aryeh asked about specifically is an animal we talked about in episode 445, salinella. Aryeh emailed asking for more information if I could find any, because it’s such a fascinating mystery! I looked for some more recent findings, unfortunately without luck. I do have an article linked in the show notes that goes into detail about everything we covered in that episode, though, dated to mid-January 2026, and it’s a nice clear account. Now, let’s get into the 2025 discoveries! There are lots more animals that were discovered last year, but I just chose some that I thought were especially interesting. Mostly I chose ones that I thought had funny names. Let’s start with three new species of frog in the genus Scutiger. Species in this genus are called lazy toads and I couldn’t find out why. Maybe they don’t like to move around too much. Lazy toads live in mountains in some parts of Asia, and we don’t know very much about most of the 31 species described so far. Probably the most common lazy toad is the Sikkim lazy toad that lives along high altitude streams in the Himalaya Mountains. It’s mottled greenish-brown and yellowish in color with lots of warts, and while its feet have webbed toes, it doesn’t have webbed fingers on its little froggy hands. This is your reminder that every toad is a frog but not every frog is a toad. The Sikkim lazy toad grows about two and a half inches long, or about 65 mm, from nose to butt. It seems to be pretty average for a lazy toad. The three new species of lazy toad are found in Yunnan Province in China, in a mountainous region where several species of lazy toad were already known. Between 2021 and 2024, a team of scientists collected 27 lazy toads from various places, then carefully examined them to see if they were species already known to science. This included genetic analysis. The team compared their findings with other lazy toad species and discovered that not all of the specimens matched any known species. Further comparison with each other revealed that the team had discovered three new species, which they described in December of 2025. Next, isopods are common crustaceans that live throughout the world. You have undoubtedly seen at least one species of isopod, because an animal with lots of common names, including woodlouse, pill bug, roly-poly, and sowbug, is a terrestrial isopod. That’s right, the roly-poly is not a bug or a centipede but a crustacean. The order Isopoda contains more than 10,000 species, and there are undoubtedly thousands more that haven’t been discovered by scientists yet. About half the species discovered so far live on land and the other half live in water, most in the ocean but some in

Thanks to Aila, Stella, George, Richard from NC, Emilia, Emerson, and Audie for their suggestions this week! Further reading: Creature Feature: Snipe Eel How removing a dam could save North Carolina’s ‘lasagna lizard’ Why Has This North Carolina Town Embraced a Strange Salamander? Scentists search for DNA of an endangered salamander in Mexico City’s canals An X-ray of the slender snipe eel: The head and body of a slender snipe eel. The rest is tail [picture by opencage さん http://ww.opencage.info/pics/ – http://ww.opencage.info/pics/large_17632.asp, CC BY-SA 2.5, https://commons.wikimedia.org/w/index.php?curid=26595467]: The hellbender: A wild axolotl with its natural coloration: A captive bred axolotl exhibiting leucism: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to talk about some amphibians and fish. Thanks to Aila, Stella, George, Richard from NC, Emilia, Emerson, and Audie for their suggestions! We’ll start with Audie’s suggestion, the sandbar shark. It’s an endangered shark that lives in shallow coastal water in the Atlantic and Indo-Pacific Oceans. A big female can grow over 8 feet long, or 2.5 meters, while males are smaller on average. It can be brown or gray in color, and its dorsal fin is especially big for a shark its size. The sandbar shark eats fish, crustaceans like crabs, cephalopods like octopuses, and other small animals. It spends a lot of time near the bottom of the seabed, looking for food, and it will also swim into the mouths of rivers. Since it resembles a bull shark, which can live just fine in rivers for quite a while and which can be dangerous to swimmers, people are sometimes afraid of the sandbar shark, but it hardly ever bites people. It just wants to be left alone to find little fish to eat. Emilia and Emerson both asked to learn more about eels. Eels are fish, but not every animal that’s called an eel is actually an eel. Some are just eel-shaped, meaning they’re long and slender. Electric eels aren’t actually eels, for instance, but are more closely related to catfish. The longest eel ever reliably measured was a slender giant moray. That was in 1927 in Queensland, Australia. The eel measured just shy of 13 feet long, or 3.94 meters. We talked about some giant eels in episode 401, but this week let’s talk about a much smaller eel, one that Emerson suggested. That’s the snipe eel, the name for a family of eels consisting of nine species known so far. They live in every ocean in the world, and some species are deep-sea animals but most live a little nearer the surface. The largest species can grow an estimated 5 feet long, or 1.5 meters, but because all species of snipe eel are so incredibly thin, even the longest individual weighs less than a football, either American or regular, take your pick. The snipe eel gets its name from its mouth, which is long and slightly resembles the beak of a bird called the snipe. The snipe is a wading bird that pokes its long, flexible bill into mud to find small animals like insect larvae, worms, and snails. But unlike the bird’s bill, the snipe eel’s jaws have a bend at the tip. The upper jaw bends upward, the lower jaw bends downward so that the tip of the jaws are separated. It doesn’t look like that would be very helpful for catching food, but scientists think it helps because the fish’s mouth is basically always open. Since it mainly eats tiny crustaceans floating in the water, it doesn’t even need to open its mouth to catch food. It has tiny teeth along the jaws that point backwards, so when a crustacean gets caught on the teeth, it can’t escape. The slender snipe eel is especially unusual because it can have as many as 750 vertebrae in its backbone. That’s more than any other animal known. Most of its length is basically just an incredibly long, thin tail, with its organs bunched up right behind its head. Even its anus is basically on its throat. We don’t know a whole lot about the snipe eel, since it lives deep enough that it’s hardly ever seen by humans. Most of the specimens discovered have been found in the stomachs of larger fish. Now, let’s leave the world of fish behind and look at some amphibians. First, George wanted to learn about the hellbender, and points out that it’s also called the snot otter or lasagna lizard. I don’t understand the lasagna part but it’s funny. The hellbender is a giant salamander that lives in parts of the eastern United States, especially in the Appalachian Mountains and the Ozarks. It can grow nearly 30 inches long, or 74 cm, and is the fifth heaviest amphibian alive today in the whole world. It spends almost all its life in shallow, fast-moving streams hiding among rocks. As water rushes over and around rocks, it absorbs more oxygen, which is good for the hellbender because as an adult it breathes through its skin. To increase its surface area and help it absorb that much more oxygen, its skin is loose and has folds along the s

Thanks to Conner, Tim, Stella, Cillian, Eilee, PJ, and Morris for their suggestions this week! Further reading: Extinct Hippo-Like Creature Discovered Hidden in Museum: ‘Sheer Chance’ The golden lion tamarin has very thin fingers and sometimes it’s rude: The golden lion tamarin also has a very long tail: The cotton-top tamarin [picture by Chensiyuan – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=153317160]: The pangolin is scaly: The pangolin can also be round: The East Siberia lemming [photo by Ansgar Walk – Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=52651170]: An early painting of a mammoth: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to look at some mammals suggested by Conner, Tim, Stella, Cillian, Eilee, PJ, and Morris. Let’s jump right in, because we have a lot of fascinating animals to learn about! We’ll start with suggestions by Cillian and Eilee, who both suggested a monkey called the tamarin. Tamarins live in Central and South America and there are around 20 species, all of them quite small. Cillian specifically suggested the golden lion tamarin, an endangered species that lives in a single small part of Brazil. It has beautiful golden or orange fur that’s longer around the face, like a lion’s mane but extremely stylish. Its face is bare of fur and is gray or grayish-pink in color, with dark eyes and a serious expression like it’s not sure where it left its wallet. It grows about 10 inches long, or 26 cm, not counting its extremely long tail. The golden lion tamarin spends most of its time in trees, where it eats fruit, flowers, and other plant material, along with eggs, tree frogs, insects, and other small animals. It has narrow hands and long fingers to help it reach into little tree hollows and crevices where insects are hiding, but if it can’t reach an insect that way, it will use a twig or other tool to help. The golden lion tamarin lives in small family groups, usually a mated pair and their young children. A mother golden lion tamarin often has twins, sometimes triplets, and the other members of her family help take care of the babies. Because the golden lion tamarin is endangered, mainly due to habitat loss, zoos throughout the world have helped increase the number of babies born in captivity. When it’s safe to release them into the wild, instead of only releasing the young tamarins, the entire family group is released together. Eilee suggested the cotton-top tamarin, which lives in one small part of Colombia. It’s about the same size as the golden lion tamarin, but is more lightly built and has a somewhat shorter tail. It’s mostly various shades of brown and tan with a dark gray face, but it also has long white hair on its head. Its hair sticks up and makes it look a little bit like those pictures of Einstein, if Einstein was a tiny little monkey. Like the golden lion tamarin, the cotton-top tamarin lives in small groups and eats both plant material and insects. It’s also critically endangered due to habitat loss, and it’s strictly protected these days. Next, both Tim and Stella suggested we learn about the pangolin. There are eight species known, which live in parts of Africa and Asia. 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 uses its big front claws to dig into termite mounds and ant colonies. It has poor vision but a good sense of smell. Some species of pangolin live in trees and spend the daytime sleeping in a hollow tree. Other species live on the ground and dig deep burrows to sleep in during the day. It’s a solitary animal and just about the only time adult pangolins spend time together is when a pair comes together to mate. Sometimes two males fight over a female, and they do so by slapping each other with their big tails. Unfortunately for the pangolin, its scales make it sought after by humans for decoration. People also eat pangolins. Habitat loss is also making it tough for the pangolin. All species of pangolin in Asia are endangered or critically endangered, while all species of pangolins in Africa are vulnerable. Pangolins also don’t do well in captivity so it’s hard for zoos to help them. Next, Conner wants to learn about the lemming, a rodent that’s related to muskrats and voles. Lots of people think they know one thing about the lemming, but that thing isn’t true. We’ll talk about it in a minute. The lemming grows up to 7 i

Thanks to Audie, Katie, Eilee, Emily, Maryjane, and Dylan for their suggestions this week! Sorry this episode is late–the site was down. 🙁 Further reading: Bobolinks A frill-neck lizard showing off: A bobolink: The great-eared nightjar [picture by Venkata Shreeram Mallimadugula, taken from this site]: Another great-eared nightjar [Picture by Nigel Voaden from UK – Great Eared-Nightjar, Tangkoko, Sulawesi, CC BY-SA 2.0, https://commons.wikimedia.org/w/index.php?curid=39857392]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have an episode about some birds and reptiles. Thanks to Audie, Katie, Eilee, Emily, Maryjane, and Dylan for their suggestions! If this episode showed up later than usual in the podcast feed, it’s because I’ve been having trouble with the website and couldn’t get it uploaded until it was fixed. We’ll kick off the episode with an animal that can’t kick, because snakes don’t have any legs. Audie suggested we learn about the scaleless rat snake, which means that first we have to learn about the rat snake, the ordinary one with scales. Rat snakes are constrictors and are common throughout many parts of Asia, Europe, North America, and the Middle East, and they’re called rat snakes because they eat rats and other small animals like lizards, frogs, and baby birds. Rat snakes are popular pets because they’re so pretty and they aren’t dangerous to humans. Different species are different colors and patterns, and the rhinoceros rat snake, also called the Vietnamese longnose snake, even has a little hornlike projection on the tip of its nose that points forward. I’m pretty sure we’ve talked about that particular rat snake before on the podcast, but I can’t look up which episode because the website is down. Most rat snakes don’t grow much bigger than 5 feet long, or 1.5 meters, but a few species can get longer than that. The black rat snake, which lives in North America, can grow over 8 feet long, or more than 2.5 meters. It’s black with small white markings on the head, but snakes bred for sale as pets are sometimes white all over or partially white, or even albino, meaning an individual has a mutation where its body doesn’t produce pigment. Pet black rat snakes are also bred that don’t have scales. That brings us to the scaleless rat snake. It’s an ordinary rat snake but it has a mutation that causes it to have very few scales. This is a mutation that happens occasionally in the wild since it’s a recessive trait, and while it can make the snake a little more vulnerable to injury, scaleless snakes can survive just fine in the wild. They do have belly scales like a normal snake, which are the ones that allow them to move around, and they may have a scattering of scales on other parts of the body too. A scaleless snake still sheds its skin once a year like an ordinary snake, since it’s actually the outer layer of skin that sheds along with the scales. Scaleless rat snakes are popular as pets because they’re so soft and because their coloration is usually very bright. A snake’s coloration comes from pigments in its skin. A snake’s scales are actually transparent, so without a layer of scales, a scaleless snake looks even more colorful than a regular snake. Many species of snake have been found in the wild that are scaleless, but it seems to be a little more common in rat snakes. Next, Dylan and Emily wanted to learn about the frill-neck lizard, which is found in northern Australia and the very southern part of New Guinea. It’s a big lizard that can grow almost three feet long, or 90 cm, including its incredibly long tail. Males are larger than females on average, with a bigger frill. The frill is a flap of skin around the head and neck, and most of the time it’s folded back over the neck and shoulders so it’s not that noticeable. The lizard is pretty ordinary-looking that way, just a big gray or brown animal with a big head. But when the lizard feels threatened, or if it comes across another frill-neck lizard, it can extend the frill by moving the small bones and cartilage that act as struts, which also requires the lizard to open its mouth. When extended, the frill is as much as a foot across, or 30 cm, and it’s marked with bright colors. Different individuals have different colored frills, red, orange, yellow, or white, or a mixture of colors and patterns. The size and color of the frill opening up so quickly will often startle a potential predator, allowing the lizard to escape. The frill-neck lizard can even run on two legs if it needs to, although it has to run with its head pointing straight up in the air. The frill-neck lizard mostly eats insects, especially termites. It spends most of its time in trees and some people believe it can use its frill as a parachute, but that doesn’t actually seem to be the case. Let’s move on to a few birds next. Maryjane suggested we learn about the bobolink, a type of blackbird native to the Americas. In s

Here’s the big invertebrate episode I’ve been promising people! Thanks to Sam, warbrlwatchr, Jayson, Richard from NC, Holly, Kabir, Stewie, Thaddeus, and Trech for their suggestions this week! Further reading: Does the Spiral Siphonophore Reign as the Longest Animal in the World? The common nawab butterfly: The common nawab caterpillar: A velvet worm: A giant siphonophore [photo by Catriona Munro, Stefan Siebert, Felipe Zapata, Mark Howison, Alejandro Damian-Serrano, Samuel H. Church, Freya E.Goetz, Philip R. Pugh, Steven H.D.Haddock, Casey W.Dunn – https://www.sciencedirect.com/science/article/pii/S1055790318300460#f0030]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Hello to 2026! This is usually where I announce that I’m going to do a series of themed episodes throughout the coming year, and usually I forget all about it after a few months. This year I have a different announcement. After our nine-year anniversary next month, which is episode 470, instead of new episodes I’m going to be switching to old Patreon episodes. I closed the Patreon permanently at the end of December but all the best episodes will now run in the main feed until our ten-year anniversary in February 2027. That’s episode 523, when we’ll have a big new episode that will also be the very last one ever. I thought this was the best way to close out the podcast instead of just stopping one day. The only problem is the big list of suggestions. During January I’m going to cover as many suggestions as I possibly can. This week’s episode is about invertebrates, and in the next few weeks we’ll have an episode about mammals, one about reptiles and birds, and one about amphibians and fish, although I don’t know what order they’ll be in yet. Episode 470 will be about animals discovered in 2025, along with some corrections and updates. I hope no one is sad about the podcast ending! You have a whole year to get used to it, and the old episodes will remain forever on the website so you can listen whenever you like. All that out of the way, let’s start 2026 right with a whole lot of invertebrates! Thanks to Sam, warbrlwatchr, Jayson, Richard from NC, Holly, Kabir, Stewie, Thaddeus, and Trech for their suggestions this week! Let’s start with Trech’s suggestion, a humble ant called the weaver ant. It’s also called the green ant even though not all species are green, because a species found in Australia is partially green. Most species are red, brown, or yellowish, and they’re found in parts of northern and western Australia, southern Asia, and on most islands in between the two areas, and in parts of central Africa. The weaver ant lives in trees in tropical areas, and gets the name weaver ant because of the way it makes its nest. The nests are made out of leaves, but the leaves are still growing on the tree. Worker ants grab the edge of a leaf in their mandibles, then pull the leaf toward another leaf or sometimes double the leaf over. Sometimes ants have to make a chain to reach another leaf, with each ant grabbing the next ant around the middle until the ant at the end of the chain can grab the edge of a leaf. While the leaf is being pulled into place alongside the edge of another leaf, or the opposite edge of the same leaf, other workers bring larvae from an established part of the nest. The larvae secrete silk to make cocoons, but a worker ant holds a larva at the edge of the leaf, taps its little head, and the larva secretes silk that the workers use to bind the leaf edges together. A single colony has multiple nests, often in more than one tree, and are constantly constructing new ones as the old leaves are damaged by weather or just die off naturally. The weaver ant mainly eats insects, which is good for the trees because many of the insects the ants kill and eat are ones that can damage trees. This is one reason why farmers in some places like seeing weaver ants, especially fruit farmers, and sometimes farmers will even buy a weaver ant colony starter pack to place in their trees deliberately. The farmer doesn’t have to use pesticides, and the weaver ants even cause some fruit- and leaf-eating animals to stay away, because the ants can give a painful bite. People in many areas also eat the weaver ant larvae, which is considered a delicacy. Our next suggestion is by Holly, the zombie snail. I actually covered this in a Patreon episode, but I didn’t schedule it for next year because I thought I’d used the information already in a regular episode, but now I can’t find it. So let’s talk about it now! In August of 2019, hikers in Taiwan came across a snail that looked like it was on its way to a rave. It had what looked like flashing neon decorations in its head, pulsing in green and orange. Strobing colors are just not something you’d expect to find on an animal, or if you did it would be a deep-sea animal. The situation is not good for the snail, let me tell you. It’s due to a parasitic flatwor

Thanks to Holly for suggesting this week’s topic! Further reading: Mermaids: Myth, Kith and Kin [this article is not for children] Feejee Mermaid A manatee: A female grey seal, looking winsome: A drawing of the “original” Fiji (or Feejee) mermaid: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Let’s close out the year 2025 with a mystery episode! Holly suggested we talk about mermaids! Mermaids are creatures of folklore who are supposed to look like humans, but instead of legs they have fish tails. These days mermaids are usually depicted with a single tail, but it was common in older artwork for a mermaid to be shown with two tails, which replaced both legs. Not all mermaids were girls, either. Mermen were just as common. Cultures from around the world have stories about mermaid-like individuals. Sometimes they’re gods or goddesses, like the Syrian story of a goddess so beautiful that when she transformed into a fish, only her legs changed, because her upper half was too beautiful to alter, or the Greek god Triton, who is usually depicted as a man with two fish tails for legs. Sometimes they’re monsters who cause storms, curse ships, or lure sailors to their doom. Sometimes they can transform into humans, like the story from Madagascar about a fisherman who catches a mermaid in his net. She transforms into a human woman and they get married, but when he breaks a promise to her, she turns back into a mermaid and swims away. In 2012, a TV special aired on Animal Planet that claimed that mermaids were real, and a lot of people believed it. It imitated the kind of real documentaries that Animal Planet often ran, and the only disclaimer was in the credits. I remember how upset a lot of people were about it, especially teachers and scientists. So just to be clear, mermaids aren’t real. Many researchers think at least some mermaid stories might be based on real animals. The explorer Christopher Columbus reported seeing three mermaids in 1493, but said they weren’t as beautiful as he’d heard. Most researchers think he actually saw manatees. A few centuries later, a mermaid was captured and killed off the coast of Brazil by European scientists, and the careful drawings we still have of the mermaid’s hand bones correspond exactly to the bones of a manatee’s flipper. Female manatees are larger than males on average, and a really big female can grow over 15 feet long, or 4.6 meters. Most manatees are between 9 and 10 feet long, or a little less than 3 meters. Its body is elongated like a whale’s, but unlike a whale it’s slow, usually only swimming about as fast as a human can swim. Its skin is gray or brown although often it has algae growing on it that helps camouflage it. The end of the manatee’s tail looks like a rounded paddle, and it has front flippers but no rear limbs. Its face is rounded with a prehensile upper lip covered with bristly whiskers, which it uses to find and gather water plants. The manatee doesn’t look a lot like a person, but it looks more like a person than most water animals. It has a neck and can turn its head like a person, its flippers are fairly long and resemble arms, and females have a pair of teats that are near their armpits, if a manatee had armpits, which it does not. But that’s close enough for Christopher Columbus to decide he was seeing a mermaid. Seals may have also contributed to mermaid stories. In Scottish folklore, the selkie is a seal that can transform into human shape, usually by taking off its skin. There are lots of stories of people who steal the selkie’s skin and hide it so that the selkie will marry the person—because selkies are beautiful in their human form. Eventually the selkie finds the hidden skin and returns to the sea. Similar seal-folk legends are found in other parts of northern Europe, including Sweden, Iceland, Norway, and Ireland. Many of the stories overlap with mermaid stories. Seals do have appealing human-like faces, have clawed front flippers that sort of resemble arms, and have rear flippers that are fused to act like a tail, even if it doesn’t look much like a fish tail. The grey seal is a common animal off the coast of northern Europe, and a big male can grow almost 11 feet long, or 3.3 meters, although 9 feet is more common, or 2.7 meters. It has a large snout and no external ear flaps. Males are dark grey or brown, females are more silvery in color. It mainly eats fish, but will also eat other animals, including crustaceans, octopuses, other seals, and even porpoises. While I don’t think it has anything to do with the mermaid or selkie legends, it is interesting to note that seals are good at imitating human voices. We learned about this in episode 225, about talking mammals. For instance, Hoover the talking seal, a harbor seal from Maine who was raised by a human after his mother died. Imagine if you were walking along the shore and a seal said this to you: [Hoover the talking seal saying “Hey g

Thanks to Emily, Jo, and Alexandra for their suggestions this week! Further reading: Highland Cattle Society Mongolian Sheep The Donkey Sanctuary The Highland cow is so cute (picture taken from the first site linked above): Some fat-tailed sheep (picture taken from the sheep article linked above): Donkeys: A happy donkey and a happy person (photo taken from the Donkey Sanctuary’s site, linked above): Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. After last week’s giant fish episode, this week we’re going to have a shorter episode of animals you’ve probably seen, especially if you live in the countryside. But first, I forgot to credit two people from last week’s episode, Dylan and Emily, who both wanted to hear about mudskippers along with Arthur! I had so many names I missed some. This week we’ll talk about some domestic mammals, suggested by Alexandra, Jo, and Emily. Let’s start with Emily’s suggestion, the Highland cow. Cows are classified in the family Bovidae, which includes not just the domestic cow and its relations but goats, sheep, antelopes, and many other animals with cloven hooves who chew the cud as part of the digestive process–but not deer or giraffes, and not the pronghorn even though people call it an antelope. It is confusing. Many bovids have horns, usually only two but sometimes four or even six, and those horns are never branched. Sometimes only the male has horns, sometimes both the male and female. Bovids don’t have incisors in the front of the upper jaw, only in the lower jaw. Instead, a bovid has a tough dental pad that helps it grab plants. The Highland cow is a breed of domestic cow that originated in Scotland, although it’s now popular in many other places too. It’s a tough animal with a long outer coat of fur and a short, fuzzy undercoat that helps it survive harsh winters. Most are reddish-brown, but some are black, silvery-white, dun, or other shades. It has long, wide horns and its long fur usually falls over its face, which protects its eyes and also looks incredibly cute. Not only can the Highland cow thrive on pasture that’s considered poor, meaning the plants aren’t as nutritious, it’s also disease resistant, even-tempered, and intelligent. It’s a compact, relatively small cow, but it’s not a miniature cow. Like, you can’t pick it up like a dog, although you could probably hug one if the farmer says it’s okay. A bull can stand about 5 feet tall at the shoulder, or 1.5 meters, while cows are smaller overall. The Highland cow is raised for its meat, which is naturally lean and delicious. But because they also happen to be small for cows, and so even-tempered, and so cute, many small farms and petting zoos keep a few just as pets. Since the Highland cow likes eating plants that other cow breeds won’t touch, it’s also helpful for clearing overgrown land. Next, Alexandra wanted to learn more about the fat-tailed sheep, another bovid. The sheep is one of the oldest domesticated animals in the world, with some experts estimating that it was first domesticated at least 11,000 years ago and possibly over 13,000 years ago, around Asia and the Middle East. 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. The fat-tailed sheep isn’t a single breed but a type of sheep, most common in central Asia, northern Africa, and the Middle East. It’s adapted for life in arid conditions, where there isn’t a lot of water. The fat deposits on both sides of the tail act like a camel’s hump, allowing the animal to absorb the stored fat if it can’t find enough food and water. The fat-tailed sheep can have a really huge tail, so big it can make up almost a third of its body weight. Because the fat mostly collects on either side of the tail bones, the tail’s shape has two lobes, which makes the sheep look like it has an extra butt on its butt. In some breeds, the tail gets wider as the fat deposits grow, while in other breeds, the tail just gets longer, sometimes so long it actually brushes the ground. The tail fat helps the sheep, but it’s also considered a delicacy to people. Wherever the fat-tailed sheep is raised, there are special recipes to cook the tail. Many breeds of fat-tailed sheep also produce long, coarse wool that’s used to make carpets and felt. We’ll finish with Jo’s suggestion, the domestic donkey. Donkeys are equids, and instead of cloven hooves like bovids, they have solid hooves. They’re closely related to horses and zebras, and more distantly related t

It’s an episode just absolutely full of fish! Thanks to Arthur, Yuzu, Jayson, Kabir, Nora, Siya, Joel, Elizabeth, Mac, Ryder, Alyx, Dean, and Riley for their suggestions this week! Further reading: Study uncovers mechanics of machete-like ‘tail-whipping’ in thresher sharks Business end of a sawfish: Giant freshwater stingray! The frilled shark looks like an eel: The frilled shark’s teeth: The thresher shark and its whip-like tail [photo by Thomas Alexander – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=50280277]: The Halmahera epaulette shark, looking a little bit like a long skinny koi fish [photo by Mark Erdmann, California Academy of Sciences, Attribution, https://commons.wikimedia.org/w/index.php?curid=30260864]: A mudskipper, which is a fish even though it kind of looks like a weird frog [photo by Heinonlein – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=44502355]: The red-lipped batfish wants a big kiss: The male blue groper is very blue [photo by Andrew Harvey, some rights reserved (CC BY) – https://www.inaturalist.org/photos/62196538, CC BY 4.0, https://commons.wikimedia.org/w/index.php?curid=157789928]: The giant oarfish is very long: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a big fish episode! I mean, it’s a big episode about a lot of different fish, not necessarily fish that are big—although some of them sure are! Thanks to Arthur, Yuzu, Jayson, Kabir, Nora, Siya, Joel, Elizabeth, Mac, Ryder, Alyx, Dean, and Riley. I told you this is a big fish episode. Let’s jump right in with a fish suggested by Jayson, the sawfish. There are five species of sawfish alive today. The smallest 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. 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 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 most sharks: 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. Since the sawfish has plenty of teeth in its mouth, you may be wondering how and why it also has extra teeth on both sides of its saw. It’s because the rostral teeth evolved from dermal denticles. Dermal denticles look like scales but they’re literally teeth, they’re just not used for eating. Sharks have them too, along with some other fish. In the case of the sawfish, the rostral teeth grow much larger than an ordinary dermal denticle, and stick out sideways. Both the rostrum and the head are packed with electroreceptors that allow the sawfish to sense tiny electrical charges that animals emit as they move. This might mean a school of fish swimming through muddy water, or it might mean a crustacean hiding in the sand. The sawfish sometimes uses its rostrum to dig prey out of the sand, but it also uses it to slash at fish or other animals. Then the sawfish can either grab the injured or dead animal with its mouth or pin it to the sea floor with its rostrum to maneuver it into its mouth. Its mouth is relatively small and it prefers to swallow its food whole, head-first, so it can only eat fish that are smaller than its mouth. That’s also why it doesn’t want to eat people. Its mouth is too small. Yuzu wanted to learn about another shark relation, the giant freshwater stingray, which lives in rivers in southeast Asia. It’s dark gray-brown on its back and white underneath, and it has a little pointy nose at the front of its disc. It also has dermal denticles on its back. The giant freshwater stingray has a rounded, flattened body, and it’s really big. A big female can grow over 7 feet across, or 2.2 meters. Its tail is long and thin with the largest spine of any stingray known, up to 15 inches long, or 38 cm. Its tail is so long that if you measure the giant freshwater stingray by length including its tail, instead of by width of its disc, it can be as much as 16 feet long, or about 5 met

Thanks to Måns, Sam, Owen and Askel for this week’s suggestions! Further reading: Shingleback Lizard What controls the colour of the common mānuka stick insect? The mossy leaf-tailed gecko has skin flaps that hide its shadow. There’s a lizard in this photo, I swear! [photo by Charles J. Sharp – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=92125100]: A shingleback lizard, pretending it has two heads: The beautiful wood nymph is a beautiful moth but also it looks like a bird poop: The Indian stick insect (photo by Ryan K Perry, found on this page): The buff tip moth mimics a broken-off stick. This person has a whole handful of them: A cuttlefish can change colors quickly [photo by Σ64 – Own work, CC BY 4.0, https://commons.wikimedia.org/w/index.php?curid=77733806]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to talk about a few types of camouflage, a suggestion by Måns, and we’ll also talk about some camouflaged animals suggested by Sam, Owen and Aksel, Dylan, and Nina. There are lots of types of camouflage, not all of it visual in nature. Back in episode 191 we talked about some toxic moths that generate high-pitched clicks that bats hear, recognize, and avoid. Naturally, some non-toxic moths also generate the same sounds to mimic the toxic moths. Måns specifically suggested cryptic coloration, also called crypsis. It’s a type of camouflage that allows an animal to blend into their surroundings, which can involve multiple methods. Some animals have cryptic coloration mainly along the edges of the body, to defeat a skill many predators use called edge detection. A lot of amphibians and reptiles have patches surrounded by an outline, with dark patches having a darker outline and light patches having a lighter outline. This acts as disruptive camouflage, hiding the outline of an animal’s body as it moves around. Some animals take this camouflage even further, with a way to hide their own shadow. This is the case with the mossy leaf-tailed gecko, which is native to the forests of eastern Madagascar. It can grow up to 8 inches long, or 20 cm, not counting its tail, and it’s nocturnal. Its tail is flat and broad, sort of shaped like a leaf, but it doesn’t disguise itself as a leaf. The mossy leaf-tailed gecko has a complicated gray and brown pattern that looks like tree bark, and it can change its coloration a little bit to help it blend in even more. At night it’s well hidden in tree branches as it climbs around looking for insects, but in the day it needs to hide really well to avoid becoming some other animal’s snack while it’s sleeping. It does this by finding a comfortable branch and flattening its body and tail against it so that it just looks like another part of the branch. But to make it even more hidden, it has a flap of skin along its sides that wraps even farther around the branch. Not only do these skin flaps hide its edges, it hides its shadow, since the flaps are really flat and there’s no curved edge of a lizard belly pressed against a branch that a predator might notice. The most common kind of cryptic coloration is called countershading, and it’s so common that you might not even have noticed it although you see it almost every time you see a fish, amphibian, reptile, and many birds and mammals. Countershading is an animal that’s darker on top and lighter underneath, like a brown mouse with a white belly. It’s even found in some insects and other invertebrates. Countershading is another way to hide a shadow. If a dolphin, for instance, was gray all over, its underside would look darker because of shadows, since sunlight shines down from the sky and makes shadows underneath the body. That would make its body shape look rounder, meaning it stands out more and a predator would notice it more easily. But most dolphins are pale gray or even white underneath. There’s still a shadow, but it’s no longer darker than the rest of the body. The lighter colored underside makes the shadow paler, and as a result, from a distance the dolphin looks almost the same shade all over, which makes it appear flat and the edges of its body harder to see. We even know that some dinosaurs were countershaded, with lighter colored bellies. Countershading is so common in animals that it’s almost impossible to pick one example. Dylan suggested we learn about the shingleback lizard, an amazing animal found in many parts of Australia. It’s also called the stumpy-tailed lizard, the bobtail lizard, or the two-headed lizard. All three of those names refer to the animal’s tail, which is short and fat and actually looks like a second head. This is an example of automimicry, similar to animals that have markings that look like eyes. The lizard is brown with darker and lighter speckles and it sometimes has yellow spots too. Its belly is pale with dark spots. Its scales are large and overlap each other, and its eyes are tiny, like

Further reading: Study: Giant Therizinosaurs Used Their Meter-Long, Sickle-Like Claws for Display Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. I am delighted to report that Therizinosaurus lived in what is now Mongolia in Central Asia, in the Gobi Desert. 70 million years ago, the land wasn’t a desert at all but a forest with multiple rivers and streams flowing through it. Lots of other dinosaurs and birds lived in the area, including a tyrannosaurid called Tarbosaurus that was probably the only predator big enough to kill Therizinosaurus. When the first Therizinosaurus fossils were discovered in the 1950s, they were initially thought to belong to a type of giant turtle. Later it was reclassified as a sauropod relation, not a turtle. These days, we know for sure it’s not a turtle and we’re pretty sure it’s not anything like a sauropod. The Therizinosaurus fossils found so far are incomplete. All we have are some ribs, one hind foot, and mostly complete arms and hands. We don’t have any parts of the skull or any vertebrae, so paleontologists still have a lot of questions about what Therizinosaurus looked like and how it lived, although we have more complete specimens of some of its close relations to help scientists make good guesses. Luckily we have its hands, because its claws are enormous. Therizinosaurus had claws bigger than any other dinosaur known. Therizinosaurus was a big dinosaur overall, with an estimated length of 33 feet, or 10 meters, although until a more complete specimen is discovered we can’t know for sure how big it really was. It may have stood up to 16 feet tall, or 5 meters, and walked on its hind legs. It’s classified as a theropod these days, a group that includes famous dinosaurs like T. rex and Spinosaurus, but it wasn’t closely related to those big fast meat-eaters. Most paleontologists think Therizinosaurus ate plants, but again, we don’t know for sure since we don’t have any of its teeth to examine. Its closest relatives were herbivorous but its immediate ancestors were carnivorous. If Therizinosaurus was a plant-eater, why did it have such enormous claws? Its claws were seriously terrifying! Its arms were big and strong in general, measuring about 8 feet long, or 2.5 meters, including long, slender fingers, and the claws measured over three feet long! That’s more than a meter long. If the claws were covered with a keratin sheath, which is probable, they would have been even longer when Therizinosaurus was alive. They were relatively thin and straight with a curve at the end. There are many reasons why an animal develops big claws. Predators need claws to help grab prey or tear meat into pieces, or an animal may need big claws to help it dig or climb trees. Claws are also great for defense. Some animals use claws to grab tree branches and bend them closer to the animal’s mouth, which is something that giant ground sloths probably did, at least sometimes. The new study published in February 2023 examined the claws of Therizinosaurus and lots of other dinosaurs to learn how strong they were. The claws were 3D scanned, and then the scans were used in various models that measured the stress placed on each claw in various different activities. The study discovered that the claws of different dinosaurs were strong in different ways depending on what they were used for, which wasn’t a surprise. What was a surprise was that Therizinosaurus’s claws were weak no matter which model the scientists used. In other words, Therizinosaurus probably didn’t use its claws to fight other dinosaurs unless it just had to, because they would break too easily. It wouldn’t have dug with its claws or even used them to hook branches down closer to its mouth. As far as we can tell, its claws were basically useless. But obviously, Therizinosaurus used its claws for something or it wouldn’t have evolved to have such gigantic claws. The study concluded that the giant claws must have been for display, to attract a mate or maybe just scare off potential predators. Lots of animals have special features used to attract a mate, like a peacock’s tail. Sometimes these features serve a double purpose, like a male deer’s antlers. The size of the antlers show how healthy he is, and he also uses them to fight other males. I’m not a claw expert, but as far as I know there aren’t any other animals known that use their claws for display only. It’s possible that Therizinosaurus did use its claws for something else, we just don’t know what. It’s also possible that the study had flaws that a follow-up study will discover, and Therizinosaurus’s claws weren’t actually so weak. But for now, as far as we know, during mating season Therizinosaurus would strut around waving its super-long claws to show how amazing it was. And, let’s face it, Therizinosaurus really was amazing. Thanks for your support, and thanks for listening!

Further reading: Mysterious ‘blue goo’ at the bottom of the sea stumps scientists Three new species of ground snakes discovered under graveyards and churches in Ecuador Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. I’ve come down a cold this week, and while I’m feeling better, it is settling into my chest as usual and I’m starting to cough. Since I’m still recovering and need to be in bed instead of sitting up researching animals, and since my voice is already sounding a little rough, here’s a Patreon episode this week instead of a regular episode. I had been planning to run old Patreon episodes for a few weeks in December so I could have some time off for the holidays, and those were already scheduled, so I just moved one of those episodes up to use this week instead. This is a Patreon episode from October of 2022, where we talked about two very slightly spooky animal discoveries. We’ll start with a suggestion from my brother Richard, about a strange newly discovered creature at the bottom of the ocean. On August 30, 2022, the NOAA Ocean Exploration research team was off the coast of Puerto Rico. That’s in the Caribbean, part of the Atlantic Ocean. The expedition was mostly collecting data about the sea floor, including acoustic information and signs of climate change and habitat destruction. Since the Caribbean is an area of the ocean with high biodiversity but also high rates of fishing and trawling, the more we can learn about the animals and plants that live on the sea floor, the more we can do to help protect them. When a remotely operated vehicle dives, it sends video to a team of scientists who can watch in real time and control where the rover goes. On this particular day, the rover descended to a little over 1,300 feet deep, or around 407 meters, when the sea floor came in view. Since this area is the site of an underwater ridge, the sea floor varies by a lot, and the rover swam along filming things and taking samples of the water and so forth, sometimes as deep as about 2,000 feet, or 611 meters. The rover saw lots of interesting animals, including fish and corals of various types, even a fossilized coral reef. Then it filmed something the scientists had never seen before. It was a little blue blob sitting on the sea floor. It wasn’t moving and it wasn’t very big. It was shaped roughly like a ball but with little points or pimples all over it and a wider base like a skirt where it met the ground. And it was definitely pale blue in color. Then the rover saw more of the little blue blobs, quite a few of them in various places. The scientists think it may be a species of soft coral or possibly a type of sponge, possibly even a tunicate, which is also called a sea squirt. All these animals are invertebrates that don’t move, which matches what little we know about the blue blob. The rover wasn’t able to take a sample from one of the blue blobs, so for now we don’t have anything to study except the video. But we know where the little blue blobs are, so researchers hope to visit them again soon and learn more about them. Next, let’s return to dry land and learn about some newly discovered snakes. In fact, we’re not just on dry land, we’re way up high in the Andes Mountains in South America, specifically in some remote villages in Ecuador. A teacher named Diego Piñán moved to the town of El Chaco in 2013, and he started noticing dead snakes on the road that he didn’t recognize. He also realized that people were killing the snakes on purpose. A lot of people are afraid of snakes, so Piñán made sure to teach his students about them so they would learn that most snakes aren’t dangerous. He also kept the dead snakes he found and preserved them in alcohol so he could figure out later what species they were. But he never could figure it out. Then a scientist named Alejandro Arteaga assembled a team to study the animals found in remote areas of the Andes Mountains. When they came to Piñán’s town, they were excited to see the snakes he’d preserved, because even the snake experts on the team didn’t recognize the snakes either, although they were pretty certain they belonged to a genus of snakes called Atractus. The snakes were quite pretty, gray-brown above with a bright yellow pattern underneath. They were small and slender, completely harmless to humans and pets, and they lived underground most of the time. The team searched and discovered more of the snakes living in the area. Most Atractus snakes are shy and stay away from people, but because the town of El Chaco had grown a lot recently, the snakes had moved from their home in the forest into the local cemetery. That’s right, they were burrowing around among the crypts. Of course, the snakes don’t know they’re in a graveyard. They just know they’re in a quiet place where people don’t visit very often to disturb them. The team eventually found three new species of snake in different towns, all three described in September 2022

Thanks to Alexandra, Jayson, and Eilee for their suggestions this week! Further reading: Scientists have discovered an ancient whale species. It may have looked like a mash-up of ‘a seal and a Pokémon’ The nomenclatural status of the Alula whale Field Guide of Whales and Dolphins [1971] The little Benguela dolphin [photo taken from this site]: The spinner dolphin almost looks like it has racing stripes [photo by Alexander Vasenin – Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=25108509]: The Alula whale, which may or may not exist: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week let’s learn about some whales and dolphins, including an ancient whale and a mystery whale, all of them really small. Thanks to Alexandra, Eilee, and Jayson for their suggestions! Let’s start with an ancient whale, suggested by Jayson. The genus Janjucetus has been known since its first species was described in 2006, after a teenage surfer in Australia discovered the fossils in the late 1990s. It grew to about 11 feet long, or 3.5 meters, and lived about 25 million years ago. So far it’s only been found around Australia. But much more recently, just a few months ago as this episode goes live, a new species was described. That’s Janjucetus dullardi, also found in Australia along the same beach where the first Janjucetus species was found, and dating to around the same time period. We don’t know a lot about the newly described whale, since it’s only known from some teeth and partial skull. Scientists think the individual was a juvenile and estimate it was only around 6 feet long when it died, or 2.8 meters. Small as it was, it would have been a formidable hunter when it was alive. Its broad snout was shaped sort of like a shark’s and it had strong, sharp teeth and large eyes. Because it was an early whale, it wouldn’t have looked much like the whales alive today. It might even have had tiny vestigial back legs. Its eyes were huge in proportion to its head, about the size of tennis balls, and it probably relied on its eyesight to hunt prey because it couldn’t echolocate. Its serrated teeth and strong jaws indicate that it might have hunted large animals, but some scientists suggest it could also filter feed the same way a crabeater seal does. Modern crabeater seals have similar teeth as Janjucetus, as do a few other seals. The projections on its teeth interlock when the seal closes its mouth, so to filter feed the seal takes a big mouthful of water, closes its teeth, and uses its tongue to force water out through its teeth. Amphipods and other tiny animals get caught against the teeth and the seal swallows them. If Janjucetus did filter feed, it probably also hunted larger animals. Otherwise its jaws wouldn’t have been so strong or its teeth so deeply rooted. But Janjucetus wasn’t related to modern toothed whales. While it wasn’t a direct ancestor of modern baleen whales, it was part of the baleen whale’s family tree. Baleen whales, also called mysticetes, have baleen plates made of keratin instead of teeth. After the whale fills its mouth with water, it closes its jaws, pushes its enormous tongue up, and forces all that water out through the baleen. Any tiny animals like krill, copepods, small squid, small fish, and so on, get trapped in the baleen. It’s just like the crabeater seal, but really specialized and way bigger. Whether or not Janjucetus could and did filter feed doesn’t really matter, because the fact that it’s an ancestral relation of modern baleen whales but it had teeth helps us understand more about modern whales. Next, Eilee wanted to learn about the Benguela [BEN-gull-uh] dolphin, also called Heaviside’s dolphin. It lives only off the southwestern coast of Africa, and it’s really small, only a little over 5 and a half feet long at the most, or 1.7 meters. It’s dark gray with white markings, with a blunt head that’s almost cone-shaped and a triangular dorsal fin. The Benguela dolphin is named for its ecosystem. The Benguela current flows northward along the coast, bringing cold, nutrient-rich water up from the depths, which attracts lots of animals. The dolphin lives in relatively shallow water and mainly eats fish and octopuses that it finds on or near the sea floor. The Benguela dolphin lives in social groups and sometimes hangs out with other species of dolphin. It doesn’t travel very far throughout the year, barely more than 50 miles, or 80 km. When it hunts for food, it uses very high-pitched navigation clicks that orcas can’t hear, but when it’s in safe areas, socializing without any predators around, it communicates and navigates with lower-pitched sounds. Sharks also sometimes attack it and sometimes humans will catch and eat one, but for the most part, it lives a pretty stress-free life just hanging out with its friends and eating little fish. And that’s basically all we know about this little dolphin. Alexandra wanted to hear about the s

Thanks to Viki, Erin, Weller, and Stella for their suggestions this week! Further reading: Tasmanian tiger pups found to be extraordinary similar to wolf pups The thylacine could open its jaws really wide: A sugar glider, gliding [photo from this page]: A happy quokka and a happy person: A swimming platypus: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about some marsupial mammals suggested by Erin, Weller, and Stella, and a bonus non-marsupial from Australia suggested by Viki. Marsupials are mammals that give birth to babies that aren’t fully formed yet, and the babies then finish developing in the mother’s pouch. Not all female marsupials actually have a pouch, although most do. Marsupials are extremely common in Australia, but they’re also found in other places around the world. Let’s start with Weller’s suggestion, the Tasmanian tiger. We’ve talked about it before, but not recently. We talked about it in our very first episode, in fact! Despite its name, it isn’t related to the tiger at all. Tigers are placental mammals, and the Tasmanian tiger is a marsupial. It’s also called the thylacine to make things less confusing. The thylacine was declared extinct after the last known individual died in captivity in 1936, but sightings have continued ever since. It’s not likely that a population is still around these days, but the thylacine is such a great animal that people hold out hope that it has survived and will one day be rediscovered. It got the name Tasmanian tiger because when European colonizers arrived in Tasmania, they saw a striped animal the size of a big dog, about 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 was yellowish-brown with black stripes on the back half of its body and down its tail, with a doglike head and rounded ears. The thylacine was a nocturnal marsupial native to mainland Australia and the Australian island of Tasmania, but 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. The thylacine mostly ate small animals like ducks, water rats, and bandicoots. Its skull was very similar in shape to the wolf, which it wasn’t related to at all, but its muzzle was longer and its jaws were comparatively much weaker. Its jaws could open incredibly wide, which usually indicates an animal that attacks prey much larger than it is, but studies of the thylacine’s jaws and teeth show that they weren’t strong enough for the stresses of attacking large animals. Next, Stella wanted to learn about the sugar glider, and I was surprised that we haven’t talked about it before. It’s a nocturnal marsupial native to the forests of New Guinea and parts of Australia, with various subspecies kept as exotic pets in some parts of the world. It’s called a glider because of the animal’s ability to glide. It has a flap of skin between its front and back legs, called a patagium, and when it stretches its legs out, the patagia tighten and act as a parachute. This is similar to other gliding animals, like the flying squirrel. The sugar glider resembles a rodent, but it isn’t. It’s actually a type of possum. It lives in trees and has a partially prehensile tail that helps it climb around more easily, and of course it can glide from tree to tree. It’s an omnivore that eats insects, spiders, and other small animals, along with plant material, mainly sap. It will gnaw little holes in a tree to get at the sap or gum that oozes out. It will also eat fruit, nectar, pollen, and seeds, but most of the time it prefers to hang around flowers and wait for insects to approach. Then it grabs and eats the insect without having to chase it. The sugar glider is gray with black and white markings, big eyes that allow it to see well in darkness, rounded ears, and a really long, thick, furry tail. It’s a social animal that lives in family groups in small territories. Both males and females help take care of the joeys when they’re out of the mother’s pouch, mainly by helping them stay warm when it’s cold. Our last marsupial of this episode is Erin’s suggestion, the quokka. It’s about the size of a domestic cat, related to wallabies and kangaroos. It’s shaped roughly like a chonky little wallaby but with a smaller tail and with rounded ears, and it’s grey-brown in color. The quokka is considered incredibly cute because of the way its muzzle and mouth are shaped, which makes it look like it’s smiling. If you take a picture of a quokka’s face, it looks like it has a happy sm

Thanks to Fleur, Yuzu, and Richard from NC for their suggestions this week! Further reading: World’s rarest parrot, extinct in wild, hatches at zoo Kakapo recovery This Parrot Stood 3 Feet Tall and Ruled the Roost in New Zealand Forests 19 Million Years Ago The magnificent palm cockatoo: The gigantic kakapo: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a bird episode, specifically some interesting parrots. Thanks to Fleur, Yuzu, and Richard from NC for their suggestions! Parrots are intelligent, social birds that are mostly found in tropical and subtropical parts of the world, but not always. Most parrots eat plant material exclusively, especially seeds, nuts, and fruit, but some species will eat insects and other small animals when they get the chance. Most parrots are brightly colored, but again, not always. And, unfortunately, most parrot species are endangered to some degree due to habitat loss, hunting for their feathers and for the pet trade, and introduced predators like cats and rats. All parrots have a curved beak that the bird uses to open nuts and seeds, but which also acts as a tool or even a third foot when it’s climbing around in trees. All parrots have strong clawed feet that they also use to climb around and perch in trees, and to handle food and tools. Let’s start with Yuzu’s suggestions, the cockatoo and the parakeet. A parakeet is a small parrot, but it’s a term that refers to a lot of various types of small parrots. This includes an extinct bird called the Carolina parakeet. It was small parrot that was common throughout a big part of the United States. It had a yellow and orange head and a green body with some yellow markings, and was about the size of a mourning dove or a passenger pigeon. Its story of extinction mirrors that of the passenger pigeon in many ways. The Carolina parakeet lived in forests and swamps in big, noisy flocks and ate fruit and seeds, but when European settlers moved in, turning forests into farmland and shooting birds that were considered pests, its numbers started to decline. In addition, the bird was frequently captured for sale in the pet trade and hunted for its feathers, which were used to decorate hats. By 1860 the Carolina parakeet was rare anywhere except the swamps of central Florida, and by 1904 it was extinct in the wild. The last captive bird died in the Cincinnati Zoo in 1918, which was not only the same zoo where the last passenger pigeon died in 1914, it was the same cage. It was declared extinct in 1939. The parakeet Yuzu is probably referencing is the budgie, or budgerigar. It’s the one that’s extremely common as a pet, and it’s native to Australia. In the wild it’s green and yellow with black markings, but the domestic version, which has been bred in captivity since the 1850s, can be all sorts of colors and patterns, including various shades of blue, yellow all over, white, and piebald, meaning the bird has patches of white on its body. The budgie can learn to repeat words and various sounds, especially if it’s a young bird. I had two parakeets as a kid, named Dandelion and Sky so you can guess their colors, and neither learned to talk although I really tried to teach them. Some birds just aren’t interested in mimicry, while others won’t stop, especially if they get attention when they speak. In the wild, budgies live in flocks that will travel long distances to find food and water. The birds mostly eat grass seeds, especially spinifex, but will sometimes eat wheat, especially in areas where farmland has destroyed much of their wild food. They’re social birds that are sometimes called lovebirds, although that’s the name of a different type of bird too, because they will preen and feed their mates. Like many birds, the parakeet can see ultraviolet light, and their feathers glow in UV light. This makes them even more attractive to potential mates, as if the parakeet wasn’t beautiful enough to start with. Yuzu also asked about the cockatoo. There are 21 species of cockatoo, also native to Australia and other nearby places, including Indonesia and New Guinea. It’s much larger than the budgie and most species have a crest of some kind. It lives in flocks and eats various types of plant material, including flowers and roots, but it will also eat insects. The cockatoo isn’t as brightly colored as many parrots, and is usually black, white, or gray, often with patches of color on the crest, cheeks, or tail. The pink cockatoo is white with pale salmon pink markings on the body, and brighter pink and yellow on its crest. The sulphur-crested cockatoo is white with pale yellow on the undersides of the wings and tail, and a bright yellow crest. We talked about the palm cockatoo in episode 23 because not only does it look like it should be a drummer of the Muppet Animal variety, since it’s black with red cheeks and a big messy crest, it does actually use sticks and nuts to drum against tree branches, to attr

Thanks to William who suggested we talk about the Loch Ness Monster for our big Halloween episode! Further reading: 1888 (ca.): Alexander Macdonald’s Sightings 1933, July 22: Mr. and Mrs. George Spicer’s Loch Ness Encounter The 1972 Loch Ness Monster Flipper Photos White Mice, Bumblebees, and Alien Worms? Unexpected Mini-Monsterlings in Loch Ness Further watching: 1933 King Kong clip: Brontosaurus attack! The following stills are from the above King Kong clip: The drawing by Rupert T. Gould for his 1934 book about the Loch Ness Monster. He drew it after interviewing Mr. Spicer about his 1933 sighting: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week is our big Halloween episode to finish off monster month! I hope your October has been amazing and you have fun plans for Halloween. William suggested we learn about the Loch Ness Monster, so let’s go! We talked about the Loch Ness Monster, AKA Nessie, a really long time ago, back in episode 29. Those old episodes aren’t even available in the feed anymore—you have to go to the website to find them, and the audio isn’t very good. So here’s a revised and updated Nessie episode! There are some spooky stories associated with this one, but not too scary. Let’s call it one and a half out of five monsters on the spooky scale. First, a little background about what Loch Ness is. It’s the biggest of a chain of long, narrow, steep-sided lakes and shallow rivers that cut the Scottish Highlands right in two along a fault line. Loch Ness is 22 miles long, or 35 km, with a maximum depth of 754 feet, or 230 meters, the biggest lake in all of the UK, not just Scotland. During the Pleistocene, or ice age, Scotland was repeatedly covered with glaciers and ice sheets that were almost a kilometer thick. The ice only completely melted about 8,000 years ago. The massive weight of the glaciers over the fault line, where the rocks are already weaker, started the process of carving out the lake, and when the ice started melting in earnest around 10,000 years ago, the massive amounts of meltwater washed the weakened rocks out and left the deep valley that is now Loch Ness. The land slowly rose from where the ice had pressed it down, so that Loch Ness is now about 50 feet above sea level, or 15 meters. In other words, Loch Ness is only about 10,000 years old. All the lochs and their rivers have made up a busy shipping channel since the Caledonian Canal made them more navigable with a series of locks and canals in 1822, but the area around Loch Ness was well populated and busy for centuries before that. It’s a beautiful area, so Loch Ness has also long been a popular tourist destination, well before the Nessie sightings started. There have been stories of strange creatures in Loch Ness and all the lochs, but nothing that resembles the popular idea of Nessie. The stories were mostly of water monsters of Scottish folklore, like the kelpie we talked about in episode 351, or of out-of-place known animals like a bottle-nosed dolphin that was captured at sea and released in the loch as a prank in 1868. The oldest monster report in the area actually comes from the 7th century, but it’s supposed to have happened in the River Ness, which drains from the lake. When local people told St. Columba about a monster that had grabbed a man swimming in the River Ness, and presumably ate him, the saint went there to take care of the monster. He told one of his followers to swim across the river, which sounds pretty rough, but the saint said, “Don’t worry, fam, I gotchu,” but in old-timey language. The man started swimming and sure enough, a water beast approached. The saint made the sign of the Christian cross and said, “Stop right there, don’t touch him. Get back, monster!” The monster swam away immediately and was never seen again. The next sighting important enough for people to write down happened more than 1,400 years later, in 1933. The newspaper Inverness Courier printed a sighting by a woman named Aldie Mackay, who saw something that looked like a whale rolling around in the lake while she looked out the car window as her husband drove. Her husband saw it too. Mackay’s sighting happened in mid-April of 1933 and the report appeared in May. But the big sighting that pretty much everyone has heard about happened two months later, in late July. It’s sometimes reported as an August sighting because the initial report appeared in the Inverness Courier on August 4, 1933. A couple on holiday from London, Mr. and Mrs. George Spicer, reported seeing a large creature crossing the road around 50 meters in front of their car. In his initial report, Mr. Spicer described it as grayish with a thick body and a long neck, moving jerkily. The neck twisted and moved up and down. He didn’t see legs or a tail, but thought that a flopping movement around the downward slope of the body toward the neck might be the end of the tail, curved around the body. Mrs. Spicer disagreed and thoug

Thanks to Richard of NC, Richard my brother, Siya, Ezra, and Owen and Aksel for their suggestions this week! Further reading: Creature Feature: Googly-Eyed Stubby Squid Nocturnal Spiders Use Trapped Fireflies as Glowing Bait to Attract Additional Prey A male vampire deer: The adorable googly eyed squid [still taken from video linked above]: The snowy owl [photo by Bill Bouton from San Luis Obispo, CA, USA – Snowy Owl, Bubo scandiacus, male, CC BY-SA 2.0, https://commons.wikimedia.org/w/index.php?curid=19899431]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week for monster month, let’s learn about some animals that are considered spooky, although in actuality they’re just regular animals who don’t even know the meaning of spooky. Thanks to Ezra, Owen and Aksel, Richard from NC, my brother Richard, and Siya for their suggestions! We’ll start with the two Richards. Richard from NC suggested vampire deer, and my brother Richard suggested zombie salmon. The vampire deer is more commonly called the water deer, but considering it has tusks growing down from its upper jaw that look like fangs, vampire deer is an excellent name. Females have short tusks, but in males they grow quite long, sometimes over 3 inches long, or 8 cm. Since the animal only stands about two feet tall at the shoulder, or 65 cm, that’s pretty impressive. Its hind legs are longer than its front, so that when it runs it sort of bounces like a rabbit. It has a very short tail, small rounded ears, and is golden brown in color with a lighter underside. It doesn’t have antlers. We talked about the musk deer in episode 366, which also has fangs instead of antlers, but the vampire deer isn’t closely related to the musk deer. The vampire deer currently lives in Korea, China, and Russia although it used to be much more widespread. It mostly lives in reedy habitats near rivers, and it’s a solitary animal although females will sometimes congregate to eat. Males protect their territories by fighting with their tusks, although they don’t actually drink blood. As for the zombie salmon, it’s not a type of fish but something that can happen to an ordinary salmon. The salmon is a fish that famously spends most of its adult life in the ocean, but travels up rivers to spawn. The eggs hatch in freshwater and the baby fish grow up in the river, and then they migrate to the ocean and live there for almost the rest of their lives. Eventually the fish is fully mature and ready to spawn, so it travels to the river where it was hatched, fights its way upstream, and the cycle starts all over with the new generation. Almost all salmon die after spawning. This is partly because the energy requirements of swimming upstream is so high, but also because a salmon is genetically programmed to die after spawning. This is called senescence, and while it’s common in invertebrates like octopuses and some insects, it’s rare in vertebrates. Not only that, there’s not enough food for an adult salmon in the spawning area, and an adult salmon’s body is adapted for salt water, not fresh water, so it can’t live long in rivers as an adult anyway. A small number of female Atlantic salmon are able to return to the ocean, recover and regain their strength, and spawn again a few years later, but for all other species, after spawning, that’s it. Within days all the salmon have died. But sometimes, rarely, a salmon remains alive for weeks after spawning. It doesn’t have the energy to return to the ocean, and its body is in the process of shutting down for planned senescence, and the freshwater is causing damage to the fish’s skin. But still it survives, growing more and more raggedy, just like a zombie in a movie. But unlike movie zombies, it doesn’t want to eat brains. Eventually the zombie salmon dies, if something doesn’t catch and eat it first. Next, Siya suggested the googly-eyed squid. Some people find squid and octopuses scary because they look so strange, but I admit I added this squid to the episode because I think its name is funny. It’s also called the stubby squid or the googly-eyed stubby squid. Its scientific name is Rossia pacifica, which gives you a hint that it lives in the northern Pacific Ocean. In the winter it likes shallow water without strong currents, but in summer it migrates to deeper water where it doesn’t get too warm. The googly-eyed squid is small and closely related to the cuttlefish. It grows less than four and a half inches long, or 11 cm, including its eight short arms and two retractable tentacles. It’s usually reddish-brown or purplish in color, but like most squid it can change color when it needs to. It gets its name because it has large eyes that show white around the edges and have a black pupil, which makes it look like it has googly eyes. During the day, the googly-eyed squid buries itself most of the way in sand or mud at the bottom of the sea floor, with just its googly eyes showing so it can watch for dang

This week we’re going to learn about a bunch of bats! Thanks to John, Murilo, and Alexandra for their suggestions! Further reading: Why Bats Can’t Walk: The Evolutionary Lock That Keeps Them Flying On a Wing and a Song—Bats Belt out High-Pitched Tunes to Woo Mates Why some bats hunt during the day Puzzling Proto-Bats A pekapeka just walking around catching bugs on the ground [photo by Rod Morris, from link above]: BLOOOOOOD! but a really cute smile too: The western red bat looks ready for Halloween! Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week as monster month continues, we’re going to learn about bats! We’ve talked about bats in lots of previous episodes, but we have a lot of really neat information in this one that we’ve never covered before. Thanks to John, Alexandra, and Murilo for their suggestions! John suggested we learn about diurnal bats and also asked if there are any flightless bats, maybe ones that live on islands. There are lots of island-living bats, and many birds that live on islands evolve to be flightless. It makes sense that bats might do the same thing–but I couldn’t find any information about any known bat that has lost the ability to fly. The reason seems to be how highly derived bats are. That means they’re specialized, the only mammal known that has ever evolved true flight. Unlike birds, which don’t need to use their legs when flying, bats’ legs are actually part of the wings. The wing membranes, called patagia, stretch not just between the elongated finger bones of the bat’s hands, they also stretch between the arms and legs, and connect the legs too. A January 2025 study comparing bat skeletons to the skeletons of birds determined that unlike in birds, where the size of the legs doesn’t have anything to do with the size of the wings, in bats the leg size and the wing size are closely related. If a bat evolves smaller wings, its legs also evolve to become smaller. That’s why there are no bats that resemble ostriches, with tiny wings but really long legs. Another possible reason is that bat legs have evolved to point backwards compared to other animals. It’s not just the feet, the knees are also rotated backwards. That’s why bats hang upside-down when they’re not flying. Many species of bat never land on the ground, because they literally can’t walk at all. But there are a few species of bats that can walk quite well. One is the increasingly threatened New Zealand lesser short-tailed bat. It lives in a few places in both the North and South Islands, as well as some small islands off the coast, although it used to be much more widespread. It’s also called by its Maori name, the pekapeka. The pekapeka mainly lives in forested areas and is quite small. It’s brown with a lighter belly, and it has big ears, as do most bats. Its eyes are small and its vision isn’t very good, but it has a good sense of smell. Its wings are small so its legs are correspondingly small too, but its legs are also strong despite their size. It has a clawed thumb toe on its feet and on its wings that helps it climb around in trees when it needs to, and it also spends about half of its time on the ground. It walks just fine, crawling with its wings folded so that the ends point up and back, out of the way. And yes, its legs are rotated backwards as you’d expect in a bat, and it roosts by hanging from its feet in trees. The pekapeka flies normally and catches insects using echolocation, just like other microbats throughout the world. It especially likes moths. Unlike almost all other bats, it finds a lot of its food on the ground too, using its sense of smell to track down spiders, insects and larvae, and other small invertebrates. It will actually dig into the dirt and leaf litter to find food. It also eats nectar and flowers, and is an important pollinator of some plants. One great thing about the pekapeka is that the males sing to attract a mate. The sound is so high-pitched that it’s not practical to share it here, because you probably wouldn’t be able to hear it, but I’ll link to an article that has a sample bat song so you can listen. Another bat that can walk just fine is one suggested by Murilo, the vampire bat. In movies, vampire bats are usually depicted as being humongous, as big as a person! In reality, those big bats are actually megabats, and megabats mostly eat fruit. Megabats are the ones that are sometimes called sky puppies, because they don’t rely very much on echolocation so they don’t have the complicated ears and noses that microbats do. Until recently scientists thought megabats couldn’t echolocate at all, but now we know they can, they’re just not all that good at it. The vampire bat is tiny in comparison. There are three species of vampire bat alive today. They share the same subfamily, Desmodontinae, but have been classified in different genera because they differ considerably from each other. Their other relations are ordinary bats

It’s October, AKA Monster Month! Let’s learn about some animals of the Skeleton Coast–which sounds spooky, but actually isn’t. Lots of brown fur seals [photo by Robur.q – Own work, CC BY-SA 4.0]: The desert plated lizard [photo by redrovertracy, some rights reserved (CC BY) – https://www.inaturalist.org/photos/45483586, CC BY 4.0]: Rüppell’s korhaan [photo by By Charles J. Sharp – Own work, from Sharp Photography, sharpphotography.co.uk, CC BY-SA 4.0]: The pearl spotted owlet is cute rather than spooky, but it has a haunting call [photo by Charles J. Sharp – Own work, from Sharp Photography, sharpphotography.co.uk, CC BY-SA 4.0]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s October at last, and that means monster month! To start us off this year, we’re going to learn about animals of the Skeleton Coast, which sounds a lot more spooky than it actually is. The Skeleton Coast is a stretch of coastline 310 miles long, or 500 km, on the Atlantic coast of Africa. It’s part of Namibia, a huge country in southern Africa that’s mostly quite dry, with two deserts within its borders. Because the country gets so little rainfall, it has to conserve water for its people, animals, and crops, so the government is serious about conservation and natural resources. It’s home to one of the most cutting-edge water treatment plants in the world, and since the government’s establishment in 1993, it’s been working to help farmers and citizens in general to practice sustainable natural resource management. It’s also a beautiful part of the world, with amazing geography, and animals and plants found nowhere else in the world, so eco-tourism has been increasing, which helps the economy. Namibia is also home to the San people, who call the Skeleton Coast “the land god made in anger.” The northern part of the coast is blocked off from land by huge sand dunes, while the southern part is rocky. To get there, you have to cross a desert, and then cross a treacherous marsh that’s hundreds of miles across. Then to get home, you have to go back the way you came across the marsh and the desert, because launching a boat from the Skeleton Coast is impossible if you don’t have a powerful engine. The sea along the Skeleton Coast is treacherous, with lots of rocks offshore, extremely heavy surf, and frequent thick fogs. There are around a thousand shipwrecks visible along the coast, with the oldest dating to the 1530s, and thousands more documented that aren’t visible or haven’t been found yet. Ships still wreck there sometimes. Animals do live along the Skeleton Coast, especially seals. The brown fur seal, also called the Cape fur seal, has a huge colony in the northern part of the coast, which is a national park. The brown fur seal lives in various parts of southern Africa, with a subspecies that also lives on some islands off southeastern Australia and Tasmania. A big male can grow 7 ½ feet long, or 2.3 meters, and as you can probably guess from its name, it’s mostly brown in color. Males have a short mane on the neck that’s usually darker than the rest of its fur. It has magnificent long whiskers, especially males. The brown fur seal mainly eats fish, but it also likes squid and will eat other animals like crustaceans and even birds. It can dive deeply and stay underwater for over seven minutes. It spends most of its life in the water, mainly only coming out on land to breed, give birth, and take care of the babies. The seals used to be killed for their fur, but this was outlawed in Namibia in 1990 except by special permit, which has allowed the seals’ numbers to increase. The Skeleton Coast is named that mainly because of the massive amounts of seal bones that fur hunters left behind after killing and skinning seals. Unfortunately, something the rocks around the Skeleton Coast collect are plastic debris, especially fishing debris like nets. So many brown fur seals get caught in the debris and drown that a group of volunteers called Ocean Conservation Namibia go out almost every day to help untangle seals. The Skeleton Coast doesn’t get any rain to speak of, or only trace amounts in any given year, but it does get thick sea fogs. Most of the plants along the coast are succulents and lichens that don’t need a lot of moisture. A lot of larger animals that hunt seals along the coast actually live farther inland, like hyenas and lions. The animals that live year-round on the coast are much smaller. That includes the desert plated lizard, which is only found in parts of Namibia and Angola. It’s a slender but strong lizard that can grow over 6 inches long, or 16 cm, not counting its long tail. It’s mainly the color of sand, tan or orange and gray, or gray-white, or some other similar variation, with a white belly, and this is because it lives on sand dunes. The sand dunes are covered with scrubby vegetation, so in the daytime the lizards come out and eat anything t

Thanks to Brody, Oz, and Sam for their suggestions this week! Further reading: Chasing gold Two spectacled hare-wallabies hanging out under a spinifex bush [picture from this site]: A regular swamp wallaby [photo by jjron – Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=4022233]: The glorious golden swamp wallaby [photo by Jack Evershed, taken from the first article linked above]: The takin can also be golden: The gaur is so incredibly big! It’s so big, honestly, it’s just ridiculous: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have suggestions from Oz, Sam, and Brody, with some interesting mammals! Let’s start with Brody’s suggestion, the wallaby! It’s been a while since we talked about the wallaby, which is an adorable marsupial closely related to the kangaroo. It’s native to Australia and New Guinea, part of the family Macropodidae. One thing everyone knows about kangaroos, which is also true for wallabies, is that they hop instead of running. Their hind legs are extremely strong with big feet, and in fact the word Macropodidae means big feet. The animal hops by leaning forward and jumping, with its big hind feet leaving the ground at about the same time, and landing at the same time too before it bounces again. Its big tail helps it balance. We talked about the wallaby last in episode 390, so let’s learn about some species of wallaby that we didn’t talk about then. For example, the spectacled hare-wallaby. It’s a small species that’s common in northern Australia and parts of Papua New Guinea. It’s active at night and is mostly solitary, so unless you’re wandering around at night you might not have seen one. It’s called the spectacled hare-wallaby because it has orange-colored fur around its eyes so that it looks sort of like it’s wearing glasses. The rest of its fur is brown, gray, and golden. Its ears are small and its tail and hind legs are very long, with short little front legs. It’s very cute. The spectacled hare-wallaby prefers sandy or stony areas, like dunes and shrubland, where it can find lots of plants to eat but can easily hop away if it spots a predator. It’s smaller than a domestic cat, but it can travel incredibly fast when it wants to. If you live along the eastern part of Australia, you might have seen the swamp wallaby, also called the black wallaby because it’s mostly dark gray or gray-brown in color, often with a white tip to the tail. It’s stocky and much larger than the spectacled hare-wallaby, almost three feet tall, or 85 cm, when it’s sitting up. It doesn’t just live in swamps but also likes forests and other areas with lots of places to hide. Unlike the spectacled hare-wallaby, it’s not that fast and can’t always outrun potential predators, but it’s good at hiding because its fur is so dark. Most wallabies are grazers, meaning they mainly eat grass, but the swamp wallaby is a browser. Instead of having grinding teeth to break down grass, its teeth are sharper for cutting through plant material like bushes, shrubs, and ferns. The swamp wallaby will even use its front legs to pull branches into reach so it can eat the leaves. Wallabies are marsupials, meaning the babies are born extremely early by our standards, crawl into the mother’s pouch and clamp onto a teat, and continue to develop in the pouch. Wallabies usually only have one baby at a time, but the mother swamp wallaby has two babies in its pouch almost all its adult life. The swamp wallaby has two uteruses, and a few days before the first baby is ready to be born, the female comes into estrus again, meaning she’s ready to mate. By the time her first baby is born, she’s already pregnant with her second baby. When the second baby is born, the first baby is old enough that’s it doesn’t spend all the time in the pouch—but by then, she’s already pregnant with her third baby. By the time the third baby is born, the first baby is grown up and on its own, the second baby is old enough that it isn’t in the pouch all the time, and—you guessed it—the mother is already pregnant with baby four. It sounds exhausting, but it works well for the swamp wallaby. As I mentioned, the swamp wallaby is also called the black wallaby, but there’s a rare color variation that’s called a golden swamp wallaby. It’s still a swamp wallaby but its fur is golden yellow and it has a white face. The coloration is due to a mutation in coat color, but golden swamp wallabies seem to be perfectly safe in the few areas where they’re found, so it doesn’t seem to be a detriment. Some scientists suspect the color morph is helpful in open forests with sandier soil, which is exactly where the golden swamp wallabies are found. Speaking of golden animals, let’s talk next about the takin, suggested by Sam. We talked about the golden takin back in episode 218, which is a subspecies of takin. The takin is closely related to sheep and mountain goats, but it looks more like a small

Thanks to Joelle, Jacob, and Anna for their suggestions this week! Further reading/watching: Gulper Eel Balloons Its Massive Jaws Watch rare footage of a shapeshifting eel with ‘remarkably full tummy’ swimming in the deep sea The beautiful stellar jay: The maybe not quite as beautiful but really awesome gulper eel (with its mouth full of water, image taken from first video linked above): The same eel as above but with its mouth open so you can see just how big it is! Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about a bird suggested by Joelle, Jacob, and Anna, and a weird fish also suggested by Jacob. Let’s start with the bird, the stellar jay, also called Steller’s jay! In the last few years there has been a push among bird enthusiasts to change the common names of birds named after people to names that are more general. While Steller’s jay hasn’t officially been renamed to the stellar jay, a lot of people are calling it that already so that’s what we’ll call it here. The word stellar means outstanding, and that’s definitely a good description of this bird. The stellar jay is a beautiful bird that lives in western North America down into parts of Central America. It’s closely related to the blue jay found in eastern North America, and if you saw it from the middle down you might think it was a blue jay, except that it doesn’t have white markings on its tail and wings. It has a blue tail and wing feathers with dark bars, but from about the shoulders up it looks very different from the blue jay. It’s silvery-gray, brownish, or black on its head, neck, and back. Some populations have a white eyebrow marking that makes the bird look like it’s frowning. It has a crest like the blue jay, but its crest is bigger, spikier like it hasn’t brushed its hair yet, and the bird itself is bigger overall than its eastern cousin. The stellar jay lives in forests, especially coniferous forests, where it eats pretty much anything it can find. It’s an omnivore that likes insects and other invertebrates, eggs and baby birds of other species, and even small animals like lizards and mice, but it also eats lots of nuts, berries, seeds, and other plant material. It will visit bird feeders, and especially likes sunflower seeds and raw peanuts. The stellar jay is a corvid, distantly related to crows and magpies, and it shares the corvid trait of being intelligent, sometimes aggressive, and loud. It will imitate hawks in order to scare other birds away from food, and it will often chase smaller birds away from feeders. During nesting season, the birds get a lot quieter, and the male will sneak his way to and from the nest to feed his mate while she’s sitting on the eggs. The stellar jay prefers to build its nest in a conifer, either in a hollow in the trunk or on branches close to the trunk. This is what the stellar jay sounds like: [bird calls] Jacob also suggested we learn about the gulper eel, which is sort of the opposite of the stellar jay. It’s a deep-sea fish with a lot of names, including pelican eel and my favorite, the umbrella-mouth. It’s black or sometimes dark brown and can grow up to about three feet long, or 90 cm. Much of its length consists of a long, whip-like tail. The gulper eel’s mouth is ENORMOUS, ridiculously enormous, especially considering how slender the rest of the fish is. Its lower jaw is hinged and is extremely long, with a stretchy pouch of skin that forms its mouth and I guess you can call them cheeks. It is a very weird fish. Most of the time it keeps its jaw folded down against its sides, so that the jaws are barely visible and it looks more or less like a regular eelh. But when it wants to, the gulper eel can unfold its jaw and gulp in water to inflate its pouch, which makes it look like a black balloon with a tail. It sometimes does this if it feels threatened so that it looks bigger, but the huge jaws are actually for swallowing animals whole. Not only can its mouth stretch to engulf animals bigger than the gulper eel is, its stomach can stretch just as much. It has tiny teeth, though, so it’s not likely that it would try to eat animals stronger than it is, because if it swallowed a big fish, that fish might thrash around inside the gulper eel and kill it. More often, the gulper eel’s stretchy mouth and stomach allow it to eat large groups of very small animals, mostly shrimp and other small crustaceans. It also helps it swallow squid and other soft-bodied animals that are larger than it is but not dangerous. The gulper eel has a well-developed lateral line system, more properly called the octavolateralis system. All fish and some amphibians have this system, and in many species you can see it. It’s a line or a series of dots along the fish’s sides, and it’s actually a series of modified cells that are super sensitive to water motion. The lateral line system is what allows schools of fish to stay in formation while moving

Thanks for Preston and Pranav for suggesting this week’s topics! Further reading: DNA has revealed the origin of this giant ‘mystery’ gecko Snow Leopards Dispersed Out of Tibetan Plateau Multiple Times, Researchers Say Conquest of Asia and Europe by snow leopards during the last Ice Ages uncovered The crested gecko AKA the eyelash gecko: The fluffy snow leopard: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a couple of suggestions from Preston and one from Pranav! This is the first episode I’ve recorded in my new apartment, so let’s make it a good one. First, Preston wanted to learn more about the crested gecko, mainly because he has a pet crested gecko named George Washington. That is one of the best gecko names ever! The crested gecko is also called the eyelash gecko. We’ve talked about it a few times, but not recently at all. It’s native to a collection of remote Pacific islands called New Caledonia, where it spends most of its time in trees, eating insects and other small animals, but also fruit, nectar, and lots of other food. It’s an omnivore and nocturnal, and can grow more than 10 inches long, or 25 cm. It gets its names from the tiny spines above its eyes that look like eyelashes, and more spines in two rows down its back, like a tiny dragon. It can be brown, reddish, orange, yellow, or gray, with various colored spots, which has made it a popular pet. These days all pet crested geckos were bred in captivity, since it’s now protected in the wild. The crested gecko has tiny claws on its toes, which is unusual since most geckos don’t have claws. It can drop its tail like other geckos if a predator is after it, but the tail doesn’t grow back. Since its tail is prehensile and helps it climb around in trees, you’d think the gecko would have trouble climbing after it loses its tail, but it doesn’t. Maybe that’s because in addition to claws, like other geckos it has basically microscopic hairlike structures on its toes that allow it to climb smooth surfaces like windows and walls and the trunks of smooth trees. It can also jump long distances to get to a new branch. The crested gecko was discovered by science in 1866, but wasn’t seen after that in so long that people thought it was extinct. Then in 1994, a German herpetologist out looking for specimens after a tropical storm found a single crested gecko. It turns out that the geckos had been fine all along, but because they’re nocturnal and mostly live in trees, scientists just hadn’t spotted any. While we’re talking about geckos, Pranav requested that we revisit Delcourt’s giant gecko with some updated information. We did mention the new findings back in episode 389, but it’s really interesting so let’s go over it again. Way back in episode 20 we talked about Delcourt’s giant gecko, which is only known from a single museum specimen donated in the 19th century. In 1979 a herpetologist named Alain Delcourt, working in the Marseilles Natural History Museum in France, noticed a big taxidermied lizard in storage and wondered what it was. It wasn’t labeled and he didn’t recognize it, surprising since it was the biggest gecko he’d ever seen—two feet long, or about 60 cm. He sent photos to several reptile experts and they didn’t know what it was either. Finally the specimen was examined and in 1986 it was described as a new species. No one knew anything about the stuffed specimen, including where it was caught. At first researchers thought it might be from New Caledonia since a lot of the museum’s other specimens were collected from the Pacific Islands. None of the specimens donated between 1833 and 1869 had any documentation, so it seemed probable the giant gecko was donated during that time and probably collected not long before. More recently there was speculation that it was actually from New Zealand, since it matched Maori lore about a big lizard called the kawekaweau. In June of 2023, Delcourt’s gecko was finally genetically tested and determined to belong to a group of geckos from New Caledonia, the same archipelago of islands where the crested gecko is from. Many of its close relations are large, although not as large as it is. It’s now been placed into its own genus. Of course, this means that Delcourt’s gecko isn’t the identity of the kawekaweau, since it isn’t very closely related to the geckos of New Zealand, but it might mean the gecko still survives in remote parts of New Caledonia. It was probably nocturnal and lived in trees, hunting birds, lizards, and other small animals. Now we’re done with geckos for today, but we’re not done with this episode! Preston also wanted to learn about the snow leopard, and it’s amazing that we’ve never talked about it before! The snow leopard is a big cat that’s most closely related to the tiger, although they don’t look very much alike. The term big cat refers to tigers, lions, leopards, snow leopards, and jaguars, but it can also include cheetahs and cougar

This is a chapter of the Beyond Bigfoot and Nessie book, which you can buy or request at the library! Further reading: Debunking a Great New England Sea Serpent A narwhal. I use this picture all the time: The diseased black snake that was taken for a baby sea serpent: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to have a sea monster episode! This is actually a chapter of the book that I published a few years ago now, Beyond Bigfoot and Nessie, and it’s called the Gloucester Sea Serpent. We had a Patreon episode recently that was about a different sea serpent, and while I was researching that, it was driving me completely nuts, because I kept trying to find the episode where I talked about the Gloucester sea serpent, and I finally remembered that that wasn’t an episode at all. It was just a chapter in the book. Maybe it’s time to record it. While the Gloucester sea serpent was first mentioned in a traveler’s journal in 1638, it really came to prominence almost two centuries later. On August 6, 1817, two women said they’d seen a sea monster in the Cape Ann harbor. A fisherman said he’d seen it too, but neither the fisherman nor the women were believed. A 60-foot, or 18-meter, sea serpent in the harbor? Ridiculous! Only a few days later, though, the monster started showing up in Gloucester Bay and attracted major attention—not because it was elusive, but because it was so commonly seen. Sailors, fishers, and even people on shore saw what was described as a huge serpent in the waters of Gloucester Bay, Massachusetts, in the northeastern United States. On one occasion more than two hundred people watched it for nearly four hours. The creature’s length was described as anywhere up to 150 feet long, or 46 meters, and many people said it had a horse-sized head. Some people described its head as being about the same shape as a horse’s too, although with a shorter snout. The body was snake-like and about the thickness of a barrel. Many people thought the sea monster had humps along the back, usually referred to as bunches or occasionally joints. Others said it undulated through the water in an up-and-down motion, which looked like humps. Others said it had no bunches or humps at all. Most people agreed that its back was dark brown. One of the earlier witnesses, a man named Amos Story, watched the sea serpent from shore for an hour and a half. He was adamant that it had no bunches, that he only saw at most about 12 feet of its length at one time, or 3.6 meters, and that its head resembled that of a sea turtle. It was also fast, with Story claiming it covered a mile in only three minutes or so. That’s about 20 miles per hour, or 32 kilometers per hour—an incredible speed for an animal in the water. As it happens, the leatherback sea turtle has been recorded as swimming that fast, and it can grow over 7 feet long, or 2.2 meters, and possibly much longer. It lives throughout the world’s oceans and is just as happy in cold waters as it is in tropical waters. In other words, it’s possible Story actually saw a huge leatherback turtle, which would explain why it had a turtle-like head that it held above the surface of the water at least part of the time. This is something leatherback turtles do. Then again, the leatherback has distinctive ridges and serrations on its back that Story didn’t mention. So many people reported seeing the sea serpent that the Linnaean Society of New England decided it needed to investigate. The society had only formed a few years before, in 1814, to promote natural history. By 1822 it had disbanded, but in those eight years it accomplished quite a bit, including opening a small museum in Boston. Its most controversial endeavor was the sea serpent investigation. Members of the Linnaean Society interviewed witnesses, making careful notes that were signed by the interviewees to indicate the details were accurate. These statements tell us a lot about what people saw, although it hasn’t helped us determine what the sea serpent actually was. For instance, Captain Solomon Allen saw the creature more than once and gave a clear description of it. It was at least 90 feet long, or 27.5 meters, with as many as fifty joints, or bunches. Its head was snake-like—specifically rattlesnake-like, presumably meaning it was wider at the back and had a narrower snout—but the size of a horse’s head. It was dark brown, plain in color, and swam with an undulating side-to-side motion. It dived by sinking straight down, moved quickly, and sometimes seemed to play in the water by swimming in circles. All this is great information, but it doesn’t resemble any known animal. It also doesn’t necessarily resemble the other witness statements. Let’s go over some of the more detailed sightings and see if we can come to some conclusions. A man named William Foster reported bunches along the monster’s length, although he also described them as rings. When the animal’s head rose

While I’m at Dragon Con, here’s an old Patreon episode about Tennessee water mysteries, including some spooky sightings of what were probably bears, and some mystery fish! Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. As this episode goes live, I should be at Dragon Con, so I decided to go ahead and schedule an old Patreon episode to run instead of trying to get a new episode ready in time. It’s about some water mysteries in my home state of Tennessee, although I actually just moved away from Tennessee to Georgia. Tennessee is in the southeastern United States, a long thin state divided into three geographical sections. East Tennessee borders the southern Appalachian Mountains, Middle Tennessee is on the Cumberland Plateau, and West Tennessee borders the Mississippi River. The only natural lake in the state is Reelfoot in northwestern Tennessee, a shallow, swampy body of water formed in the early 19th century. Before 1811, instead of a lake a small river flowed through the area, a tributary of the Mississippi. In earlier accounts, Reelfoot River is called Red Foot River. Most of the residents of the area at the time were Choctaw, although white settlers lived in the small town of New Madrid near the bank of the Mississippi. From December 1811 through February 1812, a series of earthquakes in the New Madrid Seismic Zone changed the land radically. There were three main quakes and innumerable smaller ones, ranging from an estimated 6.7 for the smallest quake to a possible 8.8 for the largest. In the initial quake and aftershocks on 16 December 1811, chimneys collapsed, trees fell, and fissures opened and closed, projecting water or sand high in the air. Boats on the Mississippi capsized as huge waves crashed from bank to bank. A woman named Eliza Bryan, who lived in New Madrid, wrote an account of the quakes: On the 16th of December, 1811, about 2 o’clock a.m., a violent shock of earthquake, accompanied by a very awful noise, resembling loud but distant thunder, but hoarse and vibrating, followed by complete saturation of the atmosphere with sulphurous vapor, causing total darkness. The screams of the inhabitants, the cries of the fowls and beasts of every species, the falling trees, and the roaring of the Mississippi, the current of which was retrograde for a few minutes, owing, as it is supposed, to an eruption in its bed, formed a scene truly horrible. From this time on until the 4th of February the earth was in continual agitation, visibly waving as a gentle sea. On that day there was another shock…and on the 7th, at about 4 o’clock a.m., a concussion took place so much more violent than those preceding it that it is denominated the ‘hard shock.’ The Mississippi first seemed to recede from its banks, and its waters gathered up like a mountain… Then, rising 15 or 20 feet perpendicularly and expanding, as it were, at the same time, the banks overflowed with a retrograde current rapid as a torrent. A riverboat captain reported in another account that his boat was caught in a ferocious current on the Mississippi, crashing across waves he estimated as six feet high, or 1.8 m. He also reported whirlpools that he estimated were 30 feet deep, or 9 m. He saw all the trees on either bank fall at once. The December quake was so large it was felt across North America, from Canada to the Gulf Coast. Then, only five weeks later, it happened again, followed by the third major earthquake on 7 February. Only 15 miles, or 24 km, from the epicenter, the land dropped 20 feet, or 6 m, and created a basin that immediately filled with water. Reelfoot Lake was formed, Tennessee’s only natural lake. Reelfoot is a state park these days, popular with boaters, fishers, hunters, and birdwatchers. The only cryptid sighting I could find took place in the Glass community near Obion, within ten miles, or 16 km, of the lake. A man who grew up in Glass reported in 2009 that a bipedal creature 8 or 9 feet tall, or 2.5-2.7 m, and covered in off-white hair was well-known to the residents of the community. They referred to it as “the white thing.” The man had seen it several times as a child and his father, who was initially a skeptic, changed his mind when he found huge tracks in the woods. Technically, Tennessee has two natural lakes, but the “Lost Sea” is underground. It’s located in a large cave system called Craighead Caverns in the foothills of the Great Smoky Mountains. It’s one of the largest underground lakes ever found, although it hasn’t been fully explored so its actual size isn’t known. The lake doesn’t support any known animals, although scientific explorations haven’t been conducted as far as I could find. In the 1960s the cave owners stocked the lake with rainbow trout in hopes that they would discover an exit to the surface. They didn’t, and the fish have to be fed and restocked since they have no natural food sources and won’t spawn in the lake. The cave, and the lake, are a local

Thanks to Mila for suggesting one of our topics today! Further reading: The mystery of the ‘missing’ giant millipede Never-before-seen head of prehistoric, car-size ‘millipede’ solves evolutionary mystery A centipede compared to a millipede: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Let’s finish invertebrate August this year with two arthropods. One is a suggestion from Mila and the other is a scientific mystery that was solved by a recent discovery, at least partially. Mila suggested we learn about centipedes, and the last time we talked about those animals was in episode 100. That’s because centipedes are supposed to have 100 legs. But do centipedes actually have 100 legs? They don’t. Different species of centipede have different numbers of legs, from only 30 to something like 300. Like other arthropods, the centipede has to molt its exoskeleton to grow larger. When it does, some species grow more segments and legs. Others hatch with all the segments and legs they’ll ever have. A centipede’s body is flattened and made up of segments, a different number of segments depending on the centipede’s species, but at least 15. Each segment has a pair of legs except for the last two, which have no legs. The first segment’s legs project forward and end in sharp claws with venom glands. These legs are called forcipules, and they actually look like pincers. No other animal has forcipules, only centipedes. The centipede uses its forcipules to capture and hold prey, and to defend itself from potential predators. A centipede pinch can be painful but not dangerous unless you’re also allergic to bees, in which case you might have an allergic reaction to a big centipede’s venom. Small centipedes can’t pinch hard enough to break a human’s skin. A centipede’s last pair of legs points backwards and sometimes look like tail stingers, but they’re just modified legs that act as sensory antennae. Each pair of a centipede’s legs is a little longer than the pair in front of it, which helps keep the legs from bumping into each other when the centipede walks. The centipede lives throughout the world, even in the Arctic and in deserts, but it needs a moist environment so it won’t dry out. It likes rotten wood, leaf litter, soil, especially soil under stones, and basements. Some centipedes have no eyes at all, many have eyes that can only sense light and dark, and some have relatively sophisticated compound eyes. Most centipedes are nocturnal. The largest centipedes alive today belong to the genus Scolopendra. This genus includes the Amazonian giant centipede, which can grow over a foot long, or 30 cm. It’s reddish or black with yellow bands on the legs, and lives in parts of South America and the Caribbean. It eats insects, spiders–including tarantulas, frogs and other amphibians, small snakes and lizards, birds, and small mammals like mice. It’s even been known to catch bats in midair by hanging down from cave ceilings and grabbing the bat as it flies by. Some people think that the Amazonian giant centipede is the longest in the world, but this isn’t actually the case. Its close relation, the Galapagos centipede, can grow 17 inches long, or 43 cm, and is black with red legs. But if you think that’s big, wait until you hear about the other animal we’re discussing today. It’s called Arthropleura and it lived in what is now Europe and North America between about 344 and 292 million years ago. Before we talk about it, though, we need to learn a little about the millipede. Millipedes are related to centipedes and share a lot of physical characteristics, like a segmented body and a lot of legs. The word millipede means one thousand feet, but millipedes can have anywhere from 36 to 1,306 legs. That is a lot of legs. It’s probably too many legs. The millipede with 1,306 legs is Eumillipes persephone, found in western Australia and only described in 2021. It lives deep underground in forested areas, where it probably eats fungus that grows on tree roots. It’s long and thin with short legs and no eyes. It’s only about 1 mm in diameter, but can grow nearly 4 inches long, or almost 10 cm. Millipedes mostly eat decaying plant material and are generally chunkier-looking than centipedes. They have two pairs of legs per segment instead of just one, with the legs attached on the underside of the segment instead of on the sides. A millipede usually has short, strong antennae that it uses to poke around in soil and decaying leaves. It can’t pinch, sting, or bite, although some species can secrete a toxic liquid that also smells terrible. Mostly if it feels threatened, a millipede will curl up and hope the potential predator will leave it alone. The biggest millipede alive today is probably the giant African millipede, which can grow over 13 inches long, or almost 34 cm, but because millipedes are common throughout the world and are often hard for scientists to find, there may very well be much large

Thanks to Yonatan and Eilee for this week’s suggestion! Further reading: Replanted rainforests may benefit from termite transplants A vast 4,000-year-old spatial pattern of termite mounds A family of termites has been traversing the world’s oceans for millions of years Worker termites [photo from this site]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we have a topic I’ve been wanting to cover for a while, suggested by both Yonatan and Eilee. It’s the termite episode! We talk a lot about animals that eat termites, and in many cases termite-eating animals also eat ants. I’ve always assumed that termites and ants are closely related, but they’re not. Termites are actually closely related to cockroaches, which are both in the order Blattodea, but it’s been 150 million years since they shared a common ancestor. They share another trait too, in that no one wants either insect infesting their house. Like most cockroach species, though, most termite species don’t want anything to do with humans. They live in the wild, not in your house, and they’re incredibly common throughout most of the world. That’s why so many animals eat termites almost exclusively. There are just so many termites to eat! There are around 3,000 species of termite and about a third of them live in Africa, with another 400 or so in South America, 400 or so in Asia, and 400 or so in Australia. The rest live in other parts of the world, but they need warm weather to survive so they’re not very common in cold areas like northern Europe. A termite colony consists of a queen, soldiers, and workers, which sounds very similar to ants, but there are some major differences. Worker termites take care of the nest and babies, find and process food so the other termites can eat it, and store the processed food. They also take care of the queen. Unlike ants and bees, worker termites aren’t only female and aren’t always sterile. Soldiers are bigger and stronger than workers, with much bigger heads and jaws so they can fight off potential predators. In some species, the soldiers have such big jaws that they can’t actually eat without help. Worker termites feed them. Finally, the queen is the largest individual in the colony, usually considerably larger than workers, but unlike queen bees and ants, she has a mate who stays with her throughout her life, called a king. Some termite queens can live to be as much as 50 years old, and she and the king spend almost their entire lives underground in a nesting chamber. The larger the colony, the more likely it is that the colony has more than one queen. The main queen is usually the one that started the colony along with her king, and when it was new they did all the work—taking care of the eggs and babies, foraging for food, and building the nest itself. As the first workers grew up, they took on more of those tasks, including expanding the nest. Workers are small and their bodies have little to no pigment, so that they appear white. Some people call them white ants, but of course they’re not ants. Workers have to stay in a humid environment like the nest or their bodies dry out. Workers and soldiers don’t have eyes, although they can probably sense light and dark, and instead they navigate using their antennae, which can sense humidity and vibrations, and chemoreceptors that sense pheromones released by other termites. Termites have another caste that’s not as common, usually referred to as reproductives. These are future kings and queens, and they’re larger and stronger than workers. They also have eyes and wings. When outside conditions are right, usually when the weather is warm and humid, the reproductive termites leave the nest and fly away. Males and females pair off and search for a new nesting site to start their own colony. Termites mainly eat dead plant material, including plant material that most other animals can’t digest. A termite’s gut contains microbes that are found nowhere else in the world, which allow the termite to digest cellulose found in plants, especially wood. Baby termites aren’t born with these microbes, but they gain them from worker termites when the babies are fed or groomed. In some areas termites will eat the wood used to build houses, which is why people don’t like them, but termites are actually important to the ecosystems where they live, recycling nutrients and helping break down fallen trees so other plants can grow. They also host nitrogen-fixing bacteria, which are important to plant life. A recent study in Australia determined that termites are really important for rainforest health. In some parts of Australia, conservation groups have started planting rainforest trees to restore deforested areas. Decomposers like termites are slower to populate these areas, with one site that was studied 12 years after planting showing limited termite activity. That means it takes longer for fallen branches, logs, and stumps to decay, w

It’s a tiny mystery animal! Further reading: Salinella – what the crap was it? Some of Frenzel’s drawings of Salinella: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Johannes Frenzel was a German zoologist in the 19th century. He worked in Argentina for several years, studying microscopic and near-microscopic animals, and seemed to be a perfectly good scientist who did good work but didn’t make a real splash. But these days he’s remembered for a mystery animal that is still causing controversy in the scientific community. Frenzel described a strange worm-like animal he named Salinella salve in 1892, and Salinella hasn’t been seen since. According to Frenzel’s description of it, Salinella is very different from every other animal known. It’s so different, in fact, that some scientists think Frenzel just made the whole thing up. In 1890 or 1891, a colleague gave Frenzel a soil sample reportedly from the salt pans in Argentina. We don’t know exactly where it came from, just that it’s somewhere in the Río Cuarto region. Frenzel put the sample in an aquarium and added water, although apparently some iodine got mixed in too, either on purpose or maybe by accident. Then he forgot all about the sample for a few weeks. It wasn’t covered and Frenzel reported that some dead flies had fallen into the aquarium. When Frenzel finally got around to examining the sample, he discovered something he had never seen before. No one else had either, before or since. He said it was a worm-like animal about 2 millimeters long, and there wasn’t just one of them. There were quite a few in the sample, some in the soil and some attached to the glass. When he studied the tiny worms, he discovered they had a very basic, very unusual body plan. It was basically just a tube open at both ends, with a single layer of cells around the interior sac. Each cell was covered with cilia on both the exterior side of the animal and the interior side. Cilia are hair-like structures, and salinella used them to move around, a method of propulsion called ciliary gliding. It didn’t have any organs or even tissues—basically nothing you’d expect even in a very simple animal. It reproduced by splitting down the middle, called transverse fission. Assuming Frenzel was describing a real animal, and was describing it accurately, this body plan is unlike any other animal known. It’s most similar to what scientists think the body plan was of the precursors to sea sponges. It’s also similar in some ways to a group of parasitic animals called Mesozoa, which are wormlike, very simple, only a few millimeters long at most, and which have an outer layer of ciliated cells. Mesozoans aren’t well understood and most scientists these days think the group is made up of animals that aren’t closely related to each other. Salinella has sometimes been considered a mesozoan, but it’s still not that close of a match. Frenzel took detailed notes and made careful drawings of Salinella, and compared it to known animals like protozoans. His description of the animal is solid, and he described many other animals in his career that are well-known to scientists today. The main reason some scientists now think Frenzel made Salinella up is because it’s so weird and no one has been able to find it since. Frenzel died in 1897 without ever having the chance to look for more specimens. In 1963 an American biologist placed Salinella in its own phylum, which he named Monoblastozoa. In the early 2010s, a team of German scientists visited various saline lakes in Argentina and Chile in hopes of finding Salinella specimens, but without luck. The area where the original soil sample came from has mostly been converted to farmland, so if Salinella was restricted to that one spot, it might well be extinct now. So what happened to the type specimens that Frenzel collected? We don’t know. They vanished sometime between 1891 when Frenzel moved back to Germany from Argentina, and now. It might even be that he couldn’t preserve the specimens, since he reported that every time he tried to preserve one, it disintegrated. While I was researching this episode, I wondered if Salinella actually came from the flies that reportedly fell into the aquarium. Many parasites evolve to become very simple, like Myxozoa that we talked about in episode 422. But Frenzel observed Salinella apparently eating organic matter in the soil, which isn’t something a fly parasite would or could do. At this point, unless we can find a living Salinella specimen, there’s no way to know if the animal was real or a figment of Frenzel’s imagination. Some scientists even suggest that Frenzel was mistaken in his description and the real animal might actually be very different from what he described. Considering how detailed and careful Frenzel’s notes and drawings are, and how many other species he described without causing any controversy at all, I think Salinella was a real animal, just a weird on

It’s Invertebrate August! These creatures are the most invertebrate-y of all! Further reading: Dubious Diskagma Horodyskia is among the oldest multicellular macroorganisms, finds study A painting of diskagma, taken from the top link above: Little brown jug flowers (not related to diskagma in any way!): Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This episode started out as the March 2025 Patreon episode, but there was more I wanted to add to it that I didn’t have time to cover in that one. Here’s the expanded version to kick off Invertebrate August, which also happens to be episode 444 and releasing on August 4th! It’s about two mystery fossils. The first is named Diskagma, which means disc-shaped fragment, and it was only described in 2013. That’s partly because it’s so small, barely two millimeters long at most, and partly because of where it’s found. That would be fossilized in extremely old rocks. When I saw the illustration accompanying the blog post where I learned about Diskagma, I thought it was a cluster of cup-like flowers, sort of like the flowers of the plant called little brown jug. I was ready to send the link to Meredith Hemphill of the Herbarium of the Bizarre podcast, which by the way you should be listening to. But then I saw how old Diskagma is. It’s been dated to 2.2 billion years old. That’s older than any plant, probably by as much as a billion years. Even more astounding, it lived on land. As a reminder, the Cambrian explosion took place about half a billion years ago, when tiny marine animals diversified rapidly to fill new ecological niches. That happened in the water, though, mainly in shallow, warm oceans. If you go back to around 850 million years ago, that may have been roughly the time that land plants evolved from green algae that lived in fresh water. Plant-like algae, or possibly algae-like plants, might be as old as 1 billion years old. But before then, scientists don’t find evidence of anything except microbes living on land, and they were probably restricted to lakes and other bodies of fresh water. That’s because there wasn’t much soil, just broken-up rock that contained very few nutrients and couldn’t retain much water. Diskagma was shaped like a tiny elongated cup, or an urn or vase, with what looks like a stem on one end and what looks like an opening at the other end. The opening contained structures that look like little filaments, but the filaments didn’t fill the whole cup. Most of the cup was diskagma’s body, so to speak, although we don’t know what it contained. We also don’t know what the filaments were for. We do know that the stem actually did connect diskagma to other cups, so that they lived in little groups. We don’t know if it was a single animal with multiple cuplike structures or if it was a colony, or really anything. That’s the problem. We don’t know anything about diskagma except that it existed, and that it lived on land 2.2 billion years ago. Tiny as it was, though, it wasn’t microscopic, and it definitely appears more complex than would be expected that long ago, especially from something living on dry land. One suggestion is that the main part of its body contained a symbiotic bacteria that could convert chemicals to nutrients. As in many modern animals, especially extremophiles, the bacteria would have had a safe place to live and the diskagma would have had nutrients that allowed it to live without needing to eat. Diskagma lived at an interesting time in the earth’s history, called the great oxygenation event, also called the great oxidation event. We talked about it in episode 341 in conjunction with cyanobacteria, because cyanobacteria basically started the great oxygenation event. Cyanobacteria are still around, by the way, and are doing just fine. They’re usually called blue-green algae even though they’re not actually algae. 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, if you were wondering. 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 lifeform

I just wanted everyone to know that a listener has claimed the books and magazines I offered for giveaway in episode 443. You can also learn about 60 seconds’ worth of information about the African pygmy mouse. The tiniest mouse [photo by Alouise Lynch – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=59068329]:

Thanks to Jayson and warblrwatchr for suggesting this week’s invertebrates! Further reading: Parasite of the Day: Orthohalarachne attenuata Trap-jaw ants jump with their jaws to escape the antlion’s den Get out of my noooooose: An ant lion pit: An ant lion larva: A lovely adult antlion, Nannoleon, which lives in parts of Africa [photo by Alandmanson – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=58068259]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It’s almost August, and of course we’re doing invertebrate August again this year. Let’s get ready by talking about a few extra invertebrates this week, with suggestions from Jayson and warblrwatchr. Before we get started, I have some quick housekeeping. First, a big shout-out to Nora who emailed me recently. I just wanted to say hi and I hope you’re having a good day. Next, I’m moving in just a few weeks to Atlanta, Georgia! I know I was talking forever about moving to Bloomington, Indiana, but I changed my mind. The next few episodes are already scheduled so I can concentrate on moving. I’m about 75% packed at this point and have given away or sold a lot of stuff, including a lot of books. But I have a collection that a listener might be interested in. I offered it to the patrons last month but no one grabbed it, so I’ll offer it here. I have every issue of the little magazine Flying Snake ever published, 30 in all. They’re a fun hodgepodge of articles, reprinted newspaper clippings, old photos, and other stuff more or less associated with cryptozoology and weirdness in general. I’ve decided they take up too much space on my shelves to take with me to Atlanta. If you’re interested in giving them a home, let me know and I’ll box them up and send them to you for free. The first person who says they’ll take them will get them, but the catch is that you have to take them all. I won’t just send you a few. I’ll also throw in all four volumes of the Journal of Cryptozoology. This offer stands until mid-August when I move, because if I have to move them to my new apartment, I’m just going to keep them. Okay, now let’s learn about some invertebrates! First, Jayson wanted to learn about a tiny invertebrate called Orthohalarachne attenuata. It doesn’t have a common name because most people will never ever encounter it, or think about it, and I kind of wish I didn’t have to think about it because it’s gross. Thanks a lot, Jayson. It’s a mite that lives in the nasal passages of seals, sea lions, and walruses. It’s incredibly common and usually doesn’t bother the seal very much, although sometimes it can cause the seal to have difficulty breathing if the infestation is heavy. The adult mite spends its whole life anchored in the seal’s nasal passages with sharp little claws, although it can move around if it wants to. Its larvae are more active. The mite is mainly spread by seals sneezing on each other, which spreads the larvae onto another seal, and the larvae crawl into the new seal’s nose and mouth. Unless you’re a seal or other pinniped, this might sound gross but probably doesn’t bother you too much. But consider that in 1984, a man went to the doctor when one of his eyes started hurting. The doctor found a mite attached to his eyeball, and yes, it was Orthohalarachne attenuata. The man had visited Sea World two days before he started feeling pain in his eye, and happened to be close to some walruses that were sneezing. Luckily for pinnipeds kept in captivity in zoos that give their animals proper care, mite infestations can be treated successfully by veterinarians. Let’s move on quickly to an invertebrate that isn’t a parasite that can get in your eyes, the ant lion! It was suggested by warblrwatchr and I’ve been wanting to cover it for a while. When I was a kid, there was a strip of soft powdery dirt under the eaves of the school gym that always had ant lions in it, and I would squat down during recess and watch to see if any ants would fall in and get caught. Sometimes this did actually happen and the resulting battle between ant and ant lion was exciting and kind of horrible to witness. The ant lion is actually the larva of antlion lacewing, which look like a small damselfly that is mainly active at dusk. Ant lions live throughout the world, with more than 2,000 species known. Some wait for prey while hidden in leaf litter, while some hide in rock crevices and become camouflaged by lichens growing on them. Many others dig little pits in sand or soft dirt. They’re also called the doodlebug in some places, because when they’re looking for a place to dig a little pit, they make a loopy pattern in the dirt as they’re walking around. The ant lion’s body is robust and has little backwards-pointing bristles that help it dig itself into the dirt and stay there without moving until it needs to. It waits at the bottom of the pit, hidden underground with just its long, sharp jaws showing through the dirt

Further reading: The Trees That Miss the Mammoths The disappearance of mastodons still threatens the native forests of South America Study reveals ancient link between mammoth dung and pumpkin pie A mammoth, probably about to eat something: The Osage orange fruit looks like a little green brain: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. Way back at the end of 2017, I found an article called “The Trees That Miss the Mammoths,” and made a Patreon episode about it. In episode 320, about elephants, which released in March of 2023, I cited a similar article connecting mammoths and other plants. Now there’s even more evidence that extinct megafauna and living plants are connected, so let’s have a full episode all about it. Let’s start with the Kentucky coffeetree, which currently only survives in cultivation and in wetlands in parts of North America. It grows up to 70 feet high, or 21 meters, and produces leathery seed pods so tough that most animals literally can’t chew through them to get to the seeds. Its seed coating is so thick that water can’t penetrate it unless it’s been abraded considerably. Researchers are pretty sure the seed pods were eaten by mastodons and mammoths. Once the seeds traveled through a mammoth’s digestive system, they were nicely abraded and ready to sprout in a pile of dung. There are five species of coffeetree, and the Kentucky coffeetree is the only one found in North America. The others are native to Asia, but a close relation grows in parts of Africa. It has similar tough seeds, which are eaten and spread by elephants. The African forest elephant is incredibly important as a seed disperser. At least 14 species of tree need the elephant to eat their fruit in order for the seeds to sprout at all. If the forest elephant goes extinct, the trees will too. When the North American mammoths went extinct, something similar happened. Mammoths and other megafauna co-evolved with many plants and trees to disperse their seeds, and in return the animals got to eat some yummy fruit. But when the mammoths went extinct, many plant seeds couldn’t germinate since there were no mammoths to eat the fruit and poop out the seeds. Some of these plants survive but have declined severely, like the Osage orange. The Osage orange grows about 50 or 60 feet tall, or 15 to 18 meters, and produces big yellowish-green fruits that look like round greenish brains. Although it’s related to the mulberry, you wouldn’t be able to guess that from the fruit. The fruit drops from the tree and usually just sits there and rots. Some animals will eat it, especially cattle, but it’s not highly sought after by anything. Not anymore. In 1804, when the tree was first described by Europeans, it only grew in a few small areas in and near Texas. The tree mostly survives today because the plant can clone itself by sending up fresh sprouts from old roots. But 10,000 years ago, the tree grew throughout North America, as far north as Ontario, Canada, and there were seven different species instead of just the one we have today. 10,000 years ago is about the time that much of the megafauna of North and South America went extinct, including mammoths, mastodons, giant ground sloths, elephant-like animals called gomphotheres, camels, and many, many others. The osage orange tree’s thorns are too widely spaced to deter deer, but would have made a mammoth think twice before grabbing at the branches with its trunk. The thorns also grow much higher than deer can browse. Trees that bear thorns generally don’t grow them in the upper branches. There’s no point in wasting energy growing thorns where nothing is going to eat the leaves anyway. If there are thorns beyond reach of existing browsers, the tree must have evolved when something with a taller reach liked to eat its leaves. The term “evolutionary anachronism” is used to describe aspects of a plant, like the Osage orange’s thorns and fruit, that evolved due to pressures of animals that are now extinct. Scientists have observed evolutionary anachronism plants throughout the world. For instance, the lady apple tree, which grows in northern Australia and parts of New Guinea. It can grow up to 66 feet tall, or 20 meters, and produces an edible red fruit with a single large seed. It’s a common tree these days, probably because the Aboriginal people ate the fruit, but before that, a bird called genyornis was probably the main seed disperser of the lady apple. In episode 217 we talked about the genyornis, a flightless Australian bird that went extinct around 50,000 years ago but possibly more recently. It grew around 7 feet tall, or over 2 meters, and recent studies suggest it ate a lot of water plants. It would have probably eaten the lady apple fruit whenever it could, most likely swallowing the fruits whole and pooping the big seeds out later. Way back in episode 19 we talked about a tree on the island of Mauritius that relied on the dodo’s digestive system to a

Thanks to Maryjane and Siya for their suggestions this week! Further reading: Look, don’t touch: birds with dart frog poison in their feathers found in New Guinea The hooded pitohui: The rufous-naped bellbird: The regent whistler: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about some birds that by human standards seem pretty mean, although of course the birds are just being birds. Thanks to Maryjane and Siya for their suggestions this week! We’ll start with Maryjane’s suggestion, the Northern shrike. It lives in North America, spending winter in parts of Canada and the northern United States. In summer it migrates to northern Canada. It’s a lovely gray and black bird with a dark eye streak, white markings on its tail and wings that flash when it flies, and a hooked bill. It’s a strong bird about the size of an American robin, and both the male and female sing. They will sometimes imitate other bird songs, and during breeding season a pair will sing duets. The Northern shrike looks very similar to the loggerhead shrike that lives farther south, in the southern parts of Canada and throughout most of the United States and Mexico. Most important to us today, the Northern shrike is sometimes called the butcher bird, because in the olden days, butchers would hang meat up to cure–but we’ll get to that part. It prefers to live in the edges of a forest near open spaces, and in the summer it lives along the border of the boreal forest and tundra. While it’s just a little songbird, in its heart it’s a falcon or hawk. It eats a lot of insects and other invertebrates, especially in summer, but it mainly kills and eats other songbirds and small mammals like mice and lemmings, even ones that are bigger and heavier than it is. The shrike has ordinary feet for a perching bird, not talons, but its feet are strong and can hold onto struggling prey. Its beak is deadly to small animals. The bill has a sharp hook at the end and is notched so that it has two little projections that act like fangs. It will hover and drop onto its prey, or grab a bird in mid-flight and bear it to the ground to kill it. Sometimes it will hop along the ground until it startles a bird or insect into flying away. It will even flash the white patches on its wings to frighten hidden prey into moving. If the shrike kills a wasp or bee, it will remove the stinger before eating it. It will pick off the wings of large insects and will sometime beat a dead insect against a rock or branch to soften it up and break off parts of the hard exoskeleton before eating it. Shrikes are territorial and will chase away birds that are much bigger than them, like ducks and even geese. During nesting season, the female takes care of the eggs and the male provides food for her. To prove that he can provide lots of food for the female while she’s incubating the eggs, he will cache food throughout his territory in advance. This is something shrikes do anyway, but it’s especially important during nesting season. If a shrike catches an animal it doesn’t want to eat right away, it will store it for later. It will cram it into a crack in a rock, impale it on a thorn or other sharp item like the points of a barbed wire fence, or wedge it into the fork of a tree branch. Then it can come back and eat it in a day or two when it’s hungry, or take the food to its mate. When the eggs hatch, both parents help feed the babies. When the babies are old enough to leave the nest, the parents go their separate ways, but they will often each take some of the fledglings with them so they can continue to feed them and help them learn to hunt. Since a nest can have as many as nine babies, it’s not always possible for one parent to take all the babies. The siblings stick together even once they’re mostly grown and independent, often through their first winter. This is what a Northern shrike sounds like: [Northern shrike call] We talked about some poisonous birds in episode 222, but Siya wanted to learn more about them. In that episode we mostly talked about the hooded pitohui, but since then, two more poisonous birds have been discovered in New Guinea. Let’s refresh our memories about the hooded pitohui, mostly because its discovery by scientists is such a fun story. The hooded pitohui lives in forests throughout much of New Guinea and eats seeds, insects and other invertebrates, and fruit. It’s related to orioles and looks very similar, with a dark orange body and black wings, head, and tail. It’s a social songbird that lives in family groups where everyone works to help raise the babies. The people who live in New Guinea knew all about its toxicity, of course. They mentioned this to European naturalists as long ago as 1895, but weren’t believed, because the scientists had never heard of a toxic bird. It wasn’t until 1989 that a grad student studying birds of paradise made a surprising discovery. Jack Dumbacher was trying to n

Thanks to Micah for suggesting this week’s topic, the trilobite! Further reading: The Largest Trilobites Stunning 3D images show anatomy of 500 million-year-old Cambrian trilobites entombed in volcanic ash Strange Symmetries #06: Trilobite Tridents Trilobite Ventral Structures A typical trilobite: Isotelus rex, the largest trilobite ever found [photo from the first link above]: Walliserops showing off its trident [picture by TheFossilTrade – Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=133758014]: Another Walliserops individual with four prongs on its trident [photo by Daderot, CC0, via Wikimedia Commons]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to learn about an ancient animal that was incredibly successful for millions of years, until it wasn’t. It’s a topic suggested by Micah: the trilobite. Trilobites first appear in the fossil record in the Cambrian, about 520 million years ago. They evolved separately from other arthropods so early and left no living descendants, that they’re not actually very closely related to any animals alive today. They were arthropods, though, so they’re distantly related to all other arthropods, including insects, spiders, and crustaceans. The word trilobite means “three lobes,” which describes its basic appearance. It had a head shield, often with elaborate spikes depending on the species, and a little tail shield. In between, its body was segmented like a pillbug’s or an armadillo’s, so that it could flex without cracking its exoskeleton. Its body was also divided into three lobes running from head to tail. Its head and tail were usually rounded so that the entire animal was roughly shaped like an oval, with the head part of the oval larger than the tail part. It had legs underneath that it used to crawl around on the sea floor, burrow into sand and mud, and swim. Some species could even roll up into a ball to protect its legs and softer underside, just like a pillbug. Because trilobites existed for at least 270 million years, there were a lot of species. Scientists have identified about 22,000 different species so far, and there were undoubtedly thousands more that we don’t know about yet. Most are about the size of a big stag beetle although some were tinier. The largest trilobite found so far lived in what is now North America, and it grew over two feet long, or more than 70 centimeters, and was 15 inches wide, or 40 cm. It’s named Isotelus rex. I. rex had 26 pairs of legs, possibly more, and prominent eyes on the head shield. Scientists think it lived in warm, shallow ocean water like most other trilobites did, where it burrowed in the bottom and ate small animals like worms. There were probably other species of trilobite that were even bigger, we just haven’t found specimens yet that are more than fragments. Because trilobites molted their exoskeletons the way modern crustaceans and other animals still do, we have a whole lot of fossilized exoskeletons. Fossilized legs, antennae, and other body parts are much rarer, and preserved soft body parts are the rarest of all. We know that some trilobite species had gills on the legs, some had hairlike structures on the legs, and many had compound eyes. A specimen with preserved eggs inside was also found recently. Some incredibly detailed trilobite fossils have been found in Morocco, including details like the mouth and digestive tract. The detail comes from volcanic ash that fell into shallow coastal water around half a billion years ago. The water cooled the ash enough that when it fell onto the trilobites living in the water, it didn’t burn them. It did suffocate them, though, since so much ash fell that the ocean was more ash than water. The ash was soft and as fine as powder, and it covered the trilobites and protected their bodies from potential damage, while also preserving the body details as they fossilized over millions of years. The fossils were discovered in 2015, about 509 million years after the trilobites died, and are still being studied. Two species of trilobite have been found at this Morocco site, and the team is using non-invasive technology to study the preserved insides in one exceptionally preserved specimen. Its entire digestive system is intact, probably because the poor trilobite ended up swallowing a lot of ash before it died. The ash kept the soft tissues from decomposing. Some trilobites had spines growing from their head shields and even from the rest of the exoskeleton. Scientists think these may have helped protect the animals from being eaten, but they might also have helped them navigate more easily in the water without getting flipped over by currents. One genus of trilobite, Walliserops, even had a structure sticking out from the front of its head called a trident. The trident grew forward and slightly upward from the head, then split into three prongs. Scientists aren’t sure what it was for, bu

Thanks to Cara for suggesting we talk about the long-beaked echidna this week! Further reading: Found at last: bizarre, egg-laying mammal finally rediscovered after 60 years A short-beaked echidna: The rediscovered Attenborough’s long-beaked echidna: 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 Cara, the echidna, also called the spiny anteater. It’s a type of mammal, but it’s very different from almost all the mammals alive today. We talked about the echidna briefly in episode 45, but this week we’re going to learn more about it, especially one that was thought to be extinct but was recently rediscovered. Cara specifically suggested we learn about the long-beaked echidna, which lives only in New Guinea. The short-beaked echidna lives in New Guinea and Australia. The names short and long beaked make it sound like the echidna is a bird, but the beak is actually just a snout. It just looks beak-like from a distance and is covered with tough skin, sort of like the platypus’s snout is sometimes called a duck-bill. In June and July of 2023, an expedition made up of scientists and local experts from various parts of Indonesia, as well as from the University of Oxford in England, discovered and rediscovered a lot of small animals in the Cyclops Mountains. They even discovered an entire cave system that no one but some local people had known about, and they discovered it when one of the expedition members stepped on a mossy spot in the forest and fell straight through down into the cave. But one animal they were really hoping to see hadn’t made an appearance and they worried it was actually extinct. That one was Attenborough’s long-beaked echidna, a type of mammal known as a monotreme. There are three big groups of mammals. The biggest is the placental mammal group, which includes humans, dogs, cats, mice, bats, horses, whales, giraffes, and so on. A female placental mammal grows her babies inside her body in the uterus, each baby wrapped in a fluid-filled sac called a placenta. Placental mammals are pretty well developed when they’re born. The second type is the marsupial mammal group, which includes possums, kangaroos, koalas, wombats, sugar gliders, and so on. A female marsupial has two uteruses, and while her babies initially grow inside her, they’re born very early. A baby marsupial, called a joey, is just a little pink squidge about the size of a bean that’s not anywhere near done growing, but it’s not completely helpless. It has relatively well developed front legs so it can crawl up its mother’s fur and find a teat. Some species of marsupial have a pouch around its teats, like possums and kangaroos, but other species don’t. Once the baby finds a teat, it clamps on and stays there for weeks or months while it continues to grow. The third and rarest type of mammal these days is the monotreme group, and monotremes lay eggs. But their eggs aren’t like bird eggs, they’re more like reptile eggs, with a soft, leathery shell. The female monotreme keeps her eggs inside her body until it’s almost time for them to hatch. The babies are small squidge beans like marsupial newborns, and I’m delighted to report that they’re called puggles. There are only two monotremes left alive in the world today, the platypus and the echidna. The echidna has a pouch and after a mother echidna lays her single egg, she tucks it in the pouch. Monotremes show a number of physical traits that are considered primitive. Some of the traits, like the bones that make up their shoulders and the placement of their legs, are shared with reptiles but not found in most modern mammals. Other traits are shared with birds. The word monotreme means “one opening,” and that opening, called a cloaca, is used for reproductive and excretory systems instead of those systems using separate openings. It wasn’t until 1824 that scientists figured out that monotreme moms produce milk. They don’t have teats, so the puggles lick the milk up from what are known as milk patches. Before then a lot of scientists argued that monotremes weren’t mammals at all and should either be classified with the reptiles or as their own class, the prototheria. It’s easy to think, “Oh, that mammal is so primitive, it must not have evolved much since the common ancestor of mammals, birds, and reptiles was alive 315 million years ago,” but of course that’s not the case. It’s just that the monotremes that survived did just fine with the basic structures they evolved a long time ago. There were no evolutionary pressures to develop different shoulder bones or stop laying eggs. Other structures have evolved considerably. Monotremes aren’t closely related to any of the other mammals alive today, either marsupial or placental mammals. The last shared ancestor lived at least 163 million years ago and possibly much earlier, maybe even 220 million years ago. The first dinosaurs lived around 230 million yea

This week we’re going to learn about a new finding about the skull referred to as the Dragon Man! Further reading: We’ve had a Denisovan skull since the 1930s—only nobody knew The proteome of the late Middle Pleistocene Harbin individual Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. It never fails that only a few days after our annual updates episode, a study is published that’s an important update to an older episode. This time it’s an update so important that it deserves its own episode, so let’s learn more about one of our own extinct close relations, the Denisovan people. We didn’t know about the Denisovans until 2010, when DNA was sequenced from a finger bone found in Denisova Cave in Siberia in 2008. Scientists were surprised when the DNA didn’t match up with Neanderthal DNA, which is what they expected, since they knew Neanderthals had lived in the cave at various times over thousands of years. Instead, the DNA was for a completely different hominin, a close relation of both humans and Neanderthals. Since then, researchers have found some Denisovan teeth, two partial mandibles, a rib fragment, and some other bone fragments, but nothing that could act as a type specimen. The type specimen is the preserved specimen of a new species, which is kept for scientists to study. It needs to be as complete as possible, so a handful of fragments just won’t work. Even without a type specimen, having Denisovan DNA answered some questions about our own history as a species. Ever since scientists have been able to sequence genetic material from ancient bones, they’ve noticed something weird going on with our DNA. Some populations of people show small traces of DNA not found in other human populations, so scientists suspected they were from long-ago cross-breeding with other hominin species. When the Neanderthal genome was sequenced, it matched some of the unknown DNA traces, but not all of them. Mystery DNA sequences in a closely related population are called ghost lineages. The Denisovan DNA matched the ghost lineage scientists had identified in some populations of people, especially ones in parts of east Asia, Australia, and New Guinea. This is your reminder that despite tiny genetic differences like these, all humans alive today are 100% human. We are all Homo sapiens. Naturally, we as humans are interested in our family tree. We even have an entire field of study dedicated to studying ancient humans and hominins, paleoanthropology. Lots of scientists have studied the Denisovan remains we’ve found, along with the genetic material, but they really need a skull to learn so much more about our long-extinct distant relations. Luckily, we’ve had a Denisovan skull since the 1930s. But wait, you may be saying, you just said we didn’t have anything but bone fragments and teeth! Why didn’t you mention the skull? It’s because the skull was hidden by its finder, a Chinese construction worker. The man was helping build a bridge and was ashamed that he was working for a Japanese company. That region of China was under Japanese occupation at the time, and the man didn’t want anyone to know that he was working for people who were treating his fellow citizens badly. He thought the skull was an important find similar to the Peking Man discovery in 1929, so he hid the skull at the bottom of an abandoned well to keep it safe. He didn’t dare share any information about it until he was on his death-bed, when he whispered his secret to his son. It wasn’t until 2018 that the man’s family took another look at the skull and realized it definitely wasn’t an ordinary human skull. It was obviously extremely old and had a pronounced brow and really big teeth. In 2021 the skull was classified as a new species of hominin, Homo longi, where the second word comes from the Mandarin word for dragon. That’s because the area where it was found is called Dragon River. But not everyone agreed that the Dragon Man skull, as it came to be known, was actually a new species. Scientists continued to study the skull, and finally, a paleoanthropologist named Qiaomei Fu and her team managed to extract DNA from the skull and one of its teeth. The resulting genetic profile indicated that the Dragon Man was a Denisovan. The skull has been dated to 146,000 years ago, possibly older. It’s nearly complete, which provides a lot of information to scientists. Scientists are pretty sure Dragon Man was a fully grown male, but less than 50 years old when he died. So what did Dragon Man look like when he was alive? We don’t know how tall he was or his overall build, although from the other Denisovan bones we have, we know Denisovans were a strong, robust people, similar to Neanderthals, and were more closely related to Neanderthals than humans. Dragon Man would have had a pronounced brow that would probably make his eyes look deep-set, and a large nose but a receding chin. Genetic markers indicate he probably had dark hair and eyes, a

Thanks to Nicholas, Måns, Warblrwatchr, Llewelly, and Emerson this week, in our yearly updates episode! Further reading: An Early Cretaceous Tribosphenic Mammal and Metatherian Evolution Guam’s invasive tree snakes loop themselves into lassos to reach their feathered prey Rhythmically trained sea lion returns for an encore — and performs as well as humans Scientists Solve Mystery of Brown Giant Pandas Elephant turns a hose into a sophisticated showering tool New name for one of the world’s rarest rhinoceroses Antarctica’s only native insect’s unique survival mechanism Komodo dragons have iron-coated teeth to rip apart their prey The nutria has really orange teeth: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week is our annual updates episode, and we’ll also learn about an animal suggested by Emerson. But first, we have some corrections! Nicholas shared a paper with me that indicates that marsupials actually evolved in what is now Asia, with marsupial ancestors discovered in China. They spread into North America later. So I’ve been getting that wrong over many episodes, over several years. Måns shared a correction from an older episode where I mentioned that humans can’t get pregnant while breastfeeding a baby. I’ve heard this all my life but it turns out it’s not true. It is true that a woman’s fertility cycle is suppressed after giving birth, but it’s not related to breastfeeding. Some women can become pregnant again only a few months after giving birth, while others can’t get pregnant again for a few years. It depends on the individual. That’s important, since the myth is so widespread that many women get pregnant by accident thinking they can’t since they’re still feeding a baby. Warblrwatchr commented on the ultraviolet episode and mentioned that cats can see ultraviolet, which is useful to them because mouse urine glows in UV light. Finally, Llewelly pointed out that in episode 416, I didn’t mention that fire ant venom isn’t delivered when the ant bites someone. The ant bites with its mandibles to hold on, then uses the stinger on its back end to sting repeatedly. Now, let’s dive into some updates about animals we’ve talked about in past episodes. As usual, I don’t try to give an update on every single animal, because we’d be here all week if I did. I just chose interesting studies that caught my eye. In episode 402, we talked about snakes that travel in unusual ways, like sidewinders. Even though I had a note to myself to talk about the brown tree snake in that episode, I completely forgot. The brown tree snake is native to parts of coastal Australia and many islands around Indonesia and Papua New Guinea. It’s not native to Guam, which is an island in the western Pacific, way far away from the brown tree snake’s home. But in the late 1940s, some brown tree snakes made their way to Guam in cargo ships and have become invasive since then. The brown tree snake can grow up to six and a half feet long, or 2 meters, and is nocturnal, aggressive, and venomous. It’s not typically a danger to adults, but its venom can be dangerous to children and pets. The government employs trained dogs to find the snakes so they can be removed, and this has worked so well that brown tree snake population is declining rapidly on the island. But that hasn’t stopped the snake from driving many native animals to extinction in the last 75 years, especially birds. One of the things scientists did in Guam to try and protect the native birds was to place smooth poles around the island so birds could nest on top but snakes couldn’t climb up to eat the eggs and chicks. But before long, the snakes had figured out a way to climb the poles, a method never before documented in any snake. To climb a pole, the snake wraps its body around it, with the head overlapping the tail. Then it sort of scoots itself up the pole with tiny motions of its spine, a slow, difficult process that takes a lot of energy. Tests of captured brown tree snakes afterwards showed that not all snakes are willing or able to climb poles this way. Scientists think the brown tree snake evolved this method of movement to climb smooth-trunked trees in its native habitat. They also suspect some other species of snake can do the same. Way back in episode 23 we talked about musical animals, including how some species can recognize and react to a rhythmic beat while most can’t. Sea lions are really good at it, especially a sea lion named Ronan. Ronan was rescued in 2009 when she was a young sea lion suffering from malnutrition, wandering down a highway in California. She was determined to be non-releasable after she recovered, so she’s been a member of the Pinniped Lab in the University of California – Santa Cruz ever since, where she participates in activities that help scientists study sea lions. The rhythm studies are only one of the things she does, and only occasionally. The scientists put on a metronome and she bobs he

Thanks to Trech for suggesting this week’s topic, the red-eyed tree frog! Further reading: Tadpoles hatch in seconds to escape predator The colorful red-eyed tree frog [photo by Geoff Gallice]: Show transcript: Welcome to Strange Animals Podcast. I’m your host, Kate Shaw. This week we’re going to have a short little episode about a little frog, suggested by Trech. The frog in question is the red-eyed tree frog, which is native to Central America, including parts of Mexico, and northwestern South America. It lives in forests, always around water. You might be thinking, “of course, frogs live in water,” but remember that this is a tree frog. It lives in trees. But it still needs water for its babies, just not quite in the way most frogs do. Before we learn about that, let’s learn about the frog itself. A big female can grow about 3 inches long, or 7.5 cm, while males are smaller. It’s a cute frog, of course, because frogs are always cute, but it’s also brightly colored. It’s bright green with red eyes, blue and yellow stripes on its sides, and orange feet. Ordinarily, a frog with such bright colors would warn potential predators that it’s toxic, but the red-eyed tree frog isn’t toxic at all. Its bright colors have a different purpose. When it’s sitting on a leaf, the bright colors are hidden and only the frog’s smooth green back is showing, which makes it look like just another leaf. Only its eyes are bright, but it closes its eyes when it’s resting. But if a predator approaches, the frog opens its eyes suddenly and jumps up, revealing all those bright colors. The predator is startled, and maybe even hesitates because it thinks the frog might be toxic, and by the time the predator decides it should try eating the frog after all, the frog is long gone. Oh, and if you’re wondering, the red-eyed tree frog can see through its eyelids. They’re actually not eyelids like we have, but a membrane that it can move over its eyes. The frog is nocturnal and eats insects like mosquitoes, crickets, and moths. It has a good sense of smell, which helps it find insects in the dark. The tree frog also has suction cups on its toes that help it stay put on smooth leaves. During the day it sticks itself to the underside of a leaf to sleep where it’s more hidden. The female also lays her eggs on the underside of a leaf. This protects them from heavy rain, since the frogs breed during the rainy season, and it also helps hide them from predators. The female chooses a leaf that’s growing above water, and if the leaf isn’t very big she’ll lay eggs on both sides of it and fold the leaf to help hide all the eggs. The eggs stick to the leaf with a type of jelly that also helps keep them from drying out. The eggs hatch in about a week, but they can hatch a few days early if a predator approaches. The embryonic tadpoles in their eggs can sense vibrations, and if a predator like a snake shakes the leaf as it approaches the eggs, the tadpoles can hatch within seconds. They drop straight down into the water below the leaf. Hatching early when in danger is called phenotypic plasticity, and it’s really rare. It’s especially unusual because the embryonic tadpoles can actually tell the difference between a typical predator of frog eggs and vibrations caused by other animals or the wind. They can hatch so quickly because the stress reaction causes the pre-tadpoles to secrete an enzyme from their little noses, which weakens the egg wall and allows them to push and wiggle their way out. Tadpoles stay in the water for several weeks, or sometimes several months depending on conditions, during which time they eat algae and other tiny food in the water. As they grow bigger, the tadpoles can eat bigger food, including other tadpoles. They switch to tiny insects after they metamorphose into froglets. At some point during its development, a red-eyed tree frog needs to eat enough food containing carotenoids in order to develop properly, and in order to develop brightly colored skin as an adult. The red-eyed tree frog is a popular pet, but captive-bred frogs sometimes aren’t as brightly colored because they didn’t get enough of the right foods as young frogs. During breeding season, a male will claim a small branch and jump and bounce around on it, both to call attention to himself and to shake other males off the branch. He also croaks loudly to attract a mate. This is what he sounds like: [frog call] You can find Strange Animals Podcast at strangeanimalspodcast.blubrry.net. That’s blueberry without any E’s. If you have questions, comments, or suggestions for future episodes, email us at [email protected]. We also have a Patreon at patreon.com/strangeanimalspodcast if you’d like to support us for as little as one dollar a month and get monthly bonus episodes. Thanks for listening!