Otters of the Old World

In the last post (which you can check out by clicking HERE), we learned all about the otters of the Americas   In this post, we are going to look at the otters from the rest of the world!  First though, we aren't going to be looking at the sea otter again, as we looked at it in the last post, and even though it can be found along the coast of Russia and Japan, you can just click the link above to learn about it from the last post.  So, just like an otter, let's dive on in!

We'll start with the Eurasian otter, found from Europe down south to northern Africa, and as far east as India, China, and the Malay Archipelago!

Before heading over to Africa, let's focus more on the Asian otters!  First off, we have the smooth-coated otter!  The smooth-coated otter is one of my favorite otters for many reasons!  First off, it has been tamed in some parts of India and Bangladesh to not only catch fish, but also to herd them into fishing nets!  That's pretty awesome!  This otter is very social, living in groups between around 2-11, and fighting off crocodiles.  Wait, what was that?  Did you say fighting off crocodiles?  Technically, no, I wrote it, and you didn't really need to ask, you could have just reread that line again.

Anyways, yes, the smooth-coated otter will actually fight off crocodiles!  More specifically, a certain type of crocodile called the mugger crocodile!  I can sense that a few of you are a little skeptic, so below is the link to a video!

Our next Asian otter is the Asian small-clawed otter!  We actually have these at the Denver Zoo, but I have never been able to get a good picture of them (nor the fishing cats!) due to the weird way the glass was built!  Anyways, the Asian small-clawed otter is the smallest otter in the world, and, like the smooth-coated otter, is very social, living in groups of around 2-15.

Our next otter, our last Asian otter, is the hairy-nosed otter.  Not a lot is known about the hairy-nosed otter: as a matter of fact, it was actually thought to be extinct until 1998.  Since then, numerous pockets of the animal have been rediscovered, but it is still highly at risk.  The hairy-nosed otter is currently labeled as "Endangered" by the IUCN.

On to the African otters!  The African otter with the widest range is the Cape clawless otter, so we'll look at it first!  As its name implies, the front foot of the Cape clawless otter is, in fact, clawless, except for vestigial fingernails.  The Cape clawless otter will inhabit marine habitats, so long as fresh water for drinking is close by!  The Cape clawless otter will dine on, amongst other things, octopus!

The African otter with the second widest range is the spotted-necked otter.  The markings on the spotted-necked otter are unique to each individual animal: just like human thumbprints, no two are alike!

The final African otter (in fact, the final otter altogether), is the Congo clawless otter.  The limited data that scientists have seems to indicate that, despite their similarities, the Congo clawless otter is, indeed, genetically distinct from the Cape clawless otter.  One interesting fact about the Congo clawless otter pertains to its diet: earthworms form a very important component of the diet of this particular otter in many parts of its range!  The otters will root around in the mud in search of their prey, oftentimes consuming up to three earthworms a minute!

Make sure to check out the first post in our "Otters of the World" duology by clicking HERE.  Furthermore, this was the birthday post of Julie Neher! Happy birthday, Julie! Want to see some cute (or ugly) baby animals featured here on your birthday? Well, if you have a birthday coming up, just email me the date at cuyvaldar123946@gmail.com with the date and your favorite animal, and I will do my best to get a post in! And if you like what you are reading, please feel free to follow us here or via Facebook!

Animal Questions #1: Jurassic Park Reality, Sea Otter Hand Holding, and the Great Auk Extinction

So I've started a new video series in which I answer questions about animals that you guys have.  I finished Episode 1 today, and if you click on the link below you can watch it, too!

CLICK HERE TO LEARN THE ANSWERS.

I decided I would also write out the questions and answers here, just in case some of you would rather read the questions and answers, instead!  So here they are, in all of their glory and splendor!

1. Could people actually clone dinosaurs and make a real life Jurassic Park?

Ever since the fantastic book Jurassic Park came out in 1990, people started to wonder: could this actually happen? Could we actually bring dinosaurs to life via the miracle of cloning? Following the release of the movie in 1993, the idea was on the mind of even more people. Sadly, (or perhaps fortunately), from what we understand about DNA at this point, we simply cannot clone dinosaurs, not even by using mosquitos trapped in amber. DNA is a very fragile molecule, and does not take all that long to break down. Sure, mammoth mummies frozen in the permafrost in Siberia have successfully yielded DNA. Mammoths, however, only went extinct several thousand years ago. From a geological standpoint, mammoths, you and I lived practically at the same time as each other, when compared to how long ago the dinosaurs roamed the earth. Furthermore, the permafrost has acted as a freezer, helping to preserve the DNA in ideal conditions for scientists to extract it from the mammoth at a later date. So to sum up? To the best of our knowledge, Jurassic Park: not happening. However, Pleistocene or Ice Age Park may not be all that far off!

2. Why do sea otters hold hands while they’re sleeping?

Sea otters often do this to keep themselves from drifting apart from other sea otters. Although adult sea otters generally forage for food by themselves, they will often form large groups, called “rafts,” sometimes numbering as many as 2,000 individuals. When in these rafts, to avoid floating apart from each other, they will sometimes hold hands. They will also sometimes tie themselves to kelp when they are sleeping or feeding to keep from floating away, as well.

3. Why did the great auk go extinct?

For those of you who are unfamiliar with the great auk (Pinguinus impennis), this penguin-like creature (a product of convergent evolution) inhabited the North Atlantic Ocean in the Northern Hemisphere, and became extinct mid-way through the 1800s. The great auk was intensely hunted by humans in European waters for their down feathers, (which were actually used in both pillows and hats), as well as for food. (Not the down feathers, mind you, but the meat of the bird and its eggs). It wasn't until 1553, around the time that the nesting sites of the great auk had been all but eliminated on the European side of the Atlantic, that the great auk first became officially protected. In 1775, people who had broken a law forbidding people from killing the great auk for its feathers were actually beaten publicly! Following the local extinction of the great auk in Greenland in 1815, the sole remaining breeding site of the great auk was a small, volcanic island. Off of the coast of Iceland, the island was dubbed "Geirfuglasker," after the Norse term for "great auk," "Geirfugl." In 1830, however, the great auk population on Geirfuglasker came under siege by two elemental forces that it had no hopes of combating: an underwater volcanic eruption and a subsequent earthquake, which combined to destroy the island, terminating most of the rest of the great auks. That’s not to say that the volcanic eruption and volcano are to blame: humanity definitely takes the bullet for that one.

If you have any questions yourself, ask me here at the blog, email me at cuyvaldar123946@gmail.com, comment below the video, or tweet them at me @TNaturalWorld1. Thanks for watching/reading/whatever you did!

23-Fact Tuesday: The Polar Bear!

Everyone loves polar bears, so today, for the birthday post of Brooke Harrower, we are going to be taking a 23-Fact Tuesday look at them!  Allons-y!

1.  Despite the fact that the polar bear can be quite a fierce animal, it can also be very playful and gentle.  For proof, click HERE to see a very cute video of polar bears playing with sled dogs!

2.  A group of polar bears is called a celebration.

3.  In an attempt to safely film polar bears up close and personal without disturbing them, one production company resorted to an interesting array of spy cameras.  To see an awesome video of the polar bears playing with the spy cameras, click HERE.

4.  As we saw in the previous video clip, the polar bear is quite the curious animal.  It has to be, to survive in such harsh conditions!  The polar bear is also a lot smarter than many other bears, as can be seen in a comparison of a few different bear brains, below!  Look at how much larger (comparatively) the brain of the polar bear is than that of the American black bear!  Also keep in mind that more wrinkles=a greater surface area=a smarter animal!

5.  Unlike the color of its fur, the skin of the polar bear is actually jet black!

6.  Despite the fact that they are often erroneously pictured together, it is almost entirely impossible for penguins and polar bears to meet naturally in the wild, as no penguins ever really make it past the Equator, with the Galápagos penguin living the furthest north, right on the Equator!  For more information on the subject (as well as some really funny stories) click on the link HERE, to check out a page on the awesome blog March of the Fossil Penguins.

7.  As you can see in the video clip HERE, filming the polar bears for the excellent BBC series Planet Earth could be quite a challenge (see the full post HERE), especially when they come knocking at your door!

8.  The polar bear is the largest extant (still living, opposite of extinct) mammalian carnivore.  The males can grow up to a whopping 1,500 pounds! 

9.  It occurs to me as I eat this delicious cherry popsicle that the polar bear must have some sort of special evolutionary adaptation to prevent brain freeze as it consumes a cold and frozen meal.  Research should be done into this.

10.  Polar bears, after their emergence from their dens following the harsh Arctic winters, have been observed sledding down the hills on which the dens are associated.  Some scientists believe that this action is solely intended to clean the fur, but many others (myself included) believe that it is probably more for fun!  Check out the video HERE.

11.  The polar bear is native to only five countries.  These are Russia, Denmark owned Greenland, Norway owned Svalbard, Alaska, and Canada.

12.  The polar bear is a descendant of the grizzly bear, and was once thought to have diverged from the grizzly possibly only even around 70-100,000 years ago.  Others are more conservative in their estimations, as DNA analysis on one particular fossil specimen indicates that the polar bear diverged from the grizzly bear around 160,000 years ago.  It now seems more likely that the age of divergence of was much earlier in time than even 100,000 years ago, and polar bear fossils dating from earlier than that (round 115,000 years ago) have actually been discovered.

A picture of one of the grizzly bears at the Cheyenne Mountain Zoo doing what the zookeepers call the "Yoga Bear."  This was from the behind the scenes experience that my dad, grandma and grandpa, my friend Masaki and I got to do with Kelley Parker a few months back!  Photo Credit: Masaki Kleinkopf.

Another picture of one of the grizzly bears at the Cheyenne Mountain Zoo doing what the zookeepers call the "Yoga Bear."  This was from the behind the scenes experience that my dad, grandma and grandpa, my friend Masaki and I got to do with Kelley Parker a few months back!  Photo Credit: Masaki Kleinkopf.

13.  The oldest polar bear fossil known to science, the lower jaw of a male, was discovered in 2004.  It's age is thought to be between around 110,000 and 130,000 years old. 

14.  The scientific name for the polar bear, Ursus maritimus is "sumitiram susru" spelled backwards.  This means absolutely nothing and is really not that exciting, unless you are me and think it's funny and clever to spell things backwards and make stupid jokes about it.

15.  Algae, while not threatening to a polar bear in any significant way, can be extremely hard to wash out of the bears fur.  So therefore, in the summer of 2008 when three bears at Higashiyama Zoo and Botanical Gardens in Japan got a bunch of algae stuck in their fur, they were green for the entire summer!  True story!

16.  The polar bear is a fantastic swimmer, aided by its streamlined body and skull as well as its partially webbed feet, and have been spotted swimming strongly in open waters as much as 200 miles from the shore!

17.  The polar bear will consume a wide variety of foods, including everything from seals to walrus, beluga whales to bowhead whale carcasses, birds, and even kelp!

18.  The polar bear is labeled as "Vulnerable" by the IUCN, a position which may deteriorate in years to come with the further melting of the ice caps.

19.  Hybrids of the polar bear and the grizzly bear, sometimes called grolars, have been known to occur both in the wild and in captivity, a further testament to the close genetic relationship between the two bears.

20.  Baby polar bears are possibly some of the cutest animals on the planet, as can be evidenced by the picture below of baby Anori from Germany's Wuppertal Zoo.

21.  Humans are the only animal that hunt polar bears.

22.  So well protected against the cold is the polar bear that they can quickly overheat, even when the temperature is below zero!  In order to combat this, the polar bear will try to avoid running and will rest for many many hours at a time.  Maybe my cat's a polar bear.

23.  Polar bears, like myself when Windows Movie Maker refuses to work, have actually been observed by scientists to throw tantrums when they fail to catch their prey!  The bears have been observed growling disappointedly, kicking piles of snow, and even throwing ice chunks!

Happy birthday Brooke, hope you enjoy!  And remember, if you have a birthday coming up, just email me the date at cuyvaldar123946@gmail.com with the date and your favorite animal, and I will do my best to get a post in!

The Ancestral Australian Aborigines As a Possible Cause for the Extinction of Australia's Pleistocene Marsupial Megafauna

A few weeks ago, in my Anthropology class, we had to do a cultural profile of one culture group of humans.  I chose the Australian Aborigines and, having just finished Tim Flannery's excellent book "Chasing Kangaroos," this whole concept of the Ancestral Aborigines being the possible cause of the extinction of Australia's Pleistocene megafauna was still quite fresh in my mind, so I included it in the paper.  I thought it was pretty interesting, and so I have decided to share it with ya'll, too, with a few brief modifications to make it more Blog friendly!  Hope you enjoy, and if you want a more comprehensive look at the topic, I highly recommend "Chasing Kangaroos!"

Interestingly, paleontologists today are using the Australian Aborigines to help them figure out when Australia's Pleistocene megafauna went extinct.  While today, there are no native animals larger than the red kangaroo, Pleistocene Australia was a very different place, as was the rest of the world.  The Pleistocene Epoch was the time of the Ice Age megafauna.  With the exception of Africa and south-east Asia, in most places nowadays, the Pleistocene megafauna is extinct, but back then, the megafauna were a world-wide phenomenon.  In Eurasia, there were the giant mammoths and rhinoceroses, the cave lions and hyenas, the Irish elk, and the giant polar bear.  In North America, there were the mammoths and mastodons, the short-faced bear, the giant bison, the dire wolf, the giant beavers, and the saber-toothed cats.  In South America, there were the giant ground sloths, the armored glyptodonts, and many large relatives of elephants.  

Australia also had its fair share of Pleistocene megafauna, with marsupial lions, the giant short-faced kangaroos, the hippo-sized wombat Diprotodon, and echidnas that were the size of sheep.  There are two main hypothesis when it comes to what caused the extinction of all these animals: climate change, or hunting by early human arrivals on Australia, the first Aborigines.  No one could figure out whether it really was the Aborigines that had hunted the megafauna to extinction, though, because no one could figure out the date that the megafauna had gone extinct, nor could they figure out the date that humans first arrived on Australia.  Some people believed that the megafauna survived until around 6,000 years ago, while others believed that they went extinct a great many years prior.  The same difficulties confronted those scientists attempting to determine when humans first arrived.  The sediments of Australia are notoriously hard to date, and since the animals of Australia are so unique (especially following the extinction of the dinosaurs), scientists were unable to correlate their data with other places around the world.[1] 

As more scientific discoveries were made, a new method of dating rocks was discovered, called optically stimulated luminescence (or OSL for short).  Using OSL, paleontologists were successfully able to date many different specimens of the various marsupial Pleistocene megafauna, and found that, while many of them approached the 46,000 years ago mark, none of them passed it.  Many different specimens were used from all across Australia, but they all said the same thing: 46 was the answer. 

Meanwhile, with the new OSL tool in their bag, other scientists headed off to sites of known human habitation to attempt to date them as well, and these efforts proved to be successful.  One of the main places that they dated was a place known as Devil’s Lair, a known area of ancient Aboriginal inhabitance.  What was especially important about Devil’s Lair was that there was sediment present for the last 63,000 years, meaning that instead of just a snapshot of time, the scientists had an uninterrupted sequence of time to figure out when humans started living there.  As the scientists dated the sediments with the first signs of human inhabitance, they came up with the magic number: 46,000.  Other sites came up with the same number too, including Lake Mungo, the oldest human burial known from Australia.  At Lake Mungo, the dates were a bit less precise, ranging from between 45,000 and 47,000 years ago, but the data still seems to point in the same direction.  The ancestral Aborigines arrived on the continent at around the same time that Australia’s Pleistocene megafauna went extinct.  With this new dating technique, scientists were also able to determine that there was no significant climate change for many thousands of years on either side of the 46,000 mark, effectively ruling out that hypothesis.  So it seems that, for a time, the people who believe themselves as part of the land and the natural world around them actually destroyed a significant part of it.

[1] For example, paleontologists studying dinosaurs of the Late Jurassic Morrison Formation here in Colorado are able to look at closely related dinosaurs in other parts of the world like the UK and southern Africa (keep in mind that the continents were all together in one big landmass back then.)  That way, if the paleontologists are unable to determine the dates of, say, the Tendaguru Formation in Tanzania, they can look to the studies done on the rocks of the Morrison Formation for an accurate estimation.  This is a luxury that paleontologists, archaeologists and other scientists working in Australia simply do not have. 

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Animal Spotlight: Gasparinisaura

Gasparinisaura is just one of those many dinosaurs that are not very famous at all, and not very well known.  In fact, I hadn't even heard of it until this morning, when my episode of Dr. Who made the computer momentarily freeze, so I picked up my Jurassic Park Institue: Dinosaur Field Guide by Dr. Thomas R. Holtz and Dr. Michael Brett-Surman that was sitting next to me on the computer table and turned to page 74.  Learn something new every day!

Gasparinisaura is considered to be a part of the basal, or primitive, ornithopods.  Ornithopods are different from other ornithischian dinosaurs in that they have a premaxilla bone that reaches further than their maxilla bone, and that their jaw joint is further down than in other dinosaurs.  Most of the basal ornithopods were around during the Jurassic Period, such as the Late Jurassic Othnielia rex, who inhabited what would become the rocks of the Morrison Formation of Colorado, Utah, and Wyoming.  Most of the rest of the basal ornithopods didn't survive past the Early Cretaceous Period, but Gasparinisaura has been found in rocks dating from around 80-90 MYA, right smack-dab in the Middle Cretaceous Period of Argentina.  According to the Jurassic Park Institute, "Remains of dinosaurs from this time span are so extremely rare, all the specimens in the world would fit in one small exhibit hall!"

Let's take a brief look at what we know about the evolution and the dispersal of the basal ornithopods, shall we?  According to my massive, 861 page book called The Dinosauria, every member of the clade Ornithopoda (which includes the iguanodonts and the duck-billed hadrosaurs, as well as the basal ornithopods) had a common ancestor that came from Asia.  This is interesting to note, because two other major clades of dinosaurs, the Marginocephalians (which includes the ceratopsians like Triceratops and the Pachycephalosaurs like Pachycephalosaurus and Stygimoloch) and the Thyreophorans (which includes stegosaurs like Stegosaurus and ankylosaurs like Ankylosaurus [yes, I know, that sounded incredibly redundant]) are hypothesized to have originally evolved in Asia, before spreading out to other parts of the world.  Whew, that would have been a mouth-full if I had had to say that out loud.

Anyways, paleontologists believe that this common ancestor would have inhabited Asia during the Early Jurassic Period, or perhaps even before that.  According to the book, prior to the Late Jurassic, a "major dispersal to North America took place."  Following this dispersal to North America, two "subsequent dispersals from North America" followed, one to Europe, and the other to South America.  (Keep in mind that, at this time in Earth's history, the continents were intermittently connected, allowing for the over-land dispersal of animals that would be entirely unable to do the same thing today.)  The European dispersal contained ornithopods of the lineage that would one day lead to the relatively famous dinosaur known as Hypsilophodon.  This dispersal is thought to have occurred before or during the Early Cretaceous.  Meanwhile, the South American dispersal "took place (at the latest) during the early Late Cretaceous," and was composed of members of the lineage that would one day lead to our home-dawg, Gasparinisaura.  Boy, am I the only one who just skimmed those last two paragraphs?

Gasparinisaura, like many of the basal-most members of the ornithopods, was just a little guy, only around two feet long, and probably weighing about as much as a chicken.  Remains of Gasparinisaura are found in the Río Colorado Formation.  With further digging (oh so witty) in The Dinosauria, I have been able to come up with other dinosaurs found in this formation. Here is a list of all of the dinosaurs mentioned in the book. 

Alvarezsaurus, a member of the group of dinosaurs known as the alvarezsaurids, a group of Maniraptoran dinosaurs thought to be fairly closely related to the ornithomimosaurs.  

Patagopteryx, a flightless bird that probably weighed around as much as a turkey.  

Neuquenornis, a small, pigeon-sized bird.  Apparently, paleontologists have not only discovered a partial skeleton of this animal, but also some eggs with embryos!  Pretty neat!  

Velocisaurus, a four or so foot long ceratosaur, not very well known.  A noasaurid, and, as you can see in the pictures below (all four of the pictures are of Velocisaurus), looks a lot like its close relative, Masiakasaurus, whose picture you can see if you click on the word "Masiakasaurus" where it is yellow. 

Aucasaurus, a thirteen or fourteen foot long abelisaur, thought to be a close relative of Carnotaurus.  Known from a skeleton that is quite complete, but not yet fully described.  

Neuquenosaurus and Titanosaurus, a pair of sauropod dinosaurs. 

Top Ten Favorite Dinosaurs by Zack Neher (Part 4)

Part four of my Top Ten Favorite Dinosaurs list.  Enjoy!

2. Struthiosaurus

Just like Masiakasaurus, Struthiosaurus also lived during the Late Cretaceous Period.  Also like Masiakasaurus, Struthiosaurus was small.  But Struthiosaurus was small in a very different way than Masiakasaurus.  Remember when we talked about island/insular dwarfism in the context of the Channel Island fox?  Well, island dwarfism is back, in all of its glory!  A brief refresher, island dwarfism is what sometimes happens to animals that have become trapped on islands.  Over many generations, they shrink in order to match the limited food supply.  If there is a limited supply of food, then the smallest of your species, not the largest, are much more likely to survive.  Another factor that often helps island dwarfs is that predation is typically not as intense on islands as compared to mainlands, but that is not always the case.  Anyways, around 75 MYA, global sea levels were much higher.  In North America, we had the Western Interior Seaway dividing the continent, while Europe was simply reduced to a number of individual islands, one of which is now known as Hațeg Island.  And, if you are any good at guessing how stories end, you can probably see where this is going.  Yes, Struthiosaurus was an island-dwarf!  He is also really cool because he is an ankylosaur, a group of dinosaurs that are incredibly interesting!  Another thing that I absolutely have to mention here pertains to the picture of Struthiosaurus that we have below.  This picture was drawn by an incredibly talented young artist named Sam Lippincott.  Only in eighth grade, he is well on his way to achieving artistic greatness!  Below are some more pictures of his, all of them absolutely fantastic!  He made these pictures for my last lecture and I have the Struthiosaurus and Magyarosaurus pictures framed on my wall, I love them so much!  Let's all give Sam a round of applause! 

Struthiosaurus, an ankylosaur, by Sam Lippincott

Telmatosaurus, a hadrosaur, by Sam Lippincott

Magyarosaurus, a sauropod, by Sam Lippincott

Hatzegopteryx, a pterosaur, by Sam Lippincott

Europasaurus, another dwarf sauropod dinosaur, but from an island other than Hațeg Island

TO BE CONCLUDED IN PART 5

Georg Wilhelm Steller

As of tomorrow, a man named Georg Wilhelm Steller passed away 266 years ago.  Steller, as we talked about a few weeks ago, discovered a few very interesting animals, and was the first non-native (at least that we know of) to set foot in Alaska, in 1741.  He was therefore the first European naturalist to discover, as well as describe, a number of animals in the area.

Many of the members of the crew of the boat that he was on were coming down with scurvy, and Steller attempted to cull the growing epidemic by feeding berries and leaves to the crew.  No one really heeded his advice, which was why, on the returning journey, they all became shipwrecked, as only 12 crew members were actually able to physically move.  During the voyage almost half of the crew had died due to scurvy, and many, including the captain, died following the shipwreck.  With very little food and water, the survivors created a camp, suffering frequent raids by the arctic fox, which only served to increase their peril.

Nevertheless, Steller, apparently the stoic type, continued to learn more about the natural world of Alaska.  He recorded a good deal of information in regards to the Steller's sea cow (a relative of the manatee), which, as a species, only survived about 25 years after Steller first discovered them.  Other animals that he discovered, described, or both include the Steller's eider (a type of duck), the spectacled cormorant (like the sea cow, now extinct), the sea otter, Steller's sea lion, and the northern fur seal.

In 1742, the survivors were eventually able to build a new boat from the salvage, and returned to Avacha Bay in Russia.  Steller continued to explore the Kamchatka Peninsula in Russia for the next two years, but died in 1746 in transit to St. Petersburg.

One final thing that I find interesting about Steller has to do with the post-mortem publication of his journals.  They were published by the German zoologist and biologist Peter Simon Pallas who, you guessed it, is the namesake of the Pallas cat, or Pallas's cat, who was the first person to describe the animal in 1776.  These journals proved to be useful to other explorers of the same region such as Captain Cook.

An excellent picture that I took of the Pallas cat (if I do say so myself) from the Cheyenne Mountain Zoo

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Why Did The Great Auk Become Extinct?

Question:  Why did the Great Auk become extinct?

Answer:  Primarily because of human exploitation for its feathers and meat.

For those of you who are unfamiliar with the great auk (Pinguinus impennis), this penguin-like creature (a product of convergent evolution) inhabited the North Atlantic Ocean in the Northern Hemisphere, and became extinct mid-way through the 1800s.  The great auk was intensely hunted by humans in European waters for their down feathers, which were actually used in both pillows and hats, as well as for food.  (Not the down feathers, mind you, but the meat of the bird and its eggs).  It wasn't until 1553, around the time that the nesting sites of the great auk had been all but eliminated on the European side of the Atlantic, that the great auk first became officially protected.  In 1775, people who had broken a law forbidding people from killing the great auk for its feathers were actually beaten publicly! 

Following the local extinction (an extinction of a population of animals in one place, but not an extinction of the animal species as a whole) of the great auk in Greenland in 1815, the sole remaining breeding site of the great auk was a small, volcanic island.  Off of the coast of Iceland, the island was dubbed "Geirfuglasker," after the Norse term for "great auk," "Geirfugl."  In 1830, however, the great auk population on Geirfuglasker came under siege by two elemental forces that it had no hopes of combating: an underwater volcanic eruption and a subsequent earthquake, which combined to destroy the island, terminating most of the rest of the great auks.

Those few auks that survived relocated to the nearby island of Eldey.  Eldey was quite easily accessible to man, however, and the last human-led hunt of the great auk occurred on June 3rd, 1844.  On this last great hunt, a pair of these birds were killed, beaten to death, and their egg was destroyed. 

The last sighting accepted by the IUCN to be legitimate was in 1852 off of the coast of Newfoundland in Canada.
The closest living relative of the great auk is believed to be the razorbill (Alca torda), seen below.

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Animal Spotlight: Aurochs

This post is the birthday post of Govind Kamath!  Happy birthday, Mr. Kamath!  If you have a birthday coming up, just email me the date at cuyvaldar123946@gmail.com with the date and your favorite animal, and I will do my best to get a post in!

Over the years, you may have pondered, "Where does my burger come from?"  You probably just meant where was the cow that it came from.  But now here is something else for you to ponder.  Where the heck did the cow even come from?  Do you ever just see wild, black and white cows?  Well, I am here to tell you all about the evolution of the cow.

A Watusi/Longhorn pileup!  They actually crashed into each other, though!  Trust me, I was there, you can even see my sweatshirted elbow in the mirror thingy!

During the Pliocene Epoch, from around 5 to 2 MYA, the planet went through a cooler spell.  The frequent ice ages were a part of this cool spell, as was the most frequent Ice Age.  This colder weather caused many of the worlds forests to decrease in area, which in turn caused the world's grasslands to expand.  This led to the evolution of many large grazing animals, and helped contribute to the Pleistocene Megafauna, often called the Ice Age Megafauna.  One of these large animals that evolved was the Aurochs.

The Aurochs (Bos primigenius), first became domesticated during the Neolithic Age, or the "New Stone Age," probably around 12,000 years ago.  As a matter of fact, two waves of domestication occurred.  As you can see in the map below, there were three different subspecies of the Aurochs; one in northern Africa; one for Europe and Asia; and a third for the mysterious subcontinent of India, as Rajesh Ramayan Koothrappali says in "The Big Bang Theory."  The two different domestications happened with the Eurasian subspecies, Bos primigenius primigenius, and the Indian subspecies, B. p. namadicus. 

These two different domestications of these two different species of cattle led to two different domesticated cattle!  In India, we have the Zebu cattle, which has been given its own scientific subspecies name, Bos primigenius indicus.  The other, Eurasian kind has become the cow that we know today from driving down the street and the Chik-fil-A ads.  While other types of bovines (members of the family Bovidae, a group of ungulates that includes water and African buffalo, yaks, bison, and, of course, cattle) have been domesticated throughout the years, specifically the water buffalo, the south-east Asian Banteng, and the Indian Gaur, it is cattle that have remained the most widely used, for a wide variety of purposes, too.

The Aurochs is now extinct.  The very last recorded female passed away in 1627 in the Jaktorów Forest in Poland.

There are two particularly interesting breeds of domesticated cattle that I would like to now draw to your attention.  Back in December of 2011 on our trip down to Texas to visit my gramma, on the same trip where we visited the Heritage Museum of the Texas Hill Country and saw the Acrocanthosaurus footprints, we also visited the San Antonio Zoo, as well as the Natural Bridge Wildlife Ranch near San Antonio.  This is an awesome place for EVERYONE to visit!  You get to roll down your windows as you drive through a park chock-full of deer, antelope, zebra, and bovines, and you get to drop food for them!  There are also three members of the order Struthioniformes (aka the ratites), like the South American rhea, the Australian emu, and, most terrifying of all, the African ostrich.  The ostriches was absolutely terrifying, and I will talk about them in a later blog post!  But also at the ranch they had two pretty crazy types of cattle!

The first was the Ankole-Watusi, often called simply the Ankole cattle or the Watusi.  Originally bred in Africa, the Watusi was named after the Watusi tribesmen (now the Tutsi of Rwanda and Burundi).  This type of cattle has enormous horns that can span over six feet!  Both genders have these horns, and they can grow from between 1,500 - 1,800 pounds!  Below are some pictures that my family and I took of the cattle walking by our car!

A Watusi.  CHECK OUT THOSE HORNS!

Another Watusi.  CHECK OUT THOSE HORNS!

A baby Watusi!  HOW CUTE!

The second crazy type of cattle is the Texas Longhorn.  The Texas longhorn is, of course, native to the Lone Star State, and reports of the longhorn enduring thirst while still being able to fight off packs of wolves, as well as bears (presumably grizzly bears), from the pioneer times is not uncommon.  The longhorn, like the Watusi, also has six foot horns possessed by both sexes.  According to the Natural Bridge Wildlife Ranch Adventure Guide Book, the longhorn "helped form the basis of the ranching industry of the American West during the 19th century."

A Texas longhorn.  CHECK OUT THOSE HORNS.

Another Texas longhorn.  CHECK OUT THOSE HORNS.

The aftermath of the Watusi/Longhorn pileup seen above!

Whoever said cows weren't interesting!

Top Ten: Extinct Sea Monsters (Part 5 of 5)

Our final edition of "Top Ten:  Extinct Sea Monsters!

9.  Tanystropheus - Living during the Middle Triassic Period, Tanystropheus is somewhat of a misfit amongst this group, as he is not really a sea-monster, and was, at most, a semi-aquatic animal (think otters).  Purportedly piscivorous, Tanystropheus fossils are usually found in semi-aquatic sites.  Its neck has been likened to that of the Plesiosaurs, like Elasmosaurus.  They would all use their necks to surprise a group of fish, long before the fish would be able to see the body of the reptile. Remains have been discovered throughout France, Germany, and Italy, amongst other places. 

10.  Tylosaurus - Interestingly enough, the closest living relative of the extinct mosasaurs, of which Tylosaurus is a member, are the monitor lizards, like the Komodo dragon.  Both the monitor lizards and the mosasaurs have a third eye on the top of their heads, although it just looks like a little white dot on the top of the head of the monitor lizard.  It doesn't work in the same fashion as their other eyes, however.  Look towards a light (not the sun, because apparently that can actually be harmful) and close your eyes.  You can still still some light, right?  Now, move your hand back and forth in front of your face, between your eyes and the light.  Can you see how the light changes?  You can't see anything more distinct than the fact that something moved between you and that light.  That is what the third eye of monitor lizards and mosasaurs would have been like.  Tylosaurus also inhabited the Western Interior Seaway during the Late Cretaceous.  Remains, amongst other places, have been discovered in Alabama and Kansas, amongst other places.

So that concludes our "Top Ten:  Extinct Sea Monsters" edition!  Unfortunate that we had to break it up into five parts, to be sure, but hey, that's life!

This post is part of the "Top Ten: Extinct Sea Monsters" series.  For the rest of the posts in this series, click HERE.  

Top Ten: Extinct Sea Monsters (Part 2 of 5)

So why did I split this post up into five parts?  Well, originally it was all just one big post, but it was simply too big, like so often happens.  So I will just post the rest of the parts throughout the next few days.  So here is part number two!

3.  Liopleurodon - A member of the short-necked Plesiosaurs, or Pliosaurs, Liopleurodon was the top predator of the Middle and Late Jurassic shallow seas that covered Europe at that time.  Fossils of Liopleurodon have been found in England, France, Germany, and Russia. 

4.  Shonisaurus - Shonisaurus is a fascinating example of convergent evolution.  When similar environmental and ecological pressures went to work on the ancestors of Shonisaurus, and the rest of the ichthyosaurs, as well as the ancestors of the dolphins and porpoises, they produced very similar results in very different kind of animals.  Shonisaurus and the rest of the ichthyosaurs are marine reptiles, while the dolphins and porpoises are both mammals.  Shonisaurus lived during the Late Triassic Period, right around when the dinosaurs were first making their debut.  At least thirty-seven skeletons of this giant have been discovered in Nevada. In fact, Nevada is still a fantastic place to see some of these creatures, especially Berlin Ichthyosaur State Park in Berlin, a few hours outside of Reno (pictured below)!  This is where the first bones belonging to Shonisaurus were actually discovered!  Definitely high on the list of places that I want to go!

Coming Up:
5.  Elasmosaurus
6.  Dunkleosteus
7.  Archelon
8.  Leedsichthys
9.  Tanystropheus
10. Tylosaurus

This post is part of the "Top Ten: Extinct Sea Monsters" series.  For the rest of the posts in this series, click HERE.  

Animal Spotlight: The Okapi

For years, Europeans who traveled to Africa heard tell of a mysterious rainforest animal that they came to refer to as the "African Unicorn."  Apparently, Sir Harry Johnston, the British governor of Uganda, rescued a small group of the native inhabitants, often called the pygmies, from a foreign show person, who, sadly, was most likely going to use his abductees for a circus or freak show.  Upon their rescue at Johnston's hand, they repaid him by giving him information about the animal.

Now we know the animal as the okapi, or Okapia johnstoni, named in honor of Sir Harry Johnston.  Despite the zebra-like stripes on its tail, the okapi is not all that closely related to the zebra, and is actually a very close relative of the giraffe.  Although they may not look super similar, they both have ossicones on their head, similar to the base of DEER antlers.  Ossicones are not only possessed by both the okapi and the giraffe, but also by extinct relatives of both, such as Sivatherium and Climacoceras.

The okapi is listed as "NEAR THREATENED" by the IUCN.  Honestly, I was surprised that it wasn't at least listed as "VULNERABLE," and "ENDANGERED" or worse would not have surprised me at all, given its reclusive nature, its beautiful pelt, and the very fact that humans didn't have much proof of its existence until 1901, when Sir Henry Johnston sent back a carcass to England.  I suppose, however, that its reclusive nature likely helps it to evade human influences a great deal, coupled with the fact that the rainforest that it inhabits is not too heavily tread.  And I guess the fact that it was really made known to science only a little more than one hundred years ago couldn't have hurt either, as it would be soon entering into an age when nature was offered greater protection than in the 1800s. 

Like the COELACANTH and THE MOUNTAIN PYGMY POSSUM, the okapi is often referred to as a "LIVING FOSSIL."  Its habitat consists of montane rainforests in the Central African Republic (CAR) and the DEMOCRATIC REPUBLIC OF THE CONGO (DRC).