It’s 55 million years ago in North America,
and the continent is draped in a canopy of swampy cypress trees and humid broadleaf forests. Bizarre predators, like the hoofed carnivore
Mesonyx, lurk in the undergrowth, ready to nab an animal called Eohippus. Eohippus may be small — just half a meter
tall — but it’s also fast, and well-adapted to its environment. It runs on padded toes, each capped with a
cute lil’ hoof, perfect for making a quick getaway on the soft forest floor. But the future has big changes in store for
little Eohippus. The climate is about to get cooler and drier,
and soon the landscape of North America will become unrecognizable. Trees will give way to vast carpets of grass.
Mesonyx and other forest hunters will go extinct. And powerful, new, pack-hunting predators
will evolve. To adapt to life on these newly forming plains,
the descendents of Eohippus will undergo some dramatic changes. They’ll grow to be over
30 times its size. They’ll change their diet entirely. And they’ll all start running
… on one giant toe. In time, these animals will become so successful
that they’ll spread all over the world, to Europe, Asia, South America, and Africa. But in their native range of North America,
they’ll vanish for 10,000 years…until another strange mammal brings them back. Back at the start of the Eocene Epoch, the
world was in the clutches of the Paleocene-Eocene Thermal Maximum, and warm, damp forests covered
the land from pole to pole. This was the environment that gave rise to
the very first perissodactyls, hoofed mammals with an odd number of toes. Today they include
rhinos, tapirs and horses. One of the first perissodactyls we know of
was Hyracotherium, a small ungulate whose fossils were first discovered in England and
named, for some reason, for its supposed resemblance to the rock hyrax. I mean, what? Anyway, there were lots of different Hyracotherium-like
animals, known as hyracotheres, that were widespread all over the Northern Hemisphere. And one of them, found only in North America,
was Eohippus or “dawn horse.” It was named by American paleontologist O.C. Marsh, whose
facial hair I really admire, and who found the first complete fossil of the animal in
New Mexico in 1876. It was about the size of a dog, around 35
centimeters at the shoulder. And, like other hyracotheres, it had short, low-crowned teeth
that were good for browsing on leaves in the dense forest. Eohippus also had feet unlike any animal alive
today, with toes that were each capped with separate hooves: four on its front feet and
three on its hind feet. Is it me or does that just sound really cute? Now, this unassuming little forest creature
might not seem like much, but it gave rise to the most successful family of Perissodactyls
of all time, the Equidae: the family that includes the modern horse. At the height of its diversity, the Equid
family would include more than a dozen genera that roamed the northern hemisphere. Today, however, only one genus remains: Equus,
which includes modern horses, donkeys, and zebras. Thanks to an abundance of fossils found throughout
North America, we can reconstruct much of the horse family tree, from the tiny, browsing,
multi-toed Eohippus at its roots, to one of the crowning branches that includes the large,
grazing, single-toed Equus. The story of horse evolution is one of constant
adaptation and radiation in response to changes in North America’s climate. And all of these adaptations were in some
way driven by the appearance of grasslands, which weren’t widespread in North America
when Eohippus was around. But about 49 million years ago, in the mid-Eocene,
the climate began to get cooler and drier. By the late Eocene, the Thermal Maximum was
history, and North America’s dense forests began to give way to a mosaic of dry grasslands. It was in this patchwork environment that
a descendant of Eohippus first appeared. Mesohippus begins to show up about 38 million
years ago, first described, again by O. C. Marsh, in 1875. And in very short order — at least geologically
speaking — one lineage of Mesohippus quickly diversified into yet another genus, Miohippus,
within about 3 or 4 million years. So, Mesohippus and Miohippus roamed the continent
together at the start of the Oligocene. But they were both different from Eohippus in
some important ways — showing that they were starting to adapt to North America’s changing
landscape. For one thing, they both had more molars than
Eohippus did. And their teeth had higher crests, for grinding more fibrous, abrasive food,
like grass. Both were also slightly larger than Eohippus,
and with longer legs. Mesohippus weighed around 23 kilograms while Miohippus averaged about
twice that. And, both had lost their fourth front toe,
while their middle toe had grown larger and was bearing more weight. By the mid-Oligocene, the smaller Mesohippus
had disappeared. But the larger Miohippus survived and radiated into many different
species that flourished in the following epoch, the Miocene. By this time, the mosaic of swamps, forests,
and grasslands wasn’t really a mosaic any more. The forests and marshes had given way to wide
stretches of dry, open prairie. And one of the most important likely descendants
of Miohippus was an equid that was even better adapted to life on the plains: Parahippus. Paleontologists have been able to learn a
lot about one particular species of this horse, Parahippus leonensis, thanks to a quarry in
Florida where nearly 90 specimens have been found. It first appears in the fossil record about
23 million years ago, and its adaptations to prairie life went further than just having
pointy molars. Namely, it was the first early horse to be
a true hypsodont. That means its teeth were not only really long, but they also kept erupting
out of the gums as they wore down, to reveal new chewing surface. This proved to be a huge advantage for living
on the plains. Because if you’re going to make a living by eating grass, which is really
abrasive, then you need large teeth that can withstand a lot of wear. This adaptation helped Parahippus, and its
descendants, take full advantage of North America’s fastest-growing niche. And by about 17 million years ago, the fossil
record shows that a new, distinct genus had evolved from the Parahippus lineage, called
Merychippus. And Merychippus is another important benchmark
in the evolution of the horse, because it’s the first true equine. Equines are the subfamily of equids that includes
modern horses. And, like Merychippus, they all have important traits that earlier horses
lacked. For one thing, Merychippus was a lot bigger.
It stood about a meter tall, the height of a small pony, and had the long head that we’d
now call horse-like. And even moreso than its ancestors, its legs
were especially well adapted to running on hard ground. It stood on tip-toe, with all of its weight
on three toes supported by springy ligaments. Its leg bones were also longer, and the bones
in the foreleg were fused together, making them stronger and able to withstand more force. With the help of these adaptations, equines
like Merychippus were able to grow larger than forest-dwelling horses, reaching up to
450 kilograms. Now, being so big probably helped them deal
with large Miocene predators, like saber-toothed barbourofelids. But their size also put a
lot more stress on their legs and toes. That is, until yet another new adaptation
appeared: Several descendants of Merychippus became monodactyls, meaning they had only
one toe. Like Dinohippus, which appeared about 10 million
years ago. Some horses in this genus still had three toes. But others only had one! And, counterintuitively enough, having only
one, large toe reduced the stress caused by the horse’s weight. To make up for the stability
that was lost, over time, horses began to rely more on their ligaments. So, as they became increasingly adapted to
their grassy new environment, equines thrived throughout the Miocene. Then, as the Pliocene Epoch opened about 4
million years ago, one of the single-toed groups of equines finally gave rise to Equus,
the genus of the modern horse. We don’t know which one it was exactly,
but Dinohippus seems to be the monodactyl that’s most closely related to the horses
we know today. Now, the oldest-known species of Equus is
Equus simplicidens.  It appeared about 4 million years ago, and has been found from
Florida to the Hagerman Fossil Beds in Idaho. It was about the size of a modern horse, with
similar teeth, a long face and neck, fully fused leg bones, and a well-developed “stay
mechanism,” which horses use to lock their legs in place — an adaption for spending
most of their time on their feet. But unlike their predecessors, species of
Equus didn’t stay confined to North America. 3 million years ago, they crossed into South
America as part of the Great American Biotic Interchange. And about a half-million years after that,
they crossed the Bering Strait land bridge to spread into Asia, Europe, and Africa. During this time, all of the three-toed horses
and most other monodactyls died out. Then, about 10,000 years ago, at the end of the
Pleistocene, most of North America’s large mammals — including Equus — went extinct. Now, there’s a big healthy scientific debate
about what caused this extinction event, but it’s safe to say that it was probably
a combination of factors. As you can imagine, the end of the last ice
age brought a lot of major changes to the continent, like changes in habitat and vegetation
patterns. Plus, populations of bison began to grow and spread, competing with horses for
food. The fossil record shows that horses’ ranges were shrinking, and that some horses
themselves may have gotten smaller to help deal with the lack of resources. And then, humans showed up. Scientists have found
evidence that these early humans hunted horses, probably putting more pressure on animals
that were already struggling. But, the horses that had migrated out of North
America survived the extinction on other continents. Over in Asia, horses traversed the grasslands
of the Eurasian Steppes. And about 6,000 years ago, humans began to realize that horses could
be pretty useful. People like members of the Botai culture in
ancient Kazakhstan began to domesticate the survivors of the Equus lineage. Today, all
modern horses all over the world are descendents of domesticated horses from this region. Over the next 6,000 years, horses shaped the
course of human history. They proved to be a game-changer for everything from hunting
and agriculture to war and transportation. Humans, in turn, shaped horses, selectively
breeding them to grow even larger, faster, and in my opinion, even more beautiful. Then, in the late 1400s, Spanish settlers
put their horses on ships and brought them across the Atlantic. Much of America was still covered in those
open grasslands that horses were so well suited for, and it didn’t take long for them to
take over their former range a second time. The first known feral horses escaped Mexico
City around 1550. More escaped from ranches in New Mexico in the 1600s. Native Americans
began to capture and ride the horses, spreading them further across the continent. Thanks to humans, horses have become one of
the most numerous and widespread mammals of all time. The continent has changed a lot since the
days when Eohippus first picked its way through vast, humid forests. But today, millions of
domestic horses live all over the world, including 67,000 wild horses that are back to roaming
their native plains — members of that second, successful wave of horses, that took over
North America. Thanks for joining me for this story that
I thought was just really fascinating. Now, I have some homework for you! PBS Digital
Studios is conducting its annual audience survey. It’s one of the most important projects
we do every year, because it helps us understand who you are and what you like and don’t
like. Thirty five thousand responses last year helped
PBSDS make decisions about new things to try and even what shows to make. So if you have a coupla minutes, please click
the link in the description! Plus, twenty five random participants will receive a PBSDS
t-shirt! And everyone loves free t-shirts Now, as always, let me know what you want
to learn about! Leave me a comment, and if you haven’t already, go to
and subscribe. And we want to thank our two eontologists,
David Reed Rasmussen and … Steve. Thank you so much for your support! If you’d like
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Author Since: Mar 11, 2019

  1. That is a wonderful video of that, it's amazing how long animals been and have lived on this planet. Am just curious can you do a video just like this one but about cows in the America thanks.

  2. I agree, early horse ancestors were cute and as they evolved they just got cooler and more beautiful.

  3. Catastrophes happen! How could camels and horses thrive in Asia, where humans hunted them, but not in North America, where humans hunted them as well? Duh.

  4. My elders have told stories about how we once used to have horses here before the colonization of our people but were wiped out due to hunting from another tribe that came in from the north. Kinda interesting to see this because the horses we saw, rode, domesticated and talked about were kinda like the ones we have here today but bulky and hard to ride.

  5. Could you please make such a documentary upon the evolution of elephants?
    Eager to know about the history of the trunk


    If you want us to make a survey, fine. Ask the questions, we answer them, then we go back to the fog.


    Bait and switch. Not wanted.

  7. Humans probably had no effect on horse populations. There weren’t enough humans around that time. Humans probably had no effect on animal populations before the end of the Pleistocene contrary to popular belief. They most likely went extinct from North America due to climate change.

  8. I don't believe that horse has been over here since the 1400s or let's say the 1300 it just don't make no sense I feel like there's been other groups that has traveled to America who've used horses and their civilization which would be Africans the Vikings Central Asian cultures I just feel like the horses always been in America and there's videos of proven if you guys go against what I'm saying

  9. I find it weird that the horse came over to North America in the 1300s and Native Americans instantly knew how to use them I truly believe that the horse has always been over here do to other groups visiting North America the Moors the Vikings Mansa Musa other African kings Central Asian Chinese people just don't make no sense

  10. Just a reminder Native Americans never domesticated the fauna around them. Europeans did it for them.

  11. Dude you are awesome! Love your concise delivery and clearly well-researched info. Thanks for the vid!

  12. WRONG: Only one modern horse species are descendants of the first known domesticated horse and it is the only truly wild horse today. Seen it on PBS two weeks ago.

  13. Based on my shoddy understanding o Greek and Latin, doesn’t Dinohippus basically mean that’s, “Bad Horse”?

  14. Narrator:but in there native range of North America they'll Vanish for 10 thousand years,Until another strange Mammal Brings them Back

    Me:HUMANITY!…we suck!

  15. The whole talk about fossils makes me really wonder how human funeral habits and traditions are going to affect what will be found of humanity.

  16. History repeats itself again for atleast the third time as European Warmbloods  replace the inferior easily lame American quarterhorse.

  17. That is very interesting! I have always been confused how coule Mustangs where a native species in the US, if the Spanish Invasion of Mexico was the event that brought horses to the Americas. Great video!

  18. The next time someone complains about the wild Mustangs being an invasive species, just look at them and say "technically they were here first"

  19. Ok…am I the only one who had to take the playback speed down to .75? Other than that, a great presentation & graphics.

  20. Are Zebra's closely related to Horses? If so how did they evolve in Africa while the genus of the horse did evolve in America? If not then who are they related to?
    Thanks in advance 🙂

  21. Some people say slaves built America because of Cotton but it was the Horses that built American. Without horse the country would be primitive

  22. "Native Range" is a misnomer. While horses originated in the Americas, the ecosystem is not what it used to be and the horses returning are not the ones that crossed the land bridge. Wild horses are terrible for a modern North American grassland ecosystem, especially in the desert areas current day wild herds roam. It's like if instead of repopulating Yellowstone with wolves, you put in rottweilers. They're just not supposed to be wild here anymore.

  23. You mean they were about 15-15.3 hands. Horses didnt get any taller than that until humans bred them specially for competition, racing, pulling etc. you should’ve clarified that.

  24. Where are all these wild horses in North America everyone in the comments are talking about bc I’ve lived here my or life and been around the country a decent bit and I’ve never seen any wild horses

  25. Point of History: when the Spanish first came to the Southwest, Native Americans stole horses solely for food. They were a moveable feast. They could steal horses, ride them to camp and eat them.

  26. I enjoy these videos and the knowledge I acquire, but PLEASE ask the speaker talk a little slower. It would make the information put forth a heck of a lot easier to understand.

  27. No it wasn't humans or climate change per say. The sudden melting to the
    North American Ice sheet 12,800 yr.ago (-+) . Possible comet . The Carolina Bays are one source
    of evidence plus the landscape in the plains where you can see severe flooding
    damage . All this caused an extinction event and the source
    of The Great Flood that raised the oceans 300 feet. Look up Randal Carlson , geologist .

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