Science, Tech, Math › Animals & Nature 50 Million Years of Horse Evolution The Evolution of Horses From Eohippus to the American Zebra Share Flipboard Email Print Agency Animal Picture/Getty Images Animals & Nature Dinosaurs Prehistoric Mammals Basics Paleontologists Carnivores Dinosaurs & Birds Herbivores Marine Reptiles Amphibians Birds Habitat Profiles Mammals Reptiles Wildlife Conservation Insects Marine Life Forestry Evolution View More By Bob Strauss Science Writer B.S., Cornell University Bob Strauss is a science writer and the author of several books, including "The Big Book of What, How and Why" and "A Field Guide to the Dinosaurs of North America." our editorial process Bob Strauss Updated October 14, 2019 Apart from a couple of bothersome side branches, horse evolution presents a neat, orderly picture of natural selection in action. The basic storyline goes like this: as the woodlands of North America gave way to grassy plains, the tiny proto-horses of the Eocene Epoch (about 50 million years ago) gradually evolved single, large toes on their feet, more sophisticated teeth, larger sizes, and the ability to run at a clip, culminating in the modern horse genus Equus. There are a number of prehistoric horses, including 10 essential prehistoric horses to know. As part of the evolution of horses, you should also know the recently extinct horse breeds. This story has the virtue of being essentially true, with a couple of important "ands" and "buts." But before we embark on this journey, it's important to dial back a bit and place horses in their proper position on the evolutionary tree of life. Technically, horses are "perissodactyls," that is, ungulates (hoofed mammals) with odd numbers of toes. The other main branch of hoofed mammals, the even-toed "artiodactyls," are represented today by pigs, deer, sheep, goats, and cattle, whereas the only other significant perissodactyls beside horses are tapirs and rhinoceroses. What this means is that perissodactyls and artiodactyls (which counted among the mammalian megafauna of prehistoric times) both evolved from a common ancestor, which lived only a few million years after the demise of the dinosaurs at the end of the Cretaceous period, 65 million years ago. In fact, the earliest perissodactyls (like Eohippus, the earliest identified common ancestor of all horses) looked more like small deer than majestic equines. Hyracotherium and Mesohippus, the Earliest Horses Until an even earlier candidate is found, paleontologists agree that the ultimate ancestor of all modern horses was Eohippus, the "dawn horse," a tiny (no more than 50 pounds), deer-like herbivore with four toes on its front feet and three toes on its back feet. The giveaway to Eohippus' status was its posture: this perissodactyl put most of its weight on a single toe of each foot, anticipating later equine developments. Eohippus was closely related to another early ungulate, Palaeotherium, which occupied a distant side branch of the horse evolutionary tree. Five to ten million years after Eohippus/Hyracotherium came Orohippus ("mountain horse"), Mesohippus ("middle horse"), and Miohippus ("Miocene horse," even though it went extinct long before the Miocene Epoch). These perissodactyls were about the size of large dogs and sported slightly longer limbs with enhanced middle toes on each foot. They probably spent most of their time in dense woodlands, but may have ventured out onto the grassy plains for short jaunts. Epihippus, Parahippus, and Merychippus—Moving Toward True Horses During the Miocene epoch, North America saw the evolution of "intermediate" horses, bigger than Eohippus and its ilk but smaller than the equines that followed. One of the most important of these was Epihippus ("marginal horse"), which was slightly heavier (possibly weighing a few hundred pounds) and equipped with more robust grinding teeth than its ancestors. As you might have guessed, Epihippus also continued the trend toward enlarged middle toes, and it seems to have been the first prehistoric horse to spend more time feeding in meadows than in forests. Following Epihippus were two more "hippi," Parahippus and Merychippus. Parahippus ("almost horse") can be considered a next-model Miohippus, slightly bigger than its ancestor and (like Epihippus) sporting long legs, robust teeth, and enlarged middle toes. Merychippus ("ruminant horse") was the largest of all these intermediate equines, about the size of a modern horse (1,000 pounds) and blessed with an especially fast gait. At this point, it's worth asking the question: what drove the evolution of horses in the fleet, single-toed, long-legged direction? During the Miocene epoch, waves of tasty grass covered the North American plains, a rich source of food for any animal well-adapted enough to graze at leisure and run quickly from predators if necessary. Basically, prehistoric horses evolved to fill this evolutionary niche. Hipparion and Hippidion, the Next Steps Toward Equus Following the success of "intermediate" horses like Parahippus and Merychippus, the stage was set for the emergence of bigger, more robust, more "horsey" horses. Chief among these were the similarly named Hipparion ("like a horse") and Hippidion ("like a pony"). Hipparion was the most successful horse of its day, radiating out from its North American habitat (by way of the Siberian land bridge) to Africa and Eurasia. Hipparion was about the size of a modern horse; only a trained eye would have noticed the two vestigial toes surrounding its single hooves. Lesser known than Hipparion, but perhaps more interesting, was Hippidion, one of the few prehistoric horses to have colonized South America (where it persisted until historical times). The donkey-sized Hippidion was distinguished by its prominent nasal bones, a clue that it had a highly developed sense of smell. Hippidion may well turn out to have been a species of Equus, making it more closely related to modern horses than Hipparion was. Speaking of Equus, this genus—which includes modern horses, zebras, and donkeys—evolved in North America during the Pliocene Epoch, about four million years ago, and then, like Hipparion, migrated across the land bridge to Eurasia. The last Ice Age saw the extinction of both North and South American horses, which disappeared from both continents by about 10,000 BCE. Ironically, though, Equus continued to flourish on the plains of Eurasia and was reintroduced to the Americas by the European colonizing expeditions of the 15th and 16th centuries CE.