Episode 075: Archelon and Other Giant Sea Turtles

Posted on July 9, 2018 by strangeanimalspodcast

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This week we’re going to find out about the biggest turtles that ever lived! Spoiler: one of them is alive right now, swimming around eating jellyfish.

A green sea turtle. These guys are adorable:

A hawkbill glowing like a neon sign!

The majestic and enormous leatherback:

Bebe leatherback. LET ME GOW

Seriously, how are baby sea turtles so darn cute?

Archelon was a big tortle:

Further reading:

This is a link to a pdf of that “Historicity of Sea Turtles Misidentified as Sea Monsters” article

Show transcript:

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

This week we’re back in the sea, but not the deep sea this time, because we’re looking at marine turtles!

The oldest known turtle ancestor lived around 220 million years ago, but it wouldn’t have looked a whole lot like a modern turtle. For one thing, it had teeth instead of a bill. It resembled a lizard with wide ribs that protected its belly. It lived in the ocean, probably in shallow inlets and bays, but it may have also spent part of its time on land. Some researchers think it may have had at least a partial shell formed from extensions of its backbone, but that this didn’t fossilize in the three specimens we have.

The oldest sea turtle fossil found so far has been dated to 120 million years old. It was seven feet long, or 2 meters, and already showed a lot of the adaptations that modern sea turtles have. Researchers think it was closely related to the green sea turtle and the hawksbill sea turtle.

Seven species of sea turtle are alive today. They all have streamlined shells and flippers instead of feet. They all breathe air, but they have big lungs and can stay underwater for a long time, up to about an hour while hunting, several hours when asleep or resting. Like whales, they surface and empty their lungs, then take one huge breath. They can see well underwater but can probably only hear low-frequency sounds.

Sea turtles have a special tear gland that produces tears with high salt concentration, to release excess salt from the body that comes from swallowing sea water. They migrate long distances to lay eggs, thousands of miles for some species and populations, and usually return to the same beach where they were hatched. Female sea turtles come ashore to lay their eggs in sand, but the males of most species never come ashore. The exception is the green sea turtle, which sometimes comes ashore just to bask in the sun. Once the babies hatch, they head to the sea and take off, swimming far past the continental shelf where there are fewer predators. They live around rafts of floating seaweed call sargassum, which protects them and attracts the tiny prey they eat.

Six of the extant sea turtles are relatively small. Not small compared to regular turtles, small compared to the seventh living sea turtle, the leatherback. More about that one in a minute. The other six are the green, loggerhead, hawksbill, Kemp’s ridley and Olive ridley, and the flatback.

Let’s start with the green sea turtle, since I just mentioned it. Its shell is not always green. It can be brown or even black depending on where it spends most of its life. Green turtles that live in colder areas of the Pacific have darker shells, which probably helps them stay warm by absorbing more heat from sunlight. Young turtles have darker shells than old turtles for the same reason.

The green sea turtle can grow up to five feet long, or 1.5 meters, can live some 80 years, and mostly eats plants, especially seagrass, although babies eat small animals like worms, jellyfish, and fish eggs. A recent satellite tracking study of green sea turtles in the Indian Ocean tracked the turtles to a huge underwater seagrass meadow that no human realized existed until then. The meadows were farther underwater than the ones researchers knew about, up to 95 feet deep, or 29 meters. Researchers think the seagrass can grow at these depths because the water is so clear in the area, which means more light for the plants.

Unlike the green sea turtle, which lives throughout much of the world’s oceans, the flatback sea turtle is only found around Australia. It’s greenish or grayish and only grows around 3 feet long, or 95 cm, and eats invertebrates of various kinds, including jellyfish, shrimp, and sea cucumbers. It stays near shore in shallow water and doesn’t migrate, so it’s mostly safe from getting tangled in commercial fishing nets that kill a lot of other sea turtle species.

The smallest sea turtle is the olive ridley, which only grows around two feet long, or 60 cm. Its shell is roughly heart-shaped and is usually olive green. It mostly lives in tropical waters and is the most common sea turtle of all the living species, but getting rarer. It likes warm, shallow water and eats small animals like snails, jellyfish, and sea urchins.

Kemp’s ridley sea turtle is closely related to the olive ridley, and is not much larger. It grows to around 28 inches long, or 70 cm, and eats the same things as the olive ridley. It also likes the same warm, shallow waters, but it nests exclusively along the Gulf Coast of North America. Oil spills in the Gulf have killed so many turtles that the species is now listed as critically endangered. Conservationists sometimes remove eggs to safer, cleaner beaches where babies are more likely to hatch and survive. Besides oil spills and other types of pollution, Kemp’s ridley sea turtles are often killed when they get tangled in shrimp nets and drown. Fortunately, shrimp trawlers in the Gulf now use turtle excluders, which help keep turtles from getting tangled.

The hawksbill sea turtle grows to around three feet long, or 1 meter, and lives around tropical reefs. It has a more pointed, hooked beak than other sea turtles, which gives it its name. You might think it eats fish or something with a beak like that, but mostly it eats jellyfish and sea sponges. It especially likes the sea sponges, some of which are lethally toxic to most other animals. It also doesn’t have a problem eating even extremely stingy jellies and jelly-like animals like the Portuguese man-o-war. The hawkbill’s head is armored so the stings don’t bother it, although it does close its eyes while it chomps down on jellies. People used to kill hawksbill sea turtles for their multicolored shells, but don’t eat them. Its meat can be toxic due to the toxins it ingests.

The hawksbill is also biofluorescent! Researchers only found this out by accident in 2015, when a team studying biofluorescent animals in the Solomon Islands saw and filmed a hawksbill glowing like a UFO with neon green and red light. Researchers still don’t know why and how the hawksbill glows. They think the red color may be emitted by certain algae that grow on hawksbill shells, but the green appears to be emitted by the turtle itself. Since the hawksbill lives mostly around coral reefs, where many animals biofluoresce, researchers hypothesize it might be a way for the turtle to blend in. If everyone’s glowing, the big turtle-shaped spot that isn’t glowing would give it away. Then again, since male turtles glow more brightly than females, researchers also think it may be a way to attract mates.

Finally, the loggerhead sea turtle grows to a little longer than three feet, or 95 cm, and its shell is usually reddish-brown. It lives throughout the world’s oceans and while it nests in a lot of places, many loggerheads lay their eggs on Florida beaches. It eats invertebrates like bivalves and sponges, barnacles and jellyfish, starfish, plants, and lots of other things, including baby turtles. Its jaws are powerful and it has scales on its front flippers that stick out a little, called pseudoclaws, which allow it to manipulate its food or tear it into smaller pieces.

All sea turtles are endangered and are protected worldwide, although some countries enforce the protection more than others. Some people still eat sea turtles and their eggs, even though both can contain bacteria and toxic metals that make people sick. But mostly it’s habitat loss, pollution, and fishing nets and longlines that kill turtles.

People want to build houses on the beach, or drive their cars on the beach, and that destroys the habitat female turtles need to lay their eggs. Turtles also get stuck in fishing equipment and drown. And there’s so much plastic floating around in the sea that all sorts of animals are affected, not just turtles. A floating plastic bag or popped balloon looks like a jellyfish to a sea turtle that doesn’t know what plastic is. A turtle can eat so much plastic that its digestive system becomes clogged and it dies. One easy way you can help is to remember your reusable bag when you go shopping. The fewer plastic bags that are made and used, the fewer will find their way into the ocean. Some countries have banned plastic shopping bags completely.

Now let’s talk about the leatherback turtle. It’s much bigger than the others and not very closely related to them. It can grow some nine feet long, or 3 meters, and instead of having a hard shell like other sea turtles, its carapace is covered with tough, leathery skin studded with tiny osteoderms. Seven raised ridges on the carapace run from head to tail and make the turtle more stable in the water, a good thing because leatherbacks migrate thousands of miles every year. Not only is the leatherback the biggest and heaviest turtle alive today by far, it’s the heaviest living reptile that isn’t a crocodile. It has huge front flippers, is much more streamlined even than other sea turtles, and has a number of interesting adaptations to life in the open ocean.

The leatherback lives throughout the world, from warm tropical oceans up into the Arctic Circle. It mostly eats jellyfish, so it goes where the jellyfish go, which is everywhere. It also eats other soft-bodied animals like squid. To help it swallow slippery, soft food when it doesn’t have the crushing plates that other sea turtles have, the leatherback’s throat is full of backwards-pointing spines. What goes down, will not come back up, which is great when the turtle swallows a jellyfish, not so great when it swallows a plastic bag.

The leatherback can dive as deep as 4,200 feet, or almost 1,300 meters. Even most whales don’t dive that deep. But it’s a reptile, so how does it manage to survive in such cold water, whether in the Arctic Ocean or nearly a mile below the water’s surface?

The leatherback’s metabolic rate is high to start with, and it swims almost constantly. Its muscles generate heat as they work, which keeps the turtle’s body warmer than the surrounding water, as much as 30 degrees Fahrenheit warmer, or 18 degrees Celsius. Its flippers and throat also use a system called countercurrent heat exchange, where blood that has been chilled by outside temperatures returns to the heart in veins that surround arteries containing warm blood flowing from the heart. By the time the cool blood reaches the heart, it’s been warmed by the arterial blood. This keeps heat inside the body’s core.

Unlike other sea turtle species, leatherbacks don’t necessarily return to the same beach where they were hatched to lay their eggs. Females usually nest every two or three years and lay about 100 eggs per nest. No one is sure how long leatherbacks live, but it may be a very long time. Most turtles have long lifespans, and many sea turtle species don’t even reach maturity until they’re a couple of decades old.

One interesting thing about sea turtles, which is also true of many other reptiles, is that the temperature of the egg determines whether the baby turtle will develop into a male or female. Cooler temperatures produce mostly male babies, warmer temperatures produce mostly female babies. This is pretty neat, until you remember that the global temperature is creeping up. A new study of sea turtles around Australia’s northern Great Barrier Reef found that almost all baby turtles hatching there are now female—up to 99.1% of all babies hatched. Another study found the same results in sea turtle nests in Florida, where 97 to 100% of all babies are female. The studies also found that the amount of water in the nest’s sand also contributes to whether babies are male or female, with drier nests producing more females. Researchers are considering incubating some nests in climate-controlled rookeries to ensure that enough males hatch and survive to produce the next generation.

So those are the seven types of sea turtle alive today. Now let’s talk about an extinct sea turtle, a relative of the leatherback. This is archelon, and it was huge.

Archelon was the biggest turtle that has ever lived, as far as we know. The first fossil archelon was discovered in 1895 in South Dakota, in rocks that were around 75 million years old. The biggest archelon fossil ever found came from the same area, and measures 13 feet long, or 4 meters. It’s even broader from flipper to flipper, some 16 feet wide, or 5 meters. It lived in the shallow sea that covered central North America during the Cretaceous, called the Western Interior Seaway. I like that name. Its shell was leathery and probably flexible like the leatherback’s, but unlike the leatherback, it wasn’t teardrop shaped. In fact, it was very round. Since it lived at the same time as mosasaurs, its wide shell may have kept it from being swallowed by predators. It probably ate squid and jellyfish like the leatherback, and researchers think it was probably a slow swimmer. It went extinct at the same time as the dinosaurs, but fortunately its smaller relations survived.

We don’t know if that 13-foot-long archelon was an unusually large specimen, an average specimen, or a small specimen. It was probably on the large size, but it’s a good bet that there were larger individuals swimming around 75 million years ago. We don’t know if leatherbacks occasionally get bigger than nine feet long, for that matter. But we do have reports of sea turtles that are much, much bigger than any sea turtles known.

In August of 2008, a 14-year-old boy snorkeling in Hawaii reported swimming above a sea turtle that was resting on the bottom of a lagoon. He estimated the turtle was eight to ten feet across with a round shell. At the time he didn’t realize that was unusual. He also reported seeing a geometric pattern on the shell, which is not a feature of the leatherback or archelon but is present in other sea turtles. So if his estimation of size is correct, he saw a sea turtle far bigger than any living today.

In 1833, a schooner off the coast of Newfoundland came across what they thought was an overturned boat. When the crew investigated, they discovered it wasn’t a boat at all but an enormous leatherback turtle, which they reported was 40 feet long, or 12 meters.

Many sea serpent sightings may actually be misidentifications of sea turtles. Sea turtles do have relatively long necks which they can and do raise out of the water. A long neck with a small head sticking out of the water, with a hump behind it, describes a lot of sea serpent reports. It’s also possible that some sea serpent reports are actually sightings of sea turtles entangled with fishing nets and other debris that the turtle drags with it as it swims, which may look like a long snake-like tail behind a humped body.

For instance, in 1934 some fishermen off the coast of Queensland, Australia spotted what they thought was a sea serpent. I’ll quote the description, which is from an article with the lengthy title of “Historicity of Sea Turtles Misidentified as Sea Monsters: A Case for the Early Entanglement of Marine Chelonians in Pre-plastic Fishing Nets and Maritime Debris” by Robert France. I’ll put a link in the show notes in case you want to read the article, if I can find it again. I printed it out so I could keep it.

Anyway, the fishermen reported that the sea serpent looked like this:

“The head rose about eight feet out of the water, and resembled a huge turtle’s head…the colour was greyish-green. The eye…was small in comparison to the rest of the monster. The other part in view was three curved humps about 20 feet apart, and each one rose from six feet in the front to a little less in the rear. They were covered with huge scales about the size of saucers, and also covered in barnacles. We could not get a glimpse of the tail, as it was under the water.”

Robert France suggests that this was a sea turtle entangled with a string of fishing gear, specifically fishing floats. He also gives a number of other examples dating back hundreds of years. Fortunately for sea turtles and other animals in the olden days, most fishing nets were made from rope, usually hemp and sometimes cotton, which eventually rotted and freed the animal, if it survived being entangled for months on end.

So if you live around the ocean, or any kind of water for that matter, make sure to pick up any litter you find, especially plastic bags. You could save a lot of lives. Who knows, maybe the sea turtle you save from eating that one fatal plastic bag will grow up to become the biggest sea turtle alive.

As a companion piece to this episode, Patreon subscribers got an episode about the Soay Island Sea Monster sighted in 1959, which was probably a sea turtle of some kind. Just saying.

You can find Strange Animals Podcast online at strangeanimalspodcast.com. We’re on Twitter at strangebeasties and have a facebook page at facebook.com/strangeanimalspodcast. If you have questions, comments, or suggestions for future episodes, email us at strangeanimalspodcast@gmail.com. If you like the podcast and want to help us out, leave us a rating and review on Apple Podcasts or whatever platform you listen on. We also have a Patreon if you’d like to support us that way.

Thanks for listening!

Episode 074: Colossal Squid and the Things That Eat Them

Posted on July 2, 2018 by strangeanimalspodcast

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We’re going to learn about the colossal squid in this episode, with bonus info about the giant squid…and then we’re going to learn about the massive things that eat this massive squid!

A giant squid, looking slightly guilty for eating another squid:

A colossal squid, looking less than impressive tbh:

THAT EYEBALL:

A sperm whale looking baddass:

A southern sleeper shark, looking kind of boring:

Show transcript:

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

This week we’re going to learn first about the colossal squid, and then we’re going to learn about what eats the colossal squid.

You’ve probably heard of the giant squid, but maybe you haven’t. Let’s start with it, because the giant squid and the colossal squid are both massive, amazing deep-sea animals.

Stories of huge squid go back to ancient times. Aristotle and Pliny wrote about it, the legend of the kraken may be at least partially inspired by it, and sailors have told stories about it for time out of mind. Naturalists of the mid-19^th century knew it must exist because whalers had found enormously long tentacles and huge beaks in sperm whale stomachs. But except for the occasional badly damaged specimen washed up on shore, no one had seen a giant squid. Certainly no one had seen a living giant squid.

It wasn’t until 2001 that a live giant squid was caught on film, and then it was only a larval squid. In 2002 a live adult giant squid was caught off the coast of Japan. It wasn’t especially big, just 13 feet long, or 4 meters, but up until then an adult giant squid had never been captured or even photographed. Its body is now on display at the National Science Museum of Japan. It wasn’t until 2004 that a research team got photographs of a live giant squid in its natural habitat, also off the coast of Japan. Since then researchers have taken more photographs and footage of giant squid, and we’re starting to learn more about it.

Squids in general have a body called a mantle, with small fins at the rear and eyes near the base above the arms, eight arms, and two long tentacles. The arms and tentacles are lined with suction cups that contain rings of serrated chitin, which allows the squid to hang on to its prey. Chitin is the same stuff lobster shells and fish scales are made of. It’s the invertebrate version of keratin. In the middle of the arms, at the base of the mantle, is the squid’s mouth, which looks for all the world like a gigantic parrot beak, also made of chitin. Instead of actual teeth, the squid has a radula, which is basically a tongue studded with chitinous teeth that it uses to shred its prey into pieces small enough to swallow.

Most of the length of a giant squid comes from its tentacles. Researchers estimate that the longest giant squid’s mantle is about 7 ½ feet long, or 2.25 meters. The longest giant squid’s mantle and arms together reach around 16 feet long, or 5 meters. That’s still pretty huge, but it’s not until you add in the tentacles that the length just gets ridiculous. The longest giant squid known—and this is an estimate based on the size of the biggest beak ever found—was 43 feet, or 13 meters. Females are typically much bigger than males and can weigh twice as much.

The giant squid is a deep-sea animal, probably solitary, and eats fish and smaller squid, including other giant squid. It’s an active hunter and catches prey by grabbing it with its super-long tentacles, reeling it in to hold it more securely with its arms, then biting it with its beak and shredding it into pieces with its radula.

The giant squid has the largest eye of any living animal, as big as 11 inches in diameter, or 27 cm. Since it mostly lives in the deep sea, it probably needs such big eyes to see bioluminescent light given off by the animals it eats and to detect predators. Only ichthyosaurs had larger eyes. Well…except for the colossal squid, which may have eyes even bigger than the giant squid’s.

So if the giant squid can grow to some 43 feet long, is the colossal squid even longer? Only a little. Researchers estimate the colossal squid can grow to around 46 feet long, or 14 meters, but it has shorter tentacles and a much longer mantle than the giant squid so is an overall much bigger and heavier animal.

But that size estimate is only that, an estimate. We know very little about the colossal squid. It was first described from parts of two arms found in the stomach of a sperm whale in 1925, and for more than 50 years that was pretty much all we had. Then a Russian trawler caught an immature specimen in 1981 off the coast of Antarctica. Since then researchers have been able to study a few other specimens caught or found dead, mostly from the Antarctic seas.

As far as we know, the colossal squid is an ambush predator rather than an active hunter like the giant squid. It lives in the deep seas in the Southern Ocean, especially around Antarctica, as far down as 7,200 feet or 2.2 km beneath the surface of the ocean, and it mostly eats fish. While its tentacles are much shorter than the giant squid’s, they have something the giant squid does not. Its suckers have hooks, some of them triple-pointed and some of which swivel. When it grabs onto something, it is not going to let go until somebody gets eaten.

The largest colossal squid ever found was caught in 2007 in the Antarctic. It was caught by a trawler when they hauled in a fishing line. The squid was eating an Antarctic toothfish caught on the line and wouldn’t let go, so the fishermen hauled it aboard in a net and froze it. It was 33 feet long, or ten meters, and by the time it was thawed out for study, its tentacles had shrunk so that it was even shorter. Its eye was 11 inches across, or 27 cm, but when the squid was alive its eye was probably bigger, maybe as much as 16 inches across, or 40 cm—in which case, it wins the biggest eye category and deserves a trophy. With an eyeball on it.

So if the biggest colossal squid we’ve ever seen is only 33 feet long, how do we know it can grow to 46 feet long? Because whalers have found colossal squid beaks in the stomachs of sperm whales that are much larger than the 33-foot squid’s beak.

And that brings us to the first predator of the colossal squid, the sperm whale. Lots of things eat young colossal squids, from fish and albatrosses to seals and bigger squids, but today we’re talking about predators of full-grown colossal squid. There aren’t many. In fact, there are only two that we know of.

The sperm whale eats pretty much anything it wants, frankly, but mostly what it wants is squid. It eats both giant and colossal squid, and we know because squid beaks aren’t digestible. They stay in the whale’s stomach for a long time. Specifically they stay in the whale’s second stomach chamber, because sperm whales have a four-chambered stomach like cows and other ruminants do. Sometimes a whale will puke up squid beaks, but often they just stay in the stomach. Some whales have been found with as many as 18,000 squid beaks in their stomachs. 18,000! Can you imagine having 18,000 of anything riding around in your stomach? I wouldn’t even want 18,000 Cap’n Crunches in my stomach and I really like Cap’n Crunch cereal.

Sometimes squid beaks do make it deeper into the whale’s digestive system, and when that happens, researchers think it stimulates the body to secrete a greasy substance called ambergris to coat the beak so it won’t poke into the sides of the intestines. Small lumps of ambergris are sometimes found washed up on shore after the whale poops them out, and it can be valuable. Once it’s been out of the whale for a while it starts to smell really good so has been traditionally used to make perfume, but these days most perfume companies use a synthetic version of ambergris.

The sperm whale can grow to at least 67 feet long, or 20.5 meters, and may possibly grow much longer. It’s an active hunter and a deep diver, with the biggest whales routinely diving to almost 7,400 feet or 2,250 meters to catch that tasty, tasty squid. It can stay underwater for over an hour. It has teeth only in the lower jaw, which is long and thin. The upper jaw has holes in the gum called sockets where its lower teeth fit into, which is kind of neat. But because male sperm whales sometimes fight by ramming each other, occasionally a whale’s jaw will become broken, dislocated, or otherwise injured so that it can’t use it to bite squid. But that actually doesn’t seem to stop the whale from eating squid successfully. They just slurp them up.

Sperm whales use echolocation to find squid, but researchers also think the whale can use its vision to see the squid silhouetted against the far-off water’s surface. Sperm whales have big eyes, although not nearly as big as squid eyes, and a whale can retract its eyeballs into its eye sockets to reduce drag as it swims. It can also protrude its eyes when it wants to see better. Researchers have tagged sperm whales with radio transmitters that tell exactly where the whale is and what it’s doing, at least until the tag falls off. The tags occasionally show that a sperm whale will hunt while swimming upside down, which researchers think means the whale is looking up to see squid silhouettes.

You’ll often hear people talk about sperm whales and giant squids battling. Sperm whales do often have sucker marks and scars from giant and colossal squid arms, but that doesn’t mean the squid was trying to drown the whale. Squid have no real defense against getting eaten by sperm whales. All a squid can do is hang on to the whale in hopes that it won’t actually end up in the whale’s belly, which is not going to happen, squid. Some researchers even theorize that the sperm whale can stun prey with a massive burst of powerful sonar impulses, but so far there’s no evidence for this frankly pretty awesome hypothesis.

The other main predator of full-grown colossal squid are a few species of sharks called sleeper sharks. They’re slow-moving deep-sea sharks that mostly live in cold waters around the Arctic and Antarctic. We don’t know much about a lot of sleeper sharks species. Many of them were only discovered recently, and some are only known from one or a few specimens. Sleeper sharks are generally not much to look at. They don’t have great big mouths full of huge teeth like great whites, they don’t have weird-shaped heads like hammerheads, and they’re just plain grayish all over, maybe with some speckles.

The Greenland shark is one type of sleeper shark. It’s the one with the longest known lifespan of any vertebrate, as much as 500 years old. The Greenland shark is also one of the largest sharks alive, up to 24 feet long, or 7.3 meters, and possibly longer. But the Greenland shark isn’t one of the sleeper sharks that eat colossal squid, since it lives around the Arctic and the colossal squid lives around the Antarctic. But the Southern sleeper shark lives around the Antarctic and is so closely related to the Greenland shark that for a long time many researchers thought it was the same species. The Southern sleeper shark is overall shorter, only around 14 feet long, or 4.4 meters, although since we don’t know a lot about it, we don’t really know how big it can get. It’s probably an ambush predator and it definitely eats colossal squid because colossal squid beaks are sometimes found in its stomach.

In 2004 a team of researchers examined the stomach contents of 36 sleeper sharks that had been accidentally killed by fishing trawlers around and near Antarctica. They found remains of at least 49 colossal squid, bigger on average than the squid sperm whales typically eat.

Just going by what we know about the Greenland shark, it’s safe to say that the southern sleeper shark is an extremely slow swimmer, barely exceeding more than two miles an hour, or 3.5 km per hour. That’s about the speed you walk if you’re not in any particular hurry. It may also be prey to the same parasitic copepod, which is a type of crustacean, that infests a lot of Greenland sharks. The parasite attaches itself to the shark’s EYEBALL. But some researchers think the parasite actually gives something back to the shark, by glowing with a bioluminescence that attracts prey, which the shark then eats. Greenland sharks don’t appear to need to see in order to find prey anyway. That doesn’t make it any less gross.

I’m very sorry to end this episode with an eyeball parasite, so here’s one last thing to take your mind off it. As long as there have been reports of gigantic squid, there have been reports of gigantic octopuses. The largest octopus currently known is the giant Pacific octopus with a 20 foot legspan, or 6 meters. But there may be a gigantic octopus much larger than that. In 1928, six octopuses were sighted off the coast of Oahu in Hawaii by a sailor in the US Navy, who estimated their legs spanned 40 feet across, or 12.5 meters. In 1950, a diver in the same area reported seeing an octopus with a body the size of a car, and with tentacles estimated as 30 feet long each, or 9.3 meters.

Remember the study I mentioned earlier, about researchers finding lots of colossal squid remains in sleeper shark stomachs? They found something else in one of the sharks, remains of a huge octopus. Species unknown.

Thanks for listening!

Episode 073: Phantom and Otherwise Kangaroos

Posted on June 25, 2018 by strangeanimalspodcast

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This week we’re learning about some out-of-place marsupials, from phantom kangaroos to colonies of wallabies living in places like England and Hawaii. Thanks to Richard E. for the suggestion!

A Bennett’s wallaby and a red kangaroo:

George Stubbs’s kangaroo painting:

The controversial maybe-it’s-a-kangaroo engraving from 1593 (detail to the right). For more information, this is a great article.

You can find the 2013 video of a kangaroo in an Oklahoma cowfield here. It’s definitely a kangaroo, too.

Show transcript:

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

We started 2018 with a couple of episodes about out of place animals. I meant to make that a regular feature this year, but I keep getting distracted. Imagine that. This week I was going to revisit out of place animals in general, with lots of excellent suggestions from Richard E. But the second I started researching some populations of wallabies in places far outside of their usual home, I got sucked into the strange world of phantom kangaroos.

Reports of so-called phantom kangaroos are something between an urban legend and a genuine cryptozoological mystery. The problem with the earliest accounts is that they’re impossible to verify as real reports. Newspapers from earlier than about the 1920s would sometimes play fast and loose with reality in order to sell papers or just fill space. I suspect that at the time, most people reading the papers understood that these sorts of accounts were just fun nonsense, but we don’t have the same frame of reference to interpret them properly today. A hundred years from now scholars are going to be reading memes from 2018 and taking them at face value because they don’t understand most of the pop culture references.

But let’s dig into some of these phantom kangaroo reports and see what we can find out.

The first report of a phantom kangaroo is usually listed as one from 1899 in Wisconsin. The story goes that on June 12 of that year, a woman in New Richmond reported seeing a kangaroo run through her neighbor’s yard. Some accounts say it was her yard, and some reports say it happened during a storm. Some reports also mention that a circus was in the area, but that while people assumed the kangaroo had escaped from the circus, it turned out that the circus had never had a kangaroo.

This story doesn’t seem to appear anywhere except books and websites about unexplained phenomena. On the surface it seems to have good details, but when you think about it, it’s mostly vague. We have a specific date and a specific place…but what was the woman’s name? Which circus was in town? How did the woman know she had seen a kangaroo, and what did it look like? It was described as running, not hopping, but does that verb come from the witness or from reporters?

The next phantom kangaroo account is from 1907, and supposedly happened near Pennsburg, PA. I found it in three old newspapers, including the August 3, 1907 Harrisburg (Pennsylvania) Telegraph, and the Harrisburg Daily Independent.

This is the text of the article that appears in both those newspapers, with the headline “Kangaroo” at Large Alarms a Community, with Kangaroo in quotes, a rather sophisticated touch that makes me think the story was real:

“Pennsburg, Pa, Aug. 3 Tales of a kangaroo that is said to be roaming the wooded hills in the vicinity of Pleasant Run, a few miles west of here, have occasioned intense excitement in that region. Several persons, among them Erwin Styer and Martin Stengel, have seen the strange animal within the last week, and while it is so fleet that no one has been able to obtain a good view of it, the descriptions tend to substantiate the theory that it is a kangaroo. Dogs have attacked the animal, but have always been worsted. People living in the neighborhood of Pleasant Run are afraid to venture away from home after nightfall, and there is little disposition to linger long at the village store in the evening.”

unquote

I checked and Pleasant Run, Pennsylvania is indeed four miles away from Pennsburg, so that’s accurate. I also found an article in the Pinedale (Wyoming) Roundup of December 4, 1907, with the headline “Big Kangaroo at Large” and the subheadline “Keeps Lovers from Their Sweet Summer Saunterings,” which makes me want to throw up a little. This version of the story has been expanded, but whether that was done by the original reporter or was added to give the story more flavor, I don’t know. Here it is in full:

Quote

“Tales of a kangaroo that is said to be roaming the wooded hills in the vicinity of Pleasant Run, a few miles west of here, have occasioned intense excitement. Several persons, among them Erwin Styer and Martin Stengel, have seen the strange animal within the past week, and while it is so fleet that no one has been able to obtain a good view of it, the descriptions substantiate the theory that it is a kangaroo. It is described as being of gray color, with a head shaped like that of a sheep and a body of large proportions. Upon the approach of a human being it darts away at tremendous speed.

“Dogs have attacked it, but were always worsted. They were not bitten but apparently the animal flung them off with terrific force in the manner that a kangaroo defends itself with its hind legs and tail.

“People living in the neighborhood are afraid to venture away from home after nightfall and there is little disposition to linger at the village store or tavern in the evening. Young men say that the customary outdoor rural amusements are no longer safe. ‘It ain’t that I’m afraid of any wild beast that ever roamed the jungles of Montgomery county,’ said one young swain, ‘but I certainly do object to the disgrace of being knocked out by the hind legs or the tail of a kangaroo. So I guess we fellows won’t do much stirring up with the girls for some time to come.’”

Unquote

Okay, first of all, barf. Second of all, I don’t know what people sounded like in 1907, but I lived in Pennsylvania for a while and no one talks like that there. Third of all, I’m pretty sure Montgomery County, PA, which is not far from Philadelphia, wasn’t exactly a jungle even in 1907. I guarantee you that the quote at the end of the Wyoming article was made up by some bad writer, either in Wyoming or in some other newspaper, to give it more pizzazz.

It’s possible the whole article was an invention. I suspect the original version reports a real event, but since there are so few details it’s impossible to know if the animal was actually a kangaroo.

The next phantom kangaroo is a lot more interesting. It happened near South Pittsburg, Tennessee, which is near Chattanooga and therefore not far from where I live. Over five days in January 1934, an animal people called a kangaroo was repeatedly seen outside the town. One person said it leaped across a field, others reported it had killed and partially eaten some dogs and ducks, and was even reported carrying away a sheep. Its prints were tracked to a cave, but the animal was never found. Now, I’m going to be honest here and admit that I didn’t hunt too hard for original newspaper articles on this one. I should have, but I literally ran out of time. Basically, whatever this animal was, it probably wasn’t a kangaroo. While kangaroos, like all herbivores, will occasionally eat birds or small animals, or even fish, they don’t eat dogs. They don’t live in caves. They aren’t usually aggressive at all. So basically, while it’s possible this was a mystery animal, it wasn’t a kangaroo.

People tend to see what they expect to see. If someone sees an animal they can’t identify, their subconscious will suggest the most plausible mystery animal. These days that might be Bigfoot or a dogman. In the olden days, it might have been a kangaroo. But why? Why kangaroos?

Kangaroos have been known to science and to general non-Australian people for centuries. The most famous painting of a kangaroo was by artist George Stubbs, who is best known for his gorgeous paintings of horses and dogs. Stubbs painted it in 1772 from a skin brought to England by Captain Cook, not from a live animal. As a result, the kangaroo isn’t as accurate as most of his paintings, but it’s still definitely a kangaroo. It was exhibited in London in 1773 and was a huge attraction. Prints and reproductions of Stubbs’s kangaroo were also popular, and until zoos started to exhibit live kangaroos, that’s what many non-Australians thought kangaroos looked like.

But there were earlier European depictions of kangaroos and other marsupials from Australia, definitely as early as 1711 and possibly as early as 1593. People do tend to see what they expect to see, but presumably no one outside of Australia actually expects to see a kangaroo hopping around on any given day. But something did happen around the time of the earliest phantom kangaroo reports. Kangaroos and their relations started being exhibited in zoos.

This is different from traveling menageries and circuses. The first kangaroos were known to have been in traveling menageries around 1828, when one or two kangaroos were exhibited in England, with a few others in circuses and menageries traveling mostly around Boston and Ontario in North America. But public zoos became more and more common around the late 18^th and early 19^th centuries, especially in the United States. Kangaroos and their smaller relations, wallabies, started to appear in American zoos in the early 20^th century.

So it’s possible that the phantom kangaroo sightings resulted from more people being familiar with what kangaroos were and what they looked like, but not being familiar with what they ate or how they acted outside of captivity. Zoos in those days were grim places, with animals kept in small cages, so many people who saw one on display may not even have been aware they hop instead of run. If your sole experience with hopping animals is rabbits, and someone told you kangaroos hop, you’d probably picture a rabbit-like gait.

But…well…maybe people were actually seeing kangaroos, at least sometimes.

Here’s the thing. Kangaroos and wallabies are sometimes kept as pets. Apparently they can get pretty tame, although I’m just going to point out that you’d be a lot better off with a pet that’s actually domesticated. If you must have a hopping pet, rabbits are pretty awesome. Anyway, guess what. There are actual known populations of wallabies living in various places where they really shouldn’t be. And we don’t actually know how they got there in most cases. All we can do is guess they were escaped pets or escaped from zoos.

Wallabies look like miniature kangaroos, maybe the size of an average dog. They eat all kinds of plants, can bound quickly and jump fences and other obstacles, and are largely nocturnal although they also come out in daylight. Basically they fill a similar ecological niche as deer. They breed well in captivity and are cute, so are often kept in zoos. They’re marsupials native to Australia, New Zealand, and New Guinea…but they are also found in parts of England, Scotland, Ireland, on the Isle of Man, in one tiny area of France, and a few other places.

We do know where some of the wallabies come from. Lady Fiona of Arran was a bit of an eccentric who kept what would have been considered exotic pets back in the 1920s and 30s: llamas, alpacas, pot-bellied pigs, and wallabies. At some point in the 1940s she turned the wallabies loose on an island in Loch Lomond, where they’ve lived ever since. The problem, of course, is that they shouldn’t really be there. They’re cute, sure, and tourists do come to see them, but some people think their presence threatens certain native bird species and they ought to be killed off, or at least captured and taken to zoos. Other people point out that the native birds on the island don’t seem to be bothered by the wallabies, which after all have been there for the better part of a century now. About sixty wallabies live on the island at any given time.

There are also wallabies in the Peak District in Derbyshire, England. This was the population Richard E. told me about, which got me started on this episode that has taken me way too long to research. We know where these wallabies came from too. A man named Henry Courtney Brocklehurst, which honestly does not even sound like a real person’s name, once kept a private zoo on the Roaches, a rocky ridge that’s part of a national park in England. At some point in the 1930s five wallabies in his zoo either escaped or were quietly turned loose, reports vary. They did well in the wild and multiplied, until at their most numerous there were around 50. For a while people thought the wallabies had all died off after some especially cold winters, but in 2009 a hiker got pictures of one.

But wallabies also live in other parts of the British isles, and we don’t know where most of them came from. At least some are probably escaped pets or escaped from zoos—wallabies are apparently pretty good at escaping—while others may be individuals from the peak district population that have gone wandering. All the wallabies in Britain are a subspecies of red-necked wallaby called Bennett’s wallaby, which is from Tasmania. This means it’s better adapted to the British climate than most other wallabies would be. They’re sometimes killed by cars or dogs.

So let’s get back to more modern sightings of phantom kangaroos. There are a lot of reports from the United States, believe me, and a few from Canada. I won’t go into detail for most of them, but they include a 1949 sighting in Ohio, a 1958 sighting in Nebraska, the “Big Bunny” kangaroo sightings in Minnesota that persisted for a decade between 1957 and 1967, and many more.

On October 18, 1974 someone called the Chicago police to report a kangaroo on their porch. Two officers responded…and found a kangaroo in a nearby alleyway. They reported it was five feet tall, or 1.5 meters, which points to its being an actual kangaroo and not a wallaby. Now, Chicago cops probably are not trained to deal with kangaroos, but you’d think they would have the sense to call animal control or a zoo or someone who does know how to deal with kangaroos. Instead, they decided to treat the kangaroo like a human criminal. That’s right, they tried to handcuff a kangaroo.

The kangaroo kicked and punched the officers, who called for backup and probably still haven’t lived that down, but the kangaroo jumped a fence and disappeared into the night.

The next day a paperboy near Oak Park reported hearing a car’s brakes squeal, and when he turned to look, he saw a kangaroo only a few feet away, staring at him. It hopped away. Over the next few weeks sightings poured in from all over Chicago, from other Illinois cities, and even from Indiana. By July 1975, sightings had tapered off and finally stopped.

In April 1978, a schoolbus driver in Waukesha, Wisconsin saw two kangaroos hop across the road. She wasn’t the only one to see them, either. The road was busy and drivers had to slam on their brakes to avoid the kangaroos. One driver actually hit one, but it just jumped back up and hopped away. More people spotted the kangaroos in the weeks that followed. By the end of the month, a kangaroo hunt was organized in an attempt to capture it. They failed, and it seems mostly to have been a joke, but an anonymous photographer sent a Polaroid of a kangaroo to the local paper, supposedly taken in the area. It turned out to be a hoax, a photo of a stuffed wallaby someone had dragged out into a field. But sightings of the kangaroo persisted for months.

And sightings of kangaroos and wallabies don’t just happen in North America and the British Isles. Between 2003 and 2010, people in the Mayama mountain district of Osaki, Japan reported seeing a large brown animal with long ears, variously described as three to five feet tall, or one to 1.5 meters. Most sightings of the animal took place on roadsides when people were on their way to work or home from work.

No one has pictures of the kangaroo seen in Japan, though. No one has photos of the kangaroos reported in Chicago or any of the other sightings from 1899 on up through the new millennium. All those kangaroos were seen but never caught or photographed. A photo of a kangaroo was, however, once passed off as a photo of the Jersey Devil. According to a century of reports, the phantom kangaroos are just that, phantoms.

But these days, many people carry high-quality cameras with them everywhere, more commonly referred to as phones. And things started to change.

On January 3, 2005, a woman in Iowa County, Wisconsin called the sheriff’s department to say she’d seen a kangaroo hopping around on her horse farm. When the sheriff arrived, he was shocked to actually find a kangaroo, specifically a male red kangaroo. He knew better than to try to handcuff it, and instead got help to lure the kangaroo into a barn. It was captured safely and taken to the Henry Vilas Zoo, where it stayed until it died five years later. No one knows where it came from or why it was hopping around loose, but it was apparently fairly tame.

In 2013, some hunters took a video of a kangaroo in Oklahoma. I’ll put a link in the show notes, but it is 100% a kangaroo and not a blurry video that might be anything. A pet kangaroo named Lucy Sparkles had escaped in November of 2012 not too far away, but it turned out that the kangaroo caught on video wasn’t Lucy. It also wasn’t an escapee from a local exotic animal farm. It was a kangaroo from a man who kept kangaroos, which means there are way, way too many kangaroos in Oklahoma than I ever imagined.

Similarly, a man driving to work in July 2013 in North Salem, Connecticut got a few seconds of video of a kangaroo or wallaby bounding down the road and up someone’s driveway. In February of 2017, police officers on patrol spotted a wallaby in Somers, New York, which is believed to be a pet wallaby that escaped three years before in North Salem.

In other words, people really are seeing wallabies and kangaroos, not phantoms. Is it possible there are populations of either living in remote areas of North America, and that occasionally one wanders closer to a town or city and is seen? It’s possible, but not especially likely. Wallabies would be easy prey for wolves and coyotes, bears and cougars, and domestic dogs. We’d also probably have a lot of roadkill wallabies. Kangaroos would be more able to hold their own against predators, but are larger and therefore easier to spot. The climate in much of the United States also isn’t ideal for kangaroos or wallabies. Red kangaroos might be able to thrive in the arid and sparsely populated parts of the southwestern United States, but sightings of phantom kangaroos aren’t generally from those areas.

I’m pretty sure that the wallabies and kangaroos seen in North America, and probably most other places, are escaped pets. Wallabies in particular seem to be escape artists. So if you’re tempted to get an exotic pet and are looking at a wallaby, trust me: you’d be a lot happier with a dog.

Thanks for listening!

Episode 072: Weird Whales

Posted on June 18, 2018 by strangeanimalspodcast

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It’s been too long since we discussed whales, so this week let’s learn about how whales evolved and some especially strange or mysterious whales!

Pakicetus was probably kind of piggy-looking, but with a crocodile snout:

Protocetids were more actually whale-like but still not all that whale-like:

Now we’re getting whaley! Here’s basilosaurus, with a dinosaur name because the guy who found it thought it was a reptile:

Here’s the skull of a male strap-toothed whale (left). Those flat strips are the teeth:

Another view. See how the teeth grow up from the lower jaw and around the upper jaw?

A dead pygmy right whale:

The walrus whale may have looked sort of like this:

The half-beak porpoise had a chin that just would not quit:

Show transcript:

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

This week’s topic is weird whales and some of their relations. If you think about it, all whales are weird, but these are the weirdest whales we know of. Some are living, some are extinct, and some…are mysteries.

Whales, dolphins, and porpoises are most closely related to—wait for it—HIPPOPOTAMUSES. About 48 million years ago an ancestor of both modern hippos and whales lived in Asia. It’s called Inodhyus and it was about the size of a cat, but looked more pig-like. It was at least partially aquatic, probably as a way to hide from predators, but it was an omnivore that probably did most of its hunting and foraging on land.

The earliest whale is generally accepted to be Pakicetus. It lived around the same time as Inodhyus and its fossils have been found in what is now Pakistan and India. It was about the size of a big dog, but with a long, thick tail. Its skull was elongated, something like a short-snouted crocodile with big sharp triangular teeth. It had upward-facing eyes like a crocodile or hippo, and it also had four long, fairly thin legs. It probably hunted on both land and in shallow water, and like the hippo it probably didn’t have much hair.

That doesn’t sound much like a whale, but it had features that only appear in whales. These features became more and more exaggerated in its descendants. At first, these ancestral whales looked more like mammalian crocodiles. It’s not until Protocetids evolved around 45 million years ago that they started to look recognizably like whales. Some protocetids lived in shallow oceans throughout the world but probably still gave birth on land, while others were more amphibious and lived along the coasts, where they probably hunted both in and out of water. But they had nostrils that had migrated farther back up their snouts, although they weren’t blowholes just yet, reduced limbs, and may have had flukes on their large tails. But they still weren’t totally whale-like. One protocetid, Rodhocetus balochistanensis, still had nail-like hooves on its forefeet.

By around 41 million years ago, the basilosaurids and their close relations had evolved, and were fully aquatic. They lived in the oceans throughout the tropics and subtropics, and their nostrils had moved almost to the location of modern whales’ blowholes. Their forelegs were basically flippers with little fingers, their hind legs had almost disappeared, and they had tail flukes. They were also much bigger than their ancestors. Basilosaurus could grow up to 60 feet long, or 18 meters, and probably looked more like a gigantic eel than a modern whale. It was long and relatively thin, and may have mostly lived at the ocean’s surface, swimming more like an eel or fish than a whale. It ate fish and sharks. SHARKS.

So when did whales develop the ability to echolocate? Researchers think it happened roughly 34 million years ago, which also happens to be about the same time that baleen whales and toothed whales started to develop separately. Echolocation probably evolved to help whales track hard-shelled mollusks called nautiloids. By 10 million years ago, though, nautiloids were on the decline and mostly lived around reefs. Whales had to shift their focus to soft-bodied prey like squid, which meant their sonar abilities had to become more and more refined. Toothed whales echolocate, while baleen whales probably do not. Researchers aren’t 100% sure, but if baleen whales do use echolocation, it’s limited in scope and the whales probably mostly use it for sensing obstacles like ice or the sea floor.

Baleen whales are the ones that communicate with song, although the really elaborate songs are from humpback and bowhead whales. Of those species, humpback songs are structured and orderly, while bowhead whale song is more free-form. But humpback songs do change, and researchers have discovered that they spread among a population of whales the same way popular songs spread through human populations. This is what they sound like, by the way. A snippet of humpback song is first, then a snippet of bowhead song.

[examples of humpback and bowhead]

So now we’ve got a basic understanding of how whales evolved. Now let’s take a look at some of the weirder whales we know about. We’ll start with a living one, the strap-toothed whale. It’s one of 20-odd species of mesoplodont, or beaked whale, and we don’t know a whole lot about any of them. The strap-toothed whale is the longest beaked whale at 20 feet long, or 6.2 meters.

The strap-toothed whale lives in cold waters in the southern hemisphere. It’s rarely seen, probably since it lives in areas that aren’t very well traveled by humans. It mostly eats squid. Females are usually a little bigger than males, and adults are mostly black with white markings on the throat and back.

The weird thing about this whale is its teeth. Male beaked whales all have a pair of weird teeth, usually tusk-like, which they use to fight each other, but strap-toothed whales take the weird teeth deal to the extreme. As a male grows, two of its teeth grow up from the lower jaw and backwards, curving around the upper jaw until the whale can’t open its mouth very far and can only eat small prey. The teeth can grow a foot long, or 30 cm, and have small projections that cause more damage in fights with other males.

Most of what we know about the strap-toothed whale comes from whales that have been stranded on land and died. Males don’t seem to have any trouble getting enough to eat, and researchers think they may use suction to pull prey into their mouths. Other beaked whales are known to feed this way.

All beaked whales are deep divers, generally live in remote parts of the world’s oceans, and are rarely seen. In other words, we don’t know for sure how many species there really are. In 1963, a dead beaked whale washed ashore in Sri Lanka. At first it was described as a new species, but a few years later other researchers decided it was a ginkgo-toothed whale, which had also only been discovered in 1963. Male ginkgo-toothed whales have a pair of tusks shaped like ginkgo leaves, but they don’t appear to use them to fight each other. But a study published in 2014 determined that the 1963 whale, along with six others found stranded in various areas, belong to a new species. It’s never been seen alive. Neither has the ginkgo-toothed whale.

The pygmy right whale is a baleen whale, but it’s another one we know very little about. It lives in the southern hemisphere. Despite its name, it isn’t closely related to the right whale. It’s small for a baleen whale, around 21 feet long, or 6.5 meters, and it’s dark gray above and lighter gray or white underneath. Its sickle-shaped dorsal fin is small and doesn’t always show when the whale surfaces to breathe. It feeds mostly on tiny crustaceans like copepods, and probably doesn’t dive very deeply considering its relatively small heart and lungs.

The pygmy right whale was first described in 1846 from bones and baleen. Later studies revealed that it’s really different from other baleen whales, with more pairs of ribs and other physical differences. It also doesn’t seem to act like other baleen whales. It doesn’t breach, slap its tail, or show its flukes when it dives. It doesn’t even swim the same way other whales swim. Other whales swim by flexing the tail, leaving the body stable, but the pygmy right whale flexes its whole body from head to tail. It seems to be a fairly solitary whale, usually seen singly or in pairs, although sometimes one will travel with other whale species. In 1992, though, 80 pygmy right whales were seen together off the coast of southwest Australia. Fewer than 200 of the whales have been spotted alive, including those 80, so we have no idea how rare they are.

It wasn’t until 2012 that the pygmy right whale’s differences were explained. It turns out that it’s not that closely related to other baleen whales. Instead, it’s the descendant of a family of whales called cetotheres—but until then, researchers thought cetotheres had gone extinct completely around two million years ago. Not only that, it turns out that at least one other cetothere survived much later than two million years ago, with new fossils dated to only 700,000 years ago. But that particular whale, Herpetocetus, had a weird jaw joint that kept it from being able to open its mouth very far. It and the strap-toothed whale should start a club.

Sometimes whale fossils are found in unexpected places, which helps give us an idea of what the land and ocean was like at the time. For instance, fossils of an extinct beaked whale known as a Turkana ziphiid was found in Kenya in 1963, in a desert region 460 miles inland, or 740 kilometers. The fossil is 17 million years old. So how did it get so far inland?

It turns out that at the time, that part of east Africa was near sea level and grown up with forests. The fossil was found in river deposits, so the whale probably swam into the mouth of a river, got confused and kept going, and then couldn’t turn around. It kept swimming until it became stranded and died. Because of the finding, researchers know that 17 million years ago, the uplift of East Africa had not yet begun, or if it had it hadn’t yet made much progress. The uplift, of course, is what prompted our own ancestors to start walking upright, as their forest home slowly became grassland.

As an interesting aside, the fossil was stored at the Smithsonian, but at some point, like so many other fascinating items, it disappeared. Paleontologist Louis Jacobs spent 30 years trying to find it, and eventually located it at Harvard University in 2011. After he finished studying it, he donated it to the National Museum of Kenya.

More whale fossils were uncovered in 2010 in the Atacama Desert in Chile—in this case, over 75 skeletons, many in excellent condition, dated to between 2 and 7 million years ago. Researchers think they’re the result of toxic algae blooms that killed the whales, which then washed ashore. Over 40 were various types of baleen whales. Other fossils found in the same deposit include a sperm whale, marine sloths, and a tusked dolphin known as a walrus whale.

The walrus whale lived in the Pacific Ocean around 10 million years ago, and while it’s considered a dolphin, it’s actually more closely related to narwhals. But it probably looked more like a walrus than either. Unlike most whales, it had a flexible neck. It also had a face like a walrus. You know, flattish with tusks sticking down. It probably ate molluscs. But the right tusk was much longer than the left one, possibly in males only. In the case of one species of walrus whale, one specimen’s left tusk was about 10 inches long, or 25 cm, while its right tusk was over four feet long, or 1.35 meters. Some researchers suggest that the whale swam with its head bent so that the long tusk lay along the body. Possibly it only used it for display, either to show off for females or to fight other males. But we don’t know for sure.

Speaking of narwhals, if you were hoping to hear about them, you’ll need to go way back to episode five, about the unicorn. I talk about the narwhal a lot in that episode. The narwhal happens to be one of the best animals. A lot of people think the narwhal isn’t a real animal, that it’s made up like a unicorn. In fact, about a week ago, I was talking to a coworker and the subject of narwhals came up. She actually did not realize it was a real animal. Nope, it’s real, and that horn is real, but it’s actually a tusk rather than a horn. It grows through the whale’s upper lip, not its forehead. In another weird coincidence, this afternoon when I was about to sit down and record this episode, a friend sent me a link to an article that had some narwhal sounds. So we’re not really talking about narwhals in this episode, but hey, this is what they sound like.

[narwhal calls]

Another weird whale is the halfbeak porpoise, or skimmer porpoise, which lived off the coast of what is now California between 5 and 1.5 million years ago. While it probably looked mostly like an ordinary porpoise, its chin grew incredibly long. The chin, properly called a symphysis, was highly sensitive, and researchers think it used it to probe in the mud for food.

There’s still so much to learn about whales, both living ones and extinct ones. We definitely haven’t identified all the living whales yet. There are reports of strange whales from all over the world, including a baleen whale with two dorsal fins. It was first spotted in 1867 off the coast of Chile by a naturalist, and other sightings have been made since. It’s supposedly 60 feet long, or 18 meters, so you’d think it wouldn’t be all that hard to spot…but there’s a whole lot of ocean out there, and relatively few people on the ocean to look for rare whales.

Whales can live a really long time. In 2007, researchers studying a dead bowhead whale found a piece of harpoon embedded in its skin. It turned out to be a type of harpoon that was made around 1879. Bowheads can probably live more than 200 years, and may even live longer than that.

And, of course, whales are extremely intelligent animals with complex social and emotional lives, the ability to reason and remember, tool use, creative thinking and play, self-awareness, a certain amount of language use, and altruistic behaviors toward members of other species. Whales and dolphins sometimes help human swimmers in distress, dolphins and porpoises sometimes help beached whales, and humpback whales in particular sometimes rescue seals and other animals from orcas. Humans aren’t very good at thinking about intelligence except as it pertains to us, but it seems pretty clear that other apes, whales and their relations, elephants, and probably a great many other animals are a lot more intelligent than we’ve traditionally thought.

One last interesting fact about whales and their relations. Most of them sleep with half their brain at a time. The half that isn’t sleeping takes care of rising to the surface to breathe periodically, so the whale doesn’t drown. That does not sound very restful to me. But sperm whales sleep with their bodies vertical and their heads sticking up out of the water. But they don’t sleep very long, only around ten minutes at a time—and only in the hours before midnight. I’ve had nights like that.

Thanks for listening!

Episode 071: The Not-Elephants

Posted on June 11, 2018 by strangeanimalspodcast

Podcast: Play in new window | Download (Duration: 13:55 — 11.1MB)

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Not-Elephants! They’re like elephants but WEIRD! Let’s take a look at a lot of extinct proboscidea this week.

Oh, and the Casual Birder Podcast episode where I talk about indigo buntings should be released this week, not last week. Oops.

Gomphotheres, looking deceptively normal at first glance:

THEIR FACES AAAHHHH art by Pedro Toledo:

Cuvieronius and Notiomastodon, art also by Pedro Toledo. Note the spiral on Cuvieronius’s tusks:

Stegodon:

Deinotherium, just going totally weird with the tusks and chin:

It might have looked a little something like this when alive. What the actual heck:

Anancidae tusks were just out of control:

Guess what! These two proboscidae are still alive! Hooray for Asian elephants (left) and African elephants (right)!

Okay, what the heck is going on in these genealogy sites, pretty sure elephants don’t use them:

And finally, I swiped this picture of the Mystery Tusk from Karl Shuker’s blog, specifically this post.

Show transcript:

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

We haven’t had an episode about Pleistocene megafauna in a while, so this week we’re covering some interesting mammals that are related to elephants and mammoths, but aren’t elephants or mammoths. Oh, and I jumped the gun last week with our mystery birds episode. The Casual Birder podcast is running the finch episode this week, where I have a little spot talking about the indigo bunting. I’ll make sure to put a link in the show notes so you won’t miss it if you don’t already listen to the Casual Birder podcast.

We’ll start off this week with an elephant that…isn’t an elephant. Just wait till you hear about the gomphothere, oh man. I’ve been saving this one for a while.

Gomphothere is the name for a family of animals that lived throughout much of the world, except for Antarctica and Australia. Researchers aren’t sure yet whether it eventually gave rise to elephants and mammoths or whether gomphotheres and mammoths were just cousins with a shared ancestor. The first gomphotheres evolved in Africa and spread into Asia and Europe around 22 million years ago. From there they moved into North America and eventually even into South America during the Pleistocene, shortly before they all went extinct.

So what did gomphotheres look like, and how did they differ from elephants? I’m SO glad you asked. A big part of why gomphotheres would have looked weird to us today is because their bodies were very elephantine. But their faces…were just wrong.

For instance, several species of Gomphotherium had a relatively short trunk and four tusks. The upper two tusks were on the upper jaw and jutted forward and downward. Not too unusual. The other pair of tusks were in the lower jaw. They jutted forward side by side and were flattened to form a sort of shovel. For a long time researchers thought it lived in swamps and used its shovel jaw to scoop up water plants, but more recent research suggests it used its lower tusks to cut through tough vegetation. Some species may have used the shovel to gouge bark off trees, for instance. Its head was elongated as a result of the long lower jaw, so while its body looked like a pretty average elephant, size and all, its face would have been long and flattened compared to the elephants we’re used to. I’m picturing the big reveal in an elephant horror movie where the mysterious character in the shadows turns its head and the music goes BWAHHHH and all the elephants in the audience scream.

Cuvieronius and Notiomastodon are the only gomphotheres that lived in South America. Despite its name, Notiomastodon was not closely related to actual mastodons. Both Cuvieronius and Notiomastodon evolved in North America just over 5 million years ago, then migrated into South America around 3 million years ago. Cuvieronius preferred cooler environments and lived along the Andes Mountains, and may have had thick hair to keep it warm, while Notiomastodon lived in open forests in the lowlands and along the coast, and probably had very little hair, much like modern elephants. Both stood over 8 feet tall at the shoulder, or 2.5 meters. Both also probably looked pretty normal compared to elephants, and probably acted a lot like modern elephants too. Both had a single pair of tusks. But while Notiomastodon’s tusks were relatively ordinary and usually curved upward like a modern elephant’s, Cuvieronius’s grew in a spiral—although not a tight spiral like narwhal tusks. A band of enamel spiraled along the tusk’s length, and the tusk could be over eleven feet long, or 3.5 meters. Some other gomphothere tusks have enamel coverings, unlike elephant and mammoth tusks, which do not contain enamel.

Notimastodon died out in South America about the time humans migrated into the area, or maybe a little before, but it lived longer in parts of North America, as recently as 28,000 years ago in Mexico. Cuvieronius lived even longer before going extinct, with fossils dated to only about 11,500 years ago found in Chile.

Researchers are still working out the relationships between various gomphotheres and their relations. Gomphotheres, elephants, and some other relations are all in the same order, proboscidea, but different families.

Let’s jerk everything to a halt for a second while I explain the scientific classification system for those of you who aren’t familiar with it. Every living creature that has been described scientifically is assigned a place in the classification system so other researchers can get an idea of what the organism is most closely related to. Classifications can and do change as more information is learned.

The top tier is kingdom, extremely broad groups. All mammals, reptiles, amphibians, fish, birds, insects, sponges, worms, jellyfish, and basically anything else that could possibly be called an animal is part of the kingdom Animalia. Kingdoms are divided into phyla, which is the plural of phylum. You may remember me talking at length about phyla in the Cambrian explosion episode a few weeks ago, and I probably should have put this explanation in that episode. Any animal with a backbone or notochord or some similar structure is in the Chordate phylum. The next section under phylum is class, and that’s where we separate mammals from birds from reptiles from fish, and so forth. Elephants, Gomphotheres, and humans are all part of the class Mammalia. But when we reach the next big section down, Order, we separate humans from elephants and gomphotheres, because those are part of the order Proboscidea while humans are in the order Primate. Under Order is family, then genus, then species. The genus and species give an organism its scientific name, such as Homo sapiens or Stegodon zdansky. There are finer gradations, like subfamily and subspecies and clade and so forth, but we won’t go over those here. Let’s get back to the not-elephants.

So, what’s Stegodon zdansky? It’s in the proboscidea order along with elephants and gomphotheres, but it’s not either. And the reason I bring it up is because it was really, really big. It could stand some 13 feet high at the shoulder, or 4 meters, and its tusks were similarly enormous—not just long, although they were over ten feet long, or more than three meters, but so big and close together that it had to drape its trunk to one side or the other of the tusks, not in between like most other proboscideans. Stegodon zdansky lived in China. Other species of Stegodon also lived in Asia, mostly in forested areas, and like zdansky they all had long tusks set close together.

Remember the island of Flores, where the Flores little people lived, Homo floresiensis? We learned about them in episode 26. Popular articles about the Floes little people often say they hunted a dwarf elephant, but it wasn’t an elephant at all. It was a Stegodon that had adapted to life on an island by becoming smaller, not much bigger than a cow. But it’s not clear if it was actually hunted by the Flores little people or if it went extinct before they arrived.

There are more proboscideans, believe me. Deinotherium, for instance, which was simply enormous. It could stand more than 13 feet tall, or 4 meters, but some big males may have stood nearly 16 feet tall, or 5 meters. Only paraceratherium, which you may remember from our tallest animals episode, was taller and heavier.

It had such weird tusks that researchers aren’t sure what it used them for. It had one pair on the lower jaw. Not only did the tusks grow almost straight downward, its lower jaw also curved downward. Some researchers think it dug up plants with the tusks, while others think it used its tusks to pull branches down so it could strip leaves off with its trunk. But no one knows for sure. Researchers also think it had a strong trunk, although we don’t know whether it was a long trunk or a short one. It lived in parts of Asia, Africa, and Europe, and went extinct around a million years ago.

Amebelodontidae was a family that paleontologists thought for a long time were gomphotheres, but new research has separated them into their own family. Like many Gomphotheres, the lower jaw is elongated with a pair of flat, short tusks at the end. The upper tusks are straight and reach only to the end of the jaw, or not as far as the end of the jaw in some species. Reseachers think it used its tusks to cut through tough plants. Similarly, Anancidae were once thought to be Gomphotheres but are now considered their own family. It looked a lot like modern elephants, although its legs were relatively short. Even so, it stood around ten feet tall, or three meters, and lived in forests. It had one pair of tusks…but that’s where the resemblance to modern elephants ends, because its tusks were ridiculously long: 13 feet long, or four meters, and they just pointed straight ahead. Researchers think the Anancidae used their tusks for defense and to dig up plants.

All the proboscidea are extinct now except for Asian and African elephants. It’s a shame so many amazing animals are gone, but just think about how sad it would be if we didn’t have elephants at all. We’re lucky they’re still around.

In 1904 a couple of French zoologists noticed part of a strange tusk in a market stall in Ethiopia. The tusk was darker than regular elephant ivory, oddly shaped with a single groove along its length, and only a couple of feet long, or around 60 cm. The seller didn’t know where it was from. The zoologists bought it to study, and in 1907 published a paper on the tusk. It wasn’t a complete tusk and had apparently been broken off, not sawed off. Their conclusion was that it was from a proboscidean that was not yet known to science. Unfortunately the tusk has been lost, possibly gathering dust in the depths of the National Museum of Natural History in Paris where it was donated.

While the zoologists stated that the tusk wasn’t fossilized and that they thought it might have been almost semicircular when complete, it’s possible they were wrong on both counts. It might have been a walrus tusk, possibly a fossilized one, which could explain its dark brown patina. It might have been a fossilized deinotherium tusk. But the zoologists learned something interesting soon after they bought the tusk. Some Somali hunters told them that there were hippo-like animals that lived in large lakes of East Africa, and that the animals had tusks like the one they’d bought. If you’ve listened to episode 18, where we talk about mystery elephants, you might remember the water elephant reportedly seen in East Africa prior to 1912. Could the water elephant be a real animal, and the source of the mystery tusk? Until the tusk actually turns up so it can be tested, we can’t know for sure what animal it’s from. But it’s sure fun to think about.

Thanks for listening!

Episode 070: Mystery Birds

Posted on June 4, 2018 by strangeanimalspodcast

Podcast: Play in new window | Download (Duration: 19:37 — 15.5MB)

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This week we’ll learn about birds that are mysterious in one way or another. If you need more bird knowledge, check out the awesome Casual Birder Podcast, especially this week’s episode with a guest spot by me about indigo buntings!

Lots of pictures for this one, hoo boy.

The Nechisar nightjar wing. It’s all we’ve got:

Junkin’s warbler, a mystery bird whose identity was solved by SCIENCE:

The lovely blue-eyed ground dove:

The two tapestries depicting a mystery bird:

Close-ups of the mystery bird from the tapestries:

A black grouse, that may have inspired the tapestry birds:

A wandering albatross, which has the largest wingspan of any living bird known and will CURSE YOU:

The bee hummingbird, smallest living bird known, will only give tiny curses if it’s really mad:

An olive-backed sunbird:

A hermit hawkmoth, not even kidding that this thing looks and acts like a hummingbird:

The cahow, or Bermuda petrel:

Show transcript:

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

On the same day this episode is released, the Casual Birder Podcast is releasing an episode about finches with a contribution from me. If you haven’t tried the Casual Birder Podcast, it’s a great show about birds and birding that I highly recommend. It’s 100% family friendly, the host’s voice is pleasant and calming, and it’s often funny and always interesting. I’ve got a link in the show notes, so head on over and try the finch episode, where you can hear me dropping some knowledge about the indigo bunting. And for any new listeners who came here from the Casual Birder Podcast, welcome! We’ve got a great episode this week about birds that are associated with a mystery in one way or another.

We’ll start in Ethiopia, specifically the Nechisar National Park in the Great Rift Valley. In 1990, a team of researchers was surveying a remote section of grassland in the park to see what animals lived there. One of the things they found was a dead bird, not in the field but on a dirt road, where it had been killed by a car. It was a type of nightjar, but the bird experts associated with the survey didn’t recognize it. The problem was, though, that the bird was pretty mangled and rotten. Only one wing was intact, so they took that wing back with them to the Natural History Museum in London and described a new species of nightjar from it. It’s called the Nechisar Nightjar, described in 1995 and named Caprimulgus solala. ‘Solala’ means “only a wing.”

But no one who knows about birds has ever conclusively seen a living Nechisar Nightjar: not an ornithologist or zoologist, not a bird watcher, not a local with more than casual knowledge of birds, no one. In 2009 a group of birders visited the park specifically to search for the nightjar, and caught a brief video of one flying away. But nightjars are night birds, so the video was shot at night with one of the birders holding a light, and as a result it’s not exactly great video quality. So while conservationists hold out hope that the bird isn’t actually super-rare, just lives in a hard to reach area, we still don’t know for sure.

At least we have the wing so we know the Nechisar nightjar actually exists. The wing has dark brown feathers with a pale wing panel. The birders who might have seen the nightjar in 2009 said its body was reddish-brown and it had white tail corners. Another bird, called the double-banded pheasant, is known only from a single feather found in 1871. We don’t even know where the feather came from, since it was found in a shipment of feathers sent to London to be used as hat decorations. Researchers today think it is probably just an aberrant feather taken from the well-known great argus pheasant, which lives in Borneo, Sumatra, and other islands in southeast Asia.

Next we’ll visit New York state and a mystery warbler whose identity was solved by science. In 2006, bird bander David Junkin caught a warbler in his mist net that he and his wife Sandy couldn’t identify. It had an olive green back, was bright yellow underneath, and had a gray head with a white throat and bright white eye ring, almost spectacles. The Junkins had to let the bird go, and it became known as Junkin’s warbler informally as birders and ornithologists tried to figure out what the bird was from the pictures the Junkins posted online. Then, fortunately, the following year the same individual bird blundered into the Junkin’s mist net. This time they plucked two of its tail feathers and sent them for DNA testing at Cornell. It turns out that the mystery warbler was a hybrid of a male mourning warbler and a female Kentucky warbler.

Various types of warblers do interbreed fairly frequently, and some hybrids have been mistakenly named as species of their own in the past. As if warblers weren’t already ridiculously hard to identify. Researchers think that in the case of Junkin’s warbler, its mother may have ended up outside of her usual summer range after migrating, found no Kentucky warbler males to pair with, and so took a closely-related male mourning warbler as a mate. Sometimes you have to settle, you know? At least their kid was pretty darn adorable.

When a rare bird vanishes, after years with no sightings, conservationists have to declare it extinct. But sometimes a bird thought extinct turns out to not be extinct at all. These are sometimes known as Lazarus species.

It happened with the blue-eyed ground dove, a pretty but modest dove that once lived throughout South America. It was declared critically endangered and probably extinct and hadn’t been seen in almost 75 years when, in June of 2015, ornithologist Rafael Bessa heard a call that he knew wasn’t the ruddy ground-dove common in Brazil. He recorded the call and managed to get some photographs of the dove he heard. Sure enough, it was a blue-eyed ground dove, not extinct after all.

Of course, exciting as this is, the doves aren’t out of danger. Their habitat is threatened and they only survive in a few small, widely-separated pockets of wilderness. But conservation efforts are in place now that we know the dove is still around. It’s a lovely bird, chestnut with dark blue spots on its wings and matching dark blue eyes. This is what a blue-eyed ground dove sounds like:

[dove call]

Now let’s fly to Paris, where I am visiting this August and I’m very excited. In this case, our bird is depicted in two 500-year-old tapestries at the Cluny Museum of the Middle Ages, part of a series collectively called “The Lady and the Unicorn.” The tapestries show a lot of animals and birds, including our mystery bird. It’s black with a white breast and white markings on the underwings, a long tail with a lyre-shaped fork at the end, and large feet. But no one’s sure what kind of bird it is.

The best guess is that it may be a depiction of a black grouse, rendered by artists who had never actually seen one of the birds. The black grouse is a large game bird common throughout parts of western Europe and Asia. The male is black with white wing bars and undertail coverts, and red wattles. The tail is long and lyre-shaped, and when the wings are open, they show white underneath. But even if the bird in the tapestries is a black grouse, it’s still a mystery why the artist included the bird in the tapestries instead of a more well-known bird or a completely fanciful one.

Next up is a bird that’s not a mystery so much as mysterious. It has an entire epic poem written about it, The Rime of the Ancient Mariner by Samuel Taylor Coleridge, written in the early 19^th century.

The wandering albatross and the closely related southern royal albatross have the largest wingspan of any bird living today, 11 ½ feet across, or 3.5 meters. Both are mostly white as adults, with black markings on the wings and pinkish bills and legs. They look like gigantic seagulls.

The albatross has such an amazing wingspan, and is such an efficient flyer, that it can fly for weeks without stopping, covering more than 6,000 miles during that time, or 10,000 km, and use barely more energy than if it had stayed at home and napped. It eats fish, squid, and other small sea creatures, and will dive for food or just grab it out of the water as the bird skims near the surface. The albatross will pretty much eat anything it can find, including carrion, and it can gorge itself with as much as 25% of its own body weight in food. But when it’s that full, it’s too heavy to fly, so it may float on the water’s surface for a few hours while it digests. Its digestive system is as acidic as a vulture’s so it can digest its food quickly.

Pairs mate for life, can live over sixty years, and produce one chick every two years, gathering in colonies on a few remote islands to nest. It mostly lives in the southern hemisphere below the Antarctic, around South America and Australia. Distance means nothing to the albatross.

The albatross frequently follows ships around, especially fishing boats that might throw fish guts and heads overboard. Some sailors believed the albatross was a bird of good omen or contained the soul of a dead sailor, so if you killed one you’d be cursed. That’s what the Rime of the Ancient Mariner is all about. Other sailors believed that if you killed an albatross, you could use its hollow wing bones to make pipe stems, so they did, and presumably they were cursed for the rest of their lives but they also had nifty pipe stems so I guess it’s a trade off.

The Rime of the Ancient Mariner frankly is a terrible poem. I was an English major; you can trust my judgment. It has some good lines, though, and you probably know some of them even if you’ve never read the poem. It’s where “As idle as a painted ship / upon a painted ocean” comes from, and “Water, water, everywhere / Nor any drop to drink.” In the poem, a sailor kills an albatross. He doesn’t say why. When the ship is immediately becalmed, the other sailors, who blame the first sailor for killing the lucky bird, hang the dead albatross around the bird-killer’s neck. If you’ve ever heard of someone having an albatross around their neck, that’s where it comes from, and it means something bad from their past is still affecting them.

From the bird with the biggest known wingspan, let’s examine a tiny, tiny bird next. This is a genuine mystery bird from Sumatra. In the late 1950s, Otto and Nina Irrgang were living in Sumatra and one day spotted a hummingbird only 1.5 inches long, or 3.8 cm. That’s even smaller than the smallest bird known, the bee hummingbird, which lives in Cuba and nearby islands and is no more than 2.4 inches long, or 6.1 cm. The Irrgangs saw the bird at close range when it hovered no more than a foot away. They said it was brown underneath with a striped yellow back.

But Sumatra is an Indonesian island in southeast Asia, and true hummingbirds live only in the Americas, from Alaska and Canada all the way to Tierra del Fuego, and in the Caribbean, which are islands in the Atlantic between North and South America. There are birds in Sumatra that resemble hummingbirds and fill the same ecological niche, called sunbirds. Sunbirds also live in Africa, Australia, and parts of Asia. They’re tiny, although on average a little larger than hummingbirds, eat nectar and occasionally small insects, and males often have jewel-like iridescent feathers. But they can’t hover for very long and usually perch while they gather nectar from flowers. While their bills are long and slender, they are more curved than hummingbirds’ needle-like bills.

Eighteen species of sunbird and its close relative, the spiderhunters, live in Sumatra. But none have a striped yellow back with brown belly as described by the Irrgangs, and all are much larger than the reported length of 1.5 inches. The couples’ son, Mike Irrgang, has reported that his parents may have not included the bird’s tail in their estimated measurement, and that he thinks it was the same size as a “bee bird.” It’s not clear what he means by bee bird. There are birds called bee-eaters throughout Europe, Asia, and Africa that eat bees, but they’re much larger than sunbirds. He probably meant the bee hummingbird.

But there is another possibility. While the Irrgangs were adamant that they saw a bird, not an insect, there is a moth that might fit the description. It’s called the hermit hummingbird hawkmoth and it lives on Sumatra, as well as many other parts of Asia. It eats nectar and is most active at dawn and dusk, and it hovers like a hummingbird. Its body is mostly gray and brown, with yellow bands on the hind wings and the abdomen. It can grow almost two inches long, or 5 cm, with a wingspan a bit wider than its body is long.

In other words, it’s a moth that acts and in some respects looks like a hummingbird, and is just a shade smaller than the world’s smallest hummingbird, and its color and markings roughly match what the Irrgangs report. Other hummingbird hawk moths live throughout Europe and Asia, and are sometimes mistaken for birds. In North America we have hummingbird moths that look and act similar, and I have seen them in my garden in the evenings and mistaken them for hummingbirds. Sometimes I see an actual hummingbird and mistake it for a bee at first, incidentally, because it just doesn’t seem possible that a bird could be so small.

Then again, Sumatra is home to many, many birds and animals that are rare, threatened, and possibly have gone extinct since the 1950s without ever being officially studied and described. It’s possible there was once a tiny sunbird that resembled a hummingbird even more than the sunbirds and hawkmoths of Sumatra we know about. If so, let’s hope that one day, some lucky birder or ornithologist discovers it alive and well.

Finally, let’s finish with another seabird. The Bermuda petrel, also called the cahow, was a grey-brown bird that nested on various small islands in Bermuda. The Spanish visited the islands in the early 16^th century, and while they didn’t settle there, they killed and ate as many cahows as they could catch along with their eggs. They also turned pigs loose on the islands so they’d have food waiting for them whenever they came back wanting bacon. Before then, approximately half a million cahows lived on the islands, but what the sailors and their rats didn’t eat, the pigs did.

The British colonized some of these islands in 1612, which were uninhabited by humans—for good reason, it turned out. The colonists kept dying of starvation. In 1614, rats ate up what little food the colonists had, so the colony evacuated to Cooper’s Island to get away from the rats and hopefully find something edible. There they found the cahow, which had moved to Cooper’s Island and a few nearby small islands to get away from the pigs. By 1620 the colonists had eaten them all. Every single bird. That was the end of the cahow…except that it wasn’t.

In 1951 Louis S. Mowbray, son of the Bermuda Aquarium director of the same name, got a few of his friends together to survey the rocky islets of the area. They were looking specifically for cahows, since reports of dead birds and even occasional live ones still trickled in. Mowbray’s father had even been given a live one which he kept as a pet, so Mowbray knew it was living somewhere.

Sure enough, they found it on four tiny islets. So how did it survive for over 300 years without anyone finding and eating them?

The cahow, it turns out, nests in burrows and a young bird stays in its burrow until it’s old enough to fly. Then, like the albatross, it soars for thousands of miles without landing anywhere but on the water’s surface for the first few years of its life, until it returns to Bermuda in November to nest. It lays one egg a year and mates for life. It arrives at night, courts its mate at night, and digs burrows in sheltered, hidden areas.

One of the people who helped Mowbray find the cahow was David Wingate, who at the time was just a kid. He later attended Cornell University, and after he graduated with a degree in zoology, he returned to Bermuda in 1958 and started his life’s work: saving the cahow and its environment.

He moved to Nonsuch Island, which had been more or less destroyed by colonists and their animals over the centuries. It’s only 14 acres in size, or 5.7 hectares, and is close to Cooper’s Island. Wingate dug up invasive plants, killed invasive animals, and planted native trees and shrubs. He even dug burrows for cahows that had special entrances to keep out the white-tailed tropicbird, which kills cahow chicks. He fought to keep developers from moving onto the island to build homes, fought the military that wanted to use the island for chemical testing. And finally, Nonsuch Island was declared a wildlife sanctuary.

The cahow’s population has grown from only 18 nesting pairs in 1951 to 105 in 2013. It is now the national bird of Bermuda. Wingate retired in 2000, but the conservation work he started continues on Nonsuch Island and other islands too. So if anyone tells you that one person can’t make a difference in the world, just tell them about how David Wingate saved Nonsuch Island, the cahow, and hundreds of other bird, animal, and plant species native to Bermuda. You can do anything if you’re willing to work hard enough.

Thanks for listening!

Episode 069: The Cambrian Explosion

Posted on May 28, 2018 by strangeanimalspodcast

Podcast: Play in new window | Download (Duration: 19:30 — 15.6MB)

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This week let’s find out a little something about the Cambrian explosion, where the relatively simple and tiny life on earth suddenly proliferated and grew much larger…and definitely stranger.

The Burgess shale area: beautiful AND full of fascinating fossils:

Anomalocaris, pre-we-figured-out-what-these-things-are:

What anomalocaris probably actually looked like, plus a couple of the “headless shrimp” fossils:

More “headless shrimp” fossils because for some reason I find them hilarious:

Marrella. Tiny, weird, looks sort of like those creepy house centipedes that freak me out so much, but with horns:

Hallucigenia, long-time mystery fossil:

What hallucingenia probably looked like, maybe:

Show transcript:

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

This week’s topic is one I’ve been fascinated by for years but I’ve never read much about it: the Cambrian explosion. That refers to the explosion of life forms in the Cambrian period, which started about 540 million years ago. That was long before the dinosaurs, long before fish, basically long before almost all life on earth that wasn’t simple squidgy things living in warm, shallow seas.

To learn about the Cambrian explosion, let’s go back even farther first and learn about the first life on earth.

Obviously, the more recently an animal lived, the more likely we are to find fossils and other remains: footprints in fossilized mud, gastroliths and coproliths, and so forth. The farther back we go, the fewer remains we have. The earth is continually changing, with mountains rising up and continents moving around, volcanoes erupting, old mountains being worn down by wind and weather. That’s good for the earth and therefore for life in general, since nutrients are cycled through the ecosystem and habitats are continually renewed. But it’s bad when paleontologists are trying to find out what lived a billion years ago, because most of those rocks are gone, either weathered into sand long ago, melted into magma, or buried under the ocean or otherwise out of our reach.

The Earth formed about 4.5 billion years ago, oceans formed 4.4 billion years ago, and the oldest rocks we can find are about 4 billion years old. The first life on earth, single-celled organisms, dates back to about 3.8 billion years ago, maybe earlier. By 3.5 billion years ago, complex single-celled microorganisms had evolved—we know because we’ve found eleven microscopic fossils in rocks from western Australia. Researchers have concluded that the fossils belonged to five different taxonomical groups, which means that by 3.5 billion years ago, life was already well established and diverse.

By 2.5 billion years ago, the earth had continents roughly the same size as the ones today, although not anything like the same shapes or in the same places. Land also didn’t have dirt on it, just sand and bare rock, since dirt is largely decomposed organic matter and nothing was living or dying on the land yet. Not long after, 2.45 billion years ago, oxygen started to make up a large part of the earth’s atmosphere. That’s right, before then we literally could not have breathed the air. I mean, we could have, but we would die of suffocation because the air contained only trace amounts of oxygen. While having oxygen in the air sounds great to us now, the single-celled organisms living then couldn’t process it and died off—probably the greatest extinction event in the earth’s history. Only organisms that were able to evolve quickly enough to use oxygen survived and thrived.

One particular type of microorganism dating back 2.3 billion years, sulfur bacteria, again known from ancient rocks from western Australia, is still around. Modern sulfur bacteria live in the deep sea off the coast of Chile, and they literally have not needed to change at all in 2.3 billion years. That’s what you call success.

The earliest multicellular organisms date to around 2.1 billion years ago, or at least those are the oldest fossils we’ve found. Algae and fungi evolved soon after. The earliest animal fossils date from about 580 million years ago and include small jellyfish and sea anemones, but all the oldest fossils we’ve found are of specialized animals so they probably arose much earlier. At about the same time, fossils of more complex shelled animals start appearing in the fossil record, animals which may have been the ancestors of arthropods, echinoderms, and mollusks. We also have fossils of burrows made in the sea floor, although we don’t know what kind of animal made them—some kind of wormy creature, but none have been found, just their burrows. Clearly a lot was going on back then, but it was all on a small scale: tiny worms, colonies of bacterial mats, and shelled animals measured in millimeters.

Then came the Cambrian explosion, starting about 540 million years ago, where diverse and often bizarre-looking animals suddenly appear in the fossil record, proliferating at a rate unheard-of in the previous eras. We’re not completely sure why, but it was probably a combination of factors, possibly including increased oxygen levels, the development of an ozone layer in earth’s atmosphere that protects cells from lethal UV radiation, an increase of calcium in ocean water, and many other factors, large and small. As animals grew larger and more diverse, more species could exploit more ecological niches; and when all the available niches were occupied, competition grew even more fierce, leading to even bigger and more specialized animals.

The first Cambrian fossils found were those of trilobites, first described in 1698 but not recognized as extinct fossil animals until the 18^th century. By the 19^th century so many forms of trilobite were known that geologists used them to help date rock strata. While trilobites had probably been around before the Cambrian, during the Cambrian they evolved exoskeletons and became much larger and more common.

You’ve probably heard of the Burgess shale, and you’ve probably heard of it because of the book Wonderful Life, published in 1989 by paleontologist Stephen Jay Gould. The book is out of date now, but when it was new it caused a lot of popular interest in the Cambrian explosion in general and the Burgess shale fossils in particular.

Shale, if you’re not familiar with the term, is a type of sedimentary rock formed from mud containing a lot of clay, generally mud from slow-moving water, floodplains, and quiet lagoons. It’s common, generally gray in color, and splits into flat pieces that you can draw on with other pieces of shale like a chalkboard. People sometimes confuse shale with slate, but slate is actually shale that’s been hardened by pressure and heat within the earth into a metamorphic rock. Because shale is formed from fine particles instead of sand, it can preserve fossils in incredible detail, although usually flattened.

So the Burgess shale is a large deposit of shale some 30 miles across, or 50 km, and 520 feet thick, or 160 meters. The area was once the bottom of a shallow sea next to a limestone cliff, around 505 million years ago, right in the middle of the Cambrian period. When the Rocky Mountains were created by tectonic forces around 75 million years ago, the Burgess shale was lifted 8000 feet above sea level, or 2500 meters. It’s in Canada, specifically Mount Stephen in Yoho National Park in British Columbia, and it’s properly called the Stephen Formation.

In the late 19^th century a construction worker found some fossils in the loose shale weathered out of the formation. A geologist working for the Geological Survey of Canada heard reports of the fossils and in 1886 visited the area. He found trilobites and told his supervisor. Eventually paleontologist Joseph Whiteaves took a look and collected some Burgess shale fossils he thought were headless shrimps. They weren’t, by the way. We’ll come back to them in a minute.

In a nearby section of the Stephen Formation, paleontologist Charles Doolittle Walcott set up a fossil quarry in 1910. He and his team worked the quarry intermittently for the next few decades, collecting more than 60,000 specimens. But he didn’t publish very much about his findings, and after his death no one was very interested in the Burgess shale until the 1960s and 70s, when a couple of paleontologists started poking through Walcott’s collection. Their findings are what Gould writes about in Wonderful Life. Since then, paleontologists have continued to find amazing fossils in the Stephen Formation, and research continues on Walcott’s collection.

Part of the reason Gould’s book was such a sensation, apart from the fact that he’s a great writer and fossils are just interesting, was that he suggested the Cambrian explosion was caused by an unknown event that forced new evolutionary mechanisms into play, leading to many animals that are completely unrelated to those living today. He and some of the paleontologists working on the Burgess shale animals in the 1970s thought many of them belonged to phyla unknown today. There are only 33 designated phyla, although they do get looked at and changed around occasionally as new information comes to light. Humans and all other mammals, as well as reptiles, birds, amphibians, and fish, belong to the Chordata phylum. Gould suggested that if the Burgess shale animals had continued to evolve instead of dying out, life on earth today might look radically different.

That brings us to Whiteaves’s headless shrimp. Its name is Anomalocaris, which means abnormal shrimp. If you’re familiar with shrimp—you know, the things you eat, especially with rice or grits and I am so hungry right now—you have probably seen a headless one. The heads are typically removed before shrimp are sold, even though the rest of the shrimp may be intact, including shell, legs, and those little finny bits on the tail. That’s more or less what the fossil Whiteaves found looked like, except that its legs weren’t jointed. It was a little over 3 inches long, or around 8.5 cm. Whiteaves described it as a type of crustacean in 1892.

But to find out what it really was, we have to look at a couple of other discoveries. Walcott discovered what he identified as a type of jellyfish, around two inches across, or 5 cm, a circular segmented creature with a hole in the middle that looks a lot like a fossilized pineapple ring. Walcott also found what he thought was a feeding appendage or tail of an arthropod called Sidneyia, but didn’t realize it was the same anomalocaris Whiteaves had described. And paleontologist Simon Conway Morris discovered another of Walcott’s pineapple ring jellyfish, preserved together with what he took to be a sponge.

Harry Whittington, a paleontologist working on the Burgess shale fauna in the late 20^th century, finally realized all these fossils belonged together—not as a crustacean, a sponge, and a jellyfish, but as one large animal. The shrimp tail was its feeding appendage, of which it had a pair in the front of its head, and the unjointed legs were spines. The pineapple ring jellyfish was its round mouthpiece consisting of plates that it contracted to crush prey. The sponge was its lobed body, which was softer and didn’t preserve as well as its other pieces.

Whiteaves’s feeding appendage came from a larger species, Anomalocaris canadensis, which grew some three feet long, or about a meter. It probably ate soft-bodied animals. Peytoia nathorsti was much smaller and may have used its feeding appendages to filter tiny prey from the mud.

In the 1990s anomalocaris and its relatives were identified as stem arthropods, ancestors of or at least relations to modern arthropods like insects, crustaceans, and spiders, and not belonging to a new phylum at all. Another anomalocarid was found in rocks 100 million years younger than the Burgess shale, which means at least some of the strange Cambrian animals persisted well into the Devonian.

Another confusing animal is called Marrella, a common fossil in the Burgess shale. Walcott found the first one in 1909 and called it a lace crab, then decided it was a strange trilobite. It’s small, less than an inch long, or under 2 cm, and has long antennae and legs, and head appendages that sweep back into rear-facing spikes that may have protected its gills. It was probably a scavenger that lived on the bottom of the ocean, and we know some interesting things about it. We have one Marrella fossil that shows an individual partly moulted, so we know it moulted its exoskeleton periodically. We also have some specimens so well preserved that researchers have found a pattern on them that would have diffracted light. In other words, its exoskeleton was iridescent and colorful. Charles Whittington examined Marrella in 1971 and determined that it wasn’t a trilobite, wasn’t a crab or other crustacean, and wasn’t any kind of horseshoe crab. Instead, it’s a stem arthropod like anomalocaris.

Hallucigenia may be the most famous Burgess shale animal, although it’s also been found in fossil beds in other parts of the world. It was first described by Walcott as a polychaete worm. Simon Conway Morris redescribed it in 1977, pointed out that it definitely was not a worm, and gave it its own genus. But no one was really sure what it would have looked like when alive, how it would move around and eat, or what it might be related to. Fossils show a thin, flexible worm-like body with long spines sticking out along its length on one side, and flexible tentacles sticking out along its length on the other side. One end of the body is sort of bulbous and the other blunt, but it’s not clear which is the head and which is the tail. It’s small, only an inch or so long at most, or a few centimeters. Conway Morris thought the animal walked on its stiff spikey legs and the tentacles were for feeding, and that each tentacle might even end in a mouth. Other paleontologists suggested the fossil might be part of a bigger animal, the way Anomalocaris feeding appendages were initially thought to be separate animals.

But after more and better fossils were discovered in China, paleontologists in 1991 realized Hallucigenia had been reconstructed upside down and backwards by Conway Morris. The tentacles were paired legs and the stiff spines probably protected the animal from other things that wanted to swallow it. The bulbous end seems to be a head with two simple eyes and a round mouth, possibly with teeth. Its closest living relation is probably a caterpillar-like land animal called a velvet worm or lobopodian worm, although it’s not actually a worm.

Other Burgess shale animals include a bristle worm, an actual relative of modern shrimp, a relative of the horseshoe crab, something that may be related to modern mantis shrimp, a rare mollusk ancestor that was an active swimmer, and a fishlike animal with short tentacles on its tiny head that may have been a primitive chordate.

Most of the Burgess shale animals that have been studied are now classified as arthropod ancestors. But there are hundreds, if not thousands, of fossil species that paleontologists are still puzzling over, with more yet to be discovered in the Stephen Formation and elsewhere. It’s always possible that some animals that evolved during the Cambrian will surprise us as belonging to a completely new group of animals, and that we really will need to add a couple of phyla to the list.

Another exciting thing to remember is that because life on earth is common and arose relatively soon after the earth was formed, it’s almost 100% certain that some other planets also have life—maybe not planets in our own solar system, although we don’t know for sure yet, but astronomers have discovered lots of planets outside of our solar system. They estimate the Milky Way galaxy alone may contain 100 billion planets. In the past researchers have insisted that only planets similar to ours can support life, but that’s not the right approach. Only planets similar to ours can support life like ours. That’s because we evolved to fit our planet. Life on other planets naturally will evolve to fit those planets. Even here on earth we have extremophiles that survive in environments where most other organisms would be destroyed immediately. So next time you’re outside at night, look up at the stars and give them a little wave. Some curious creature might be standing on a planet’s surface untold light years away, staring into the sky and waving a greeting too.

Thanks for listening!

Episode 068: The Dingiso and the Hoan Kiem Turtle

Posted on May 21, 2018 by strangeanimalspodcast

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It’s time to look at two more supposedly mysterious, supposedly identified animals off those “Ten Cryptozoological Animals That Have Been FOUND Please Click Please Click” articles.

First is the dingiso, or bondegezou, which is just about as adorable as an animal can get:

Next is the Hoan Kiem Turtle:

Dat FACE

Show transcript:

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

This week we’re revisiting those “top ten cryptozoological animals found to be real!” clickbait articles that pop up online sometimes. In episode 24 we looked at two animals frequently found on those lists, so let’s examine two more today.

We’ll start in Papua New Guinea, a country that gets mentioned a lot on this podcast. I was curious, so I looked it up and now I’ve learned some geography that I desperately needed to know. Papua New Guinea is a country in the eastern half of the island of New Guinea, just north of Australia. Only Greenland is a bigger island than New Guinea, so we’re not talking a dinky little islet like the ones where cartoon shipwreck survivors end up. New Guinea has a huge mountain range, rainforests, wetlands, savannahs, coral reefs, and pretty much everything else an animal could want. More species live on New Guinea than in all of Australia. More species live on New Guinea than in all of the United States. More species live on New Guinea than in Australia and the United States combined. So it’s not surprising that new species are found there all the time.

People live on the island too, of course, and have for at least 40,000 years, probably much longer. People have lived on the island for so long, in fact, that something like 1,000 different languages are spoken there among the various tribes. The first animal we’re going to learn about today was known to the Moni tribe long before any scientists got wind of it.

The Moni people live in the remote mountainous rainforests of Papua New Guinea. I couldn’t find much information about the Moni except through Christian missionary sites, so as far as I can tell their culture was never studied before it started being influenced by outside groups. But one thing we do know is that the Moni are familiar with a black and white animal called the dingiso, or bondegezou, which holds the spirit of an ancestor. When one is encountered, it will sit up, whistle, and raise a paw in greeting.

No one outside of the Moni tribe paid any attention to this story until the 1980s, when someone sent a photograph of a dingiso to Tim Flannery, an Australian zoologist. He recognized it as a young tree kangaroo, but not one he was familiar with. In May of 1994 he led a wildlife survey expedition in the area and was able to examine a dead dingiso for himself. Sure enough, it was new to science.

The dingiso’s fur is black with white underparts and white markings on the face. Its fur is long and thick to keep it warm in the mountains, since it lives in high elevations just below the tree line. It’s about two and a half feet long, or 75 cm, not counting its tail, which doubles its length. Its face looks something like a bear’s.

Most of the information we have about the dingiso is based on what we know about other tree kangaroos, so may or may not be completely accurate. Females probably give birth to one baby at a time, which stays in its mother’s pouch while it grows. It eats leaves and fruit and lives both in trees and on the ground, although the Moni report that it spends most of its time on the ground.

The dingiso was formally described in 1995. In 2009, a BBC documentary spent eleven days searching for a dingiso with Moni tribesmen as their guides, and finally found and filmed one.

Naturally, the Moni don’t harm the dingiso, since you don’t hurt your ancestors. That has probably saved it from extinction, since the dingiso reproduces slowly and is a docile, harmless animal. Other tribes don’t have the same restriction, though, and hunt the dingiso for food. That and habitat loss due to mining and farming mean the dingiso is endangered. So little is known about it, and so few have ever been seen by scientists, that it could go extinct before we know much more about it than that it exists. But conservation organizations are working to protect it and other animals in New Guinea.

Oh, the whistling and waving activity the Moni describe is probably a threat display. But I like the Moni’s explanation better.

Our next cryptid supposedly identified is the Hoan Kiem Turtle from Vietnam. Specifically, it’s from the Hoan Kiem Lake in Hanoi. According to the story, in the early 15^th century emperor Lê Lợi, a great hero who led Vietnam to independence from China, had a magical sword called Heaven’s Will. Depending on which version of the story you hear, the sword was either given to him by a god called the Dragon King, given to him by the Golden Turtle God, or was found in the lake by a fisherman and given to the emperor. One day not long after Vietnam had successfully won independence, the emperor was boating on the lake when a turtle surfaced, grabbed the sword, and disappeared with it into the lake. In other stories, the turtle surfaced and asked for the sword, and the emperor realized it was the Golden Turtle God. Hoan Kiem Lake means “Lake of the Returned Sword.”

The lake isn’t deep, only six and a half feet, or 2 m, at its deepest, and it only covers around 30 acres in the middle of a very large city. There doesn’t seem to be a metric equivalent of acre, but if hectares mean anything to you, 30 acres is a little over 12 hectares.

Softshelled turtles of enormous size have been known in the lake for a long time, specifically the Yangtze giant softshell turtle. It’s the biggest freshwater turtle known, and can measure over six feet long, or almost 2 meters. It lives in rivers and lakes in Vietnam and China and eats pretty much anything, from plants to frogs, fish, crustaceans, and snails. Its nostrils look like a tiny pig’s snout. It’s a shy turtle that doesn’t surface very often, and it’s also extremely rare, almost extinct. There may only be three or four specimens left in the world. Captive breeding has not been successful so far.

So why is the Hoan Kiem Turtle considered a cryptid? Why is it on those identified cryptid lists? Two reasons.

First of all, until its death in January of 2016, there was one in the Hoan Kiem Lake, and rumor had it that this was the same individual that had taken the emperor’s sword back in 1428. Turtles can live for a long time, but probably not for 600 years. But no one knew there was a turtle remaining in the lake after the last one was killed in 1967, not until 1998 when someone caught it on video. The turtle was captured in 2011 for treatment of some injuries, possibly caused by the lake’s pollution, then released, and lived for another five years before it was found dead in the lake.

Second, there’s some controversy regarding whether the Hoan Kiem Turtle is actually a Yangtze giant softshell turtle or a different species. Most researchers think it’s the same species. A few Vietnamese biologists think it’s not, but the DNA studies they cite to back up their claims haven’t been published formally and may not have been conducted correctly.

So while there are mysteries associated with the turtle, it’s not really accurate to call it a cryptid that’s been identified. But that doesn’t mean it’s not really interesting. I hope researchers find more of them in the wild that can be relocated to a safe area where they can breed successfully.

Thanks for listening!

Episode 067: More Sea Monsters

Posted on May 14, 2018 by strangeanimalspodcast

Podcast: Play in new window | Download (Duration: 19:30 — 19.3MB)

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Finally, it’s the follow-up to our first sea monsters episode that sounds so terrible now that I know how to put a podcast together!

Here’s the published drawings of a strange animal seen from the HMS Daedalus:

Here’s Drummond’s sketch of what he saw:

Here’s a sketch of the HMS Plumper animal sighted:

And here’s a sei whale rostrum sticking up out of the water while it’s skim feeding:

Sei whales are neat and have gigantic mouths:

The rotten “sea serpent” that’s actually a decomposing baleen whale:

The Naden Harbour Carcass. It’s the black thing on the table with a white backdrop. It doesn’t look like much, but you probably wouldn’t look like much either after being eaten by a sperm whale:

Unexpected seal says “Hello, I am not a sea serpent, I am a stock photo”:

Hagelund’s sketch of the little animal he caught:

A pipefish with a lollipop tail and some drawings of pipefish:

The strange animal seen from the Valhalla:

Show transcript:

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

Recently I listened to episode six, about sea monsters. It’s climbed to our third most popular episode and when I heard it again, oh man, I winced. I was still really new to podcasting then and that episode sounds like someone reading a book report out loud to the class. So it’s time to do a new sea monsters episode and explore more mysteries of the world’s oceans, hopefully with a lot more vocal expression.

On August 6, 1848, about 5 o’clock in the afternoon, the captain and some of the crew of HMS Daedalus saw something really big in the water. The ship was sailing between the Cape of Good Hope and St. Helena on the way back to England from the East Indies. It was an overcast day with a fresh wind, but nothing unusual. The midshipman noticed something in the water he couldn’t identify and told the officer of the watch, who happened to be walking the deck at the time with the captain. Most of the crew was at supper.

This is what the captain, Peter M’Quhae, described in his report when the ship arrived at Plymouth a few months later.

“On our attention being called to the object, it was discovered to be an enormous serpent, with head and shoulders kept about four feet constantly above the surface of the sea, and, as nearly as we could approximate, by comparing it with the length of what our main-topsail yard would show in the water, there was at the very least sixty feet of the animal à fleur d’eau [that means at the water’s surface], no portion of which was, to our perception, used in propelling it through the water, either by vertical or horizontal undulation. It passed rapidly, but so close under our lee quarter, that had it been a man of my acquaintance, I should easily have recognized his features with the naked eye; and it did not, either in approaching the ship or after it had passed in our wake, deviate in the slightest degree from its course to the S.W., which it held on at the pace of from twelve to fifteen miles per hour, apparently on some determined purpose.

“The diameter of the serpent was about fifteen or sixteen inches behind the head, which was, without any doubt, that of a snake; and it was never, during the twenty minutes that it continued in sight of our glasses, once below the surface of the water; its colour a dark brown, with yellowish white about the throat. It had no fins, but something like a mane of a horse, or rather a bunch of seaweed, washed about its back.”

The original Times article also mentioned large jagged teeth in a jaw so large that a man could have stood up inside the mouth, but this seems to be an addition by the article’s writer, not the captain or crew.

The officer of the watch, Lieutenant Edgar Drummond, also published an excerpt from his own journal about the sighting, which appeared in a journal called the Zoologist in December 1848. It reads, “In the 4 to 6 watch, at about five o’clock, we observed a most remarkable fish on our lee quarter, crossing the stern in a S.W. direction; the appearance of its head, which, with the back fin, was the only portion of the animal visible, was long, pointed, and flattened at the top, perhaps ten feet in length, the upper jaw projecting considerably; the fin was perhaps twenty feet in the rear of the head, and visible occasionally; the captain also asserted that he saw the tail, or another fin about the same distance behind it; the upper part of the head and shoulders appeared of a dark brown colour, and beneath the under jaw a brownish white. It pursued a steady undeviating course, keeping its head horizontal with the surface of the water, and in rather a raised position, disappearing occasionally beneath a wave for a very brief interval, and not apparently for purposes of respiration. It was going at the rate of perhaps from twelve to fourteen miles an hour, and when nearest, was perhaps one hundred yards distant. In fact it gave one quite the idea of a large snake or eel. No one in the ship has ever seen anything similar, so it is at least extraordinary. It was visible to the naked eye for five minutes, and with a glass for perhaps fifteen more. The weather was dark and squally at the time, with some sea running.”

To translate some of this into metric, 60 feet is a little more than 18 meters, the 15 inch diameter the captain reported of the neck just behind the head is about 38 cm, and the speed of 13 mph is almost 21 km per hour.

A lot of people wrote in to the Times to discuss the sighting and suggest solutions. One writer claimed the animal couldn’t be a snake or eel, since a side to side undulating motion would have been obvious as the animal propelled itself with its tail. Another said it had to have been a snake but the undulations were only in the tail, which was below the water. Yet another article suggested it was a monstrous seal or other pinniped. Captain M’Quhai took exception to that one and wrote back stressing that he was familiar with seals and this definitely had not been one. Other suggestions included a basking shark or some other unknown species of shark, a plesiosaur, or a giant piece of seaweed.

Other similar sightings are on record, including a very similar one from the very end of 1849 off the coast of Portugal. In that one, an officer on HMS Plumper reported seeing “a long black creature with a sharp head, moving slowly, I should think about two knots, through the water, in a north westerly direction, there being a fresh breeze at the time, and some sea on. I could not ascertain its exact length, but its back was about twenty feet if not more above water; and its head, as near as I could judge, from six to eight. I had not time to make a closer observation, as the ship was going six knots through the water, her head E. half S., and wind S.S.E. The creature moved across our wake towards a merchant barque on our lee-quarter, and on the port tack. I was in hopes she would have seen it also. The officers and men who saw it, and who have served in parts of the world adjacent to whale and seal fisheries, and have seen them in the water, declare they have neither seen nor heard of any creature bearing the slightest resemblance to the one we saw. There was something on its back that appeared like a mane, and, as it moved through the water, kept washing about, but before I could examine it more closely, it was too far astern.”

Illustrations of the Daedalus sea serpent, which M’Quhai approved, were published in the Times. But the original sketch made by Drummond in his journal the day he saw the animal gives us a much better idea of what it looked like and what it probably was. The sketch accompanying the Plumper sighting reinforces the solution. It’s probable that both sightings, and probably many others, were of a sei whale skim feeding.

The sei is a baleen whale that’s generally considered the fourth largest whale, with some individuals growing almost 65 feet long, or nearly 20 meters. Females are larger than males. It lives all over the world although it likes deep water that isn’t too cold or too hot. It’s a mottled dark grey. Its fins are relatively short and pointed, its dorsal fin is tall and fairly far back on the animal’s body. Its tail flukes aren’t usually visible. Its rostrum, or beak, is pointed and short baleen plates hang down from it. The sei whale’s baleen is unusually fine, with a fringe that is curly and white and looks something like wool.

Unlike some whales, it doesn’t dive very deeply or for very long, and it’s usually relatively solitary. It spends a lot of its time at or near the surface, frequently skim feeding to capture krill and other tiny food. It does this by cruising along with its mouth open, often swimming on its side. It has throat pleats that allow its huge mouth to expand and hold incredible amounts of water. The whale closes its mouth and raises its huge tongue, forcing the water out through its baleen plates. Whatever krill and fish are caught by the baleen, the whale swallows.

A lot of baleen whales skim feed occasionally, but the sei is something of a skim feeding specialist. And it has a narrow, pointed rostrum that often sticks up out of the water as it skim-feeds, with pale baleen hanging down. This might easily look like a long snakey animal with a small head held up out of the water, especially in poor viewing conditions when the people involved are convinced they’re looking at a sea serpent. The sei whale is a fast swimmer too, easily able to cruise at the speeds described by the Daedalus and Plumper crews.

It’s not a perfect match, of course. The sei whale’s dorsal fin is pretty distinctive and if seen properly would have immediately told the crew they were looking at a whale. No one reported seeing anything that could be considered a whale’s breath either, sometimes called a spout. Since whales exhale forcefully and almost empty their lungs when they do, the cloud of warm air expelled looks like steam and is a tell-tale sign of a whale. Whales also don’t have hair on their rostrum that could wash around like a mane on a sea serpent’s neck. So while it seems likely that the Daedalus and Plumper sightings were of sei or other baleen whales skim feeding, we can’t know for sure.

Incidentally, the sei whale wasn’t fully protected from whaling until 1986. Japan still hunts sei whales, supposedly for scientific purposes but no one’s really fooled. The whales they catch are sold for meat. In 2010, a restaurant in Los Angeles closed after being caught serving sei whale meat. The sei whale is still endangered but if people would stop killing it maybe it would be doing better. Whalers reported that when harpooned, sei whales would cry audibly, which apparently disturbed the whalers. Maybe if your job involves making animals cry you should go back to school and get a degree in nursing or teaching or something else that will make the world a better place, not worse.

Another whale is responsible for a mystery carcass washed up in the Philippines in 2017. The carcass looks like a dragon-like sea monster, but that’s due to decomposition. It’s actually a baleen whale, probably a gray whale, that had apparently been floating around for a while, getting nastier and more nibbled on every day.

Speaking of nasty, nibbled-on dead things, and whaling, in 1937 a sperm whale brought to Naden Harbor Whaling Station on a small Canadian island for processing turned out to have something so extraordinary in its stomach that the whalers took pictures of it. It was about ten feet long, or three meters, with a head said to be horselike or camel-like in shape with a drooping nose. Its body was long and thin, and it had short pectoral flippers and a single fluke or spade-shaped end on its tail. Its skin was either smooth or furry depending on which witness you believe, and there were signs it may have had baleen or gill rakers.

The carcass wasn’t kept, but pieces of it were reportedly sent to the British Columbia Provincial Museum, whose museum director suggested it might be a fetal baleen whale. Locals thought it might be a young cadborosaurus, a sea serpent occasionally sighted off the coast of British Columbia. It gets its name from Cadboro Bay, and is usually called Caddy. Caddy is generally described as 5 to 15 meters long, or 16 to almost 50 feet long, with a horse-like or camel-like head, big eyes, and a tail with horizontal flukes like a whale’s. Some witnesses say it has brown fur and horns or ears of some kind.

In 1992, a retired museum researcher named Ed Bousfield found three photos of the Naden Harbor carcass, long believed lost. This sparked up lots of debate, naturally, and lots of suggestions as to what the animal might be—a basking shark, a sea lion or other pinniped, an eel, an oarfish, and many others.

The problem, of course, is that the pictures aren’t very clear, we don’t have the actual body to examine, and the carcass had spent some time in the belly of a sperm whale so was in the process of being digested. But the whalers who found it had never seen anything like it before.

In 1968, a man called William Hagelund was yachting with his family when he heard splashing and saw a strange creature in the water. It was small, only about 16 inches long, or 40 cm, so he lowered a dinghy and caught it in a net. It had what appeared to be armored plates on its back, its flippers were odd-shaped, its snout was elongated but widened at the end, and it had a downy yellow fuzz or fur underneath. Hagelund put it in a bucket but it was so frantic to get out that he worried it would die. He made a drawing of it and released it.

Hagelund thought he’d caught a baby Caddy. But he didn’t share his story until twenty years later, when he wrote a book called Whalers No More.

But while Hagelund’s creature probably wasn’t a baby Caddy, it might have been something almost as strange. The pipefish is a fish related to the seahorse, and it resembles a seahorse that has straightened out. Some species have prehensile tails, some have little paddles at the end of their tails. Some are stripey. Like seahorses, the pipefish male has a brood pouch where he broods the female’s fertilized eggs. Not only does he protect the eggs, he supplies them with nutrients from his body while they grow. Because the female can lay more eggs than the male can hold in his brood pouch, females of some species of pipefish will have more than one mate. Pipefish rarely grow longer than around 16 inches, or 40 cm and have armored plating. The yellow fuzz Hagelund reported might have been algae.

It’s probable that at least some Caddy sightings are of moose swimming to or from one of the many small islands in the area. Moose will also dive to reach aquatic plants. Other Caddy sightings are probably of the Northern sea lion or Northern elephant seal, both of which are common in the area for at least part of the year.

Pinnipeds, in fact, may be the biggest factor to consider in any sea serpent or sea monster sightings. I learned this interesting fact after doing the research for the previous sea monster episode, but pinnipeds will stand vertically in the water to look around above the surface, and a big elephant seal can raise its head over three feet, or one meter, out of the water. If you’re in a boat and a big head and neck pops up out of the water nearby, your first thought is not going to be, “Oh, that’s an unexpected seal.” It’s going to be, “THIS GIANT ANIMAL IS GOING TO EAT ME.”

But that doesn’t mean there aren’t definite sea monsters out there. Far from it. On December 7, 1905, two naturalists spotted an animal they couldn’t recognize off the coast of Brazil.

The pair were Michael Nicholl and Edmund Meade-Waldo, part of a research team on the Valhalla. The ship was about 15 miles, or 24 km, from the mouth of the Parahiba River. At 10:15 a.m. Nicoll spotted a dorsal fin above the water that he didn’t recognize, about 100 yards away, or 91 meters. He asked Meade-Waldo to take a look, and he couldn’t identify the fish either. The fin was roughly rectangular, close to two feet high and six feet long, or 61 cm and 1.8 meters, and dark brown with an edge Meade-Waldo described as crinkled.

Meade-Waldo was looking at the fin through his binoculars when a head and long neck emerged from the water in front of the fin. He estimated it as 7 or 8 feet high, or over 2 meters, with a brown, turtle-like head. The animal moved its neck from side to side. They watched it until it was out of sight as the ship sailed away, but early the next morning, around 2 am, three crew members spotted what they thought was the same animal swimming underwater.

Nicholl and Meade-Waldo published their report in 1906. We still have no idea what they saw.

Thanks for listening!

Episode 066: TYRANNOSAURUS REX

Posted on May 7, 2018 by strangeanimalspodcast

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Thanks to Damian, who suggested T. rex as a topic! Let’s learn all about the T. rex and especially the most famous and controversial specimen ever found, Sue.

A T. rex:

Sue, also a T. rex:

Show transcript:

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

Our topic this week is a suggestion from Damian, who wants to hear about the one, the only, the tyrant lizard king with massive everything except arms, Tyrannosaurus rex. Aw yeah

You probably know a lot about T. rex without realizing it. It’s THE dinosaur, the one people think of first when you say dinosaur. But a lot of popular knowledge about the T. rex is actually out of date, so let’s find out what’s really going on with that big toothy theropod.

First of all, T. rex did not live in the Jurassic period. It lived much later, in the late Cretaceous, around 66 million years ago. But I guess Late Cretaceous Park doesn’t have quite the same ring to it. It was one of the last non-avian dinosaurs, dying off in the Cretaceous-Paleogene extinction. It lived in what is now western North America, with close relatives in many other parts of the world.

T. rex was a big animal, no doubt about it. The biggest individual we know of, called Sue, stood around 12 feet tall, or a little over 3 ½ meters at the hips. The weight of its massive head was balanced by its long tail. Nose to tail it was around 40 feet long, or about 12 meters. Plenty of other dinosaurs were bigger than T. rex, but T. rex was the biggest land predator we know of.

While T. rex had long legs, its arms are famously teeny, only about three feet long, or one meter. That’s barely longer than an adult human’s arm. But recent research shows that the arms weren’t weak. The bones were strong and so were the muscles, although the arm had a limited range of motion and only two toes. Many researchers think T rex used its arms to hold onto struggling prey.

Since all we have are fossils, we don’t really know what T. rex looked like beyond its bones and muscles, which we know about from study of muscle attachment sites on the bones. Some researchers think it probably had at least some feathers, since we have feather impressions from some of T rex’s close relations. Baby T rex might have had feathers and shed them as it grew up, or it might have had feathers its whole life. We have fossilized skin impressions from a specimen found in 2002 that show scales on the tail, neck, and hip, so many researchers suggest that T rex only had feathers on its head and back, possibly for decoration or protection from the elements. Closely related species show feather impressions over all of the body, so we know T rex’s cousins were feathered.

We also know that T rex had large flat scales on its snout with patches of keratin in the middle, which probably contained sensory bundles. These same patches are present in crocodilians, which help crocs move their eggs and babies without harming them, and help them sense the temperature of their nests.

In 2016, researchers discovered that T rex’s teeth contained enamel. This makes the teeth harder, but enamel has to stay damp. That means T rex probably had lips and its teeth wouldn’t have been visible except when the mouth was open. If that sounds weird, most reptiles have lips. Crocodilians don’t, so some of their teeth show when their mouths are closed, but they also live in the water so don’t have to worry about dry mouth.

Just to be clear, reptile lips aren’t big kissy lips. They’re just skin that allows the teeth to be completely enclosed within the mouth when the jaws are closed, keeping the mouth from drying out.

In 2005, paleontologist Mary Schweitzer found soft tissue in the femur, or thigh bone, of a 68 million year old T rex. The tissue contained blood vessels and a substance called medullary bone, which is only present in female birds right before they lay eggs. Medullary bone helps the bird’s body make shells for her eggs. Since then, researchers have found soft tissue within bones of two more T rexes and a hadrosaur. They’re not yet sure how the soft tissue was preserved. The blood vessels resemble those of ostriches more than they resemble crocodilian blood vessels.

For a long time scientists thought that dinosaurs like T rex stood upright with the tail acting as a prop. You know, sort of like Barney. This was recognized as wrong by around the 1970s, but paleontologists are still figuring out the details about how T rex moved around. For instance, we still don’t know if T rex could run. Many researchers now think it probably could, although it might not have been able to run faster than around 25 mph, or 40 km/h. That’s about the speed of a human sprinter. Some of T rex’s bones are hollow to reduce weight, and its feet show adaptations to withstand stresses. But we don’t know for sure, and studies continue using ever more sophisticated mathematical models.

We also don’t know if T rex was warmblooded like birds, or cold-blooded like reptiles. Considering its close relationship to birds, many researchers think it was warm-blooded, properly called endothermic. An endothermic animal can regulate its body temperature internally regardless of the air temperature.

T rex had excellent vision and sense of smell. It could hear very well too, especially low-frequency sounds. It had a massively strong bite, probably the strongest bite force of any land animal. Its bite could crush bone. It would have been a deadly hunter but probably also scavenged, either by stealing kills from other predators or eating anything dead it came across.

We have fossils that show damage from T rex bites, including to other T rexes. It’s possible T rexes fought, either over food or mates, or that bigger T rexes sometimes ate smaller ones. All T rex remains show damage, though, since the life of a predator is a tough one, and the bigger the animals you hunt, the more damage you’re going to take.

So that’s a lot of up-to-date information about Tyrannosaurus rex, or as up-to-date as I could find. Lots of paleontologists are studying T rex, so more information gets published all the time. While I was researching, though, I kept running across interesting details about the specimen nicknamed Sue.

Sue was discovered in August 1990 in South Dakota, on the Cheyenne River Indian Reservation, by paleontologist Sue Hendrickson. It was the last day of the dig and in fact the group was about to head home with a bunch of Edmontosaurus fossils when they noticed their truck had a flat tire. While the tire was getting changed, Sue Hendrickson took the opportunity to poke around for any last-minute fossils. She spotted some loose bones that had weathered out of a cliff, and saw bigger bones sticking out of the cliff above her, so she took the loose bones back to the dig supervisor and president of the Black Hills Institute, Peter Larson. Larson recognized them as T rex bones and immediately decided they weren’t going to leave that day after all.

It was a good decision, because once the bones were excavated, it turned out to be not only the biggest T rex skeleton ever discovered, but the most complete, and in excellent condition.

The group took the fossils back to the Black Hills Institute to clean and prepare them, and that should have been that. But unfortunately, T rex remains are worth a lot of money and that caused issues almost immediately.

The Black Hills Institute had gotten permission to excavate Sue the dinosaur, and had paid the landowner $5,000. The land was owned by Maurice Williams, a member of the Sioux tribe, and since his land was also part of the Sioux reservation, the tribe said the fossils belonged to the tribe, not just Williams.

It’s easy to think of Williams as greedy, but the situation was far more complicated than it sounds. Peter Larson’s group weren’t just in it for the science. They were commercial bone hunters, which means they would have sold the T rex fossil after it was prepared and kept all the money. They had already started taking offers for the sale when Williams sued. Not only that, Williams’s land was held in trust by the government, which meant Larson was supposed to get permission from not just Maurice Williams but the Department of the Interior to excavate fossils on the land, and he hadn’t even asked.

It was a lengthy, complicated trial. Even the FBI had to get involved. They and the South Dakota National Guard seized the fossils and kept them in storage until the trial ended. Peter Larson was charged with fossil theft—not of Sue the T rex, but of other fossils that didn’t have anything to do with Williams. He was found guilty of theft of fossils from public land and lying on customs documents about fossil deals in Peru and Japan, and spent 18 months in jail.

The court decided that Maurice Williams did own the fossils. Williams contacted the auction house Sotheby’s to sell them.

The paleontological community panicked at this, because when I say T rex fossils are worth a lot of money, I don’t mean it’s just scientists who fight each other to buy them. I mean rich people want them for private collections. Fossils in private collections are usually never studied, so they’re nothing more than decorations and don’t add anything to our collective knowledge of creatures that lived in the past. There’s nothing wrong with owning fossils of common animals, of course, but when it’s an important find like this one, it needs to be prepared properly, studied by experts all over the world, and put on public display.

So the Chicago Field Museum of Natural History scrambled to find funding to bid on the T rex. They asked lots of companies and individuals to donate, and those companies and individuals stepped up—companies like McDonald’s and Walt Disney Parks, so good for them.

The auction was held in October 1997. The starting bid was $500,000. At the time, the top amount paid for a fossil had been around $600,000, but Sotheby’s expected this sale to top one million. We don’t know who bid because Sotheby’s keeps this information a secret, but we do know that the Smithsonian had been prepared to spend 2 ½ million.

The auction only lasted eight minutes and the Field Museum won. It paid $8.3 million dollars for Sue the T rex, of which 7.6 million went to Williams. Disney was given a replica of Sue’s skeleton for display and McDonald’s was given two replicas.

It’s great that Sue was bought by an institution that has made the fossil available for study and put it on permanent display to the public. But because the auction went for so much, and was so well publicized, it had some negative repercussions. For a few years after the auction, all fossil auctions were much higher than before, stretching museum budgets to the limits. It is now much harder for paleontologists to get permission to dig on private property, and people started stealing fossils from dig sites, thinking they might get rich.

Williams was fined for selling dinosaur bones without a business license. He died in 2011 at the age of 85and I couldn’t find out what he did with the money he received from the auction, but apparently he kept it in his family and did not donate any to his tribe. While the Cheyenne River tribe’s policy is to leave fossils undisturbed, the nearby Standing Rock Reservation has its own paleontology department and museum. The group visits local schools to give presentations on dinosaurs found in the area.

In 2002 Larson and his then-wife, Kristin Donnan, published a book called Rex Appeal, and in 2014 made a documentary from the book called Dinosaur 13. Critics have pointed out that both book and film tell a one-sided story, painting Larson as an innocent who was wronged by the system and ignoring Williams’s point of view entirely.

It sounds like Williams was actually kind of a jerk. But it also sounds like Larson was kind of a jerk. People get weird when a lot of money is on the line, and at least Larson truly loves paleontology and has contributed a lot to the field—you know, when he’s not selling fossils to private collectors.

As for Sue the T rex, we don’t actually know if the dinosaur was male or female, but it usually gets referred to as a she because it’s named after Sue Hendrickson, the discoverer. Sue the T rex has been studied extensively so we know a lot about her. She was 28 years old when she died and had arthritis in her tail, had recovered from some serious injuries including broken ribs and a torn tendon in her right arm, and her skull shows pathology that might have killed her. Some researchers think Sue died from a parasitic infection from eating diseased meat. Modern birds sometimes contract what may be the same parasite, which causes swelling of the throat that ultimately starves the bird to death.

A few months ago as of this recording, in February of 2018, Sue was dismantled and removed temporarily from display so that some missing small bones can be added to the skeleton and adjustments made to her posture. She will then be moved to her own room in the Field Museum in 2019. Sue also has her own Twitter account, @SUEtheTrex. It’s actually pretty funny. I just followed it.

Thanks for listening!