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Human evolution overview

From the extinction of the dinosaurs to humanity. Created by Sal Khan.

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  • male robot donald style avatar for user Ryan Merritt
    why do they call it "lucy"?
    (29 votes)
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  • female robot ada style avatar for user Marley B
    at Sal says that 65 million years ago we think that a huge meteorite struck the earth wiping out the dinosaurs. How do we have proof of this? How did we even come up with this idea?
    (27 votes)
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  • aqualine sapling style avatar for user SmithEvaMarlena ♥
    How do they know that Lucy was a girl not a boy?
    (6 votes)
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  • marcimus pink style avatar for user Katie Reese
    If an asteroid wiped out all the dinosaurs 65m years ago, there's one thing I don't get.
    According to the newest paleontological findings, our birds nowadays are direct descendants of the dinosaurs. So if a mass extinction event took place, and evolution obviously takes time, how can that be possible?
    If all the dinosaurs died, how could they evolve into chickens and other birds we have nowadays?
    (14 votes)
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  • starky ultimate style avatar for user Logan Brazell
    At Sal said that an asteroid hit the earth and wiped out the dinosaurs I want to know how did one space rock hitting one side of the earth destroys a whole population of thick-skinned creatures.
    (1 vote)
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    • male robot donald style avatar for user Tybalt
      Do you know what a nuclear winter is? It is a scenario where the detonation of a nuclear bomb leads to soot blocking the sun, leading to famine and rapid cooling. The asteroid likely caused something similar, except the asteroid had several million times the power of a single nuclear bomb.

      The impact the asteroid had on the dinosaurs was not just limited to the physical impact itself. When the asteroid hit, it sent a lot of debris into the atmosphere, blocking the sun for a long period of time. No sun means no photosynthesis. No photosynthesis means no plants, meaning the collapse of the food chain. Small mammals likely took shelter or hibernated, meaning that they consumed less energy overall. The big dinosaurs, on the other hand, could not find shelter, and could not get enough energy to sustain themselves. Thus, they were wiped out.

      Yes, they might have had thick skin, but the stress and the starvation was enough to wipe them off the Earth.

      Did this make sense?
      (8 votes)
  • male robot hal style avatar for user Teehee
    but what did the rodent come from maybe a astriod maybe it started as a bug how did the rodent get there in the first place?
    (1 vote)
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    • piceratops ultimate style avatar for user AegonTargaryen
      The mammals that we know of today originally evolved from the same reptiles that would later evolve into dinosaurs. Dinosaurs and mammals lived together for a very long time but many of the niches of the environment were already being filled by large dinosaurs. When the dinosaurs went extinct, mammals gradually evolved to fill those niches.
      (6 votes)
  • starky ultimate style avatar for user Gacky
    At Sal mentions that we evolved form rodents. How did we become us and not rats?
    (1 vote)
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    • female robot grace style avatar for user tyersome
      Humans did not evolve from rodents — we and the other mammals all evolved from a common ancestor. That ancestor probably had many features in common with rodents, but it wasn't a rodent because rodents and primates (including humans) hadn't evolved into separate groups of organisms yet.

      Does that help?
      (5 votes)
  • leaf blue style avatar for user Jaysal Bhatt
    What are the characteristics of early man that classifies one species as Homo sapiens ?
    (1 vote)
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    • leaf grey style avatar for user Bill S
      Large brains, with a cranial capacity of about 1000cc to 1900cc, slightly slender bodies (our cousins the Neanderthals are stockier compared to us), pelvis structure, tooth arrangement (varies slightly among our genus), and height. There is even some subtle differences within our species. Homo sapien idaltu has more archiac features compared to modern humans.

      I hope that helped!
      (4 votes)
  • old spice man blue style avatar for user Blue Spice Man
    Did the asteroid that crashed in the Arizona Desert caused the extinction of the Cretaceous dinosaurs?
    (1 vote)
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    • piceratops ultimate style avatar for user AegonTargaryen
      No, the meteor that crashed into Arizona did so about 50,000 years ago. The devastation it caused was local. A similar type of event occurred over Tunguska Siberia in 1908 though it didn't actually make it to the ground. The explosion flattened hundreds of square kilometers of forest and was detected all over the world but was no where near as bad as the impact 65 million years ago.

      While the meteor crater and Tunguska meteors were both about 100 meters (230ish feet) across, the Chicxulub impactor (dinosaur killer) was about 5 kilometers across (3 times larger than meteor crater) and produced a crater 150 kilometers across. Its impact generated a magnitude 13 Earthquake and ejected several cubic kilometers of dust which drastically changed earth's climate and ultimately killed the dinosaurs.
      (3 votes)
  • piceratops ultimate style avatar for user πceratops
    Is the "common ancestor" that Sal talks about currently not established yet?
    (1 vote)
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Video transcript

If we were to rewind the clock back about 70 million years, you would see dinosaurs roaming the Earth. And this is a very nice picture here of a dinosaur enjoying a sunset at the beach. But unfortunately for the dinosaurs, about 65 million years ago, we believe that a huge meteorite struck the earth and essentially wiped out the dinosaurs. And it probably wiped out a bunch of other species with it. Because you can imagine, the shock wave itself would just exterminate tons of species. Then you would have the tsunami of unimaginable size that would just envelop the continents for some period of time. And then you would have all of the soot that would go into the air and maybe make it impossible for most of the plant species to live, because it would be blocking out all of the sunlight. And so in an environment like that, we could imagine that an animal like this would be well suited to survive. It's sitting there underground. Maybe it can hibernate in some way, so it doesn't need food for long periods of time. Maybe it has its own food stash under there someplace. And so we believe that our ancient, ancient, ancient, ancient, ancient ancestors, after this mass extinction event, might have been something like this-- kind of a mole-looking, rodent animal that was protected from all of this craziness that was happening on the surface, because they like to hang out underground and have all their food nearby them. And maybe they could hibernate in some way. So you could imagine, once everything settled down-- and now we're talking, who knows, hundreds of years, thousands of years, even millions of years-- some of this guy's descendants start to poke their head out of the ground. And they're like, you know what? There's food in trees. And there's no one else in the trees. And trees are a good place to maybe get away from some of the other predators that have managed to survive this mass extinction event. And some of its descendants, I should say, that were good at climbing trees decide, hey, let's try this tree thing out. And so you started to have some selection for the descendants of this rodent that could climb trees well. They were able to find food where their ancestors couldn't . They could find protection in the trees where their ancestors couldn't. And so you could imagine that some subset of this guy's descendants evolved into something that might have looked like this guy. And all the pictures I'm showing you, these are of modern animals, except for, of course, the dinosaur. I'm sure this was kind of Photoshopped in some way. This is a modern bush baby. But I show this picture because it could have been what some of these primitive primates looked like. Because a bush baby, it kind of a climbs trees. It kind of looks like it's starting to get a hand here to start climbing the trees. But it also has rodent-like qualities. But this is, of course, a modern version of it. So this bush baby's ancient, ancient, ancient ancestor might have been that primitive primate or that species of primitive primate that was a descendant of rodents that starts to say, hey, let's see if we can climb these trees and find some food. And then some of its descendants might have had just the right adaptations, found their own little niche in the right ecosystems. And they would have evolved into monkeys. Once again, this is a modern monkey, but you could imagine some type of primitive monkey. And then some of those primitive monkeys' descendants, they turn into these modern monkeys eventually. But some of them, they grow larger in size. They spend more time outside of trees. They lose their tail. They don't need it as much for balance. Maybe it's actually a bad thing to have, because someone else could grab it when you're in a fight or something like that. And they evolve into apes, and in particular, the great apes. So one of the great apes. The great apes involve gorillas and chimpanzees and the ancestor. Or really, the great apes also include humanity. So let me just review back on this timeline, just so that we don't get confused. I'll review what we just talked about. So before this mass extinction event, 65 million years ago, you had all these types of species here. Maybe this right up here. Actually, if I'm talking about species, maybe this was Tyrannosaurus Rex, because the dinosaurs involve whole bunch of-- so this might have been T Rex. And there's a bunch of species that we could list over here. But after that mass extinction event, that was an endpoint for a ton of species, except for maybe this primitive rodent mole-like thing. Maybe a lot of them died in this event. But just enough of them survived because they were underground or just in the right place or they were in a mountain someplace. Who knows where they were? And some of them were able to evolve into primitive primates. And once again, these are pictures of primitive primates. And when I say primitive, these are modern versions of them. So primitive doesn't necessarily mean worse, because obviously, these guys, even in today's world, they have a niche for themselves. They're able to find food and reproduce in ways that don't get in the way of other people and the way people don't get in the way of them. When I talk about primitive primate, I'm just talking about kind of an ancestral primate, maybe something that's not there today. Although maybe some of those descendents look very much like it. But anyway, some of those primates evolve into primitive monkeys. Some of those primitive monkeys' descendants become modern monkeys. So I'll call it M monkeys, for Modern monkeys. And some of them evolve into primitive apes. And apes, their distinctive characteristic is that they're like monkeys, but they don't have tails, and they're larger than most monkeys. And so these primitive apes, some of their descendants are modern gorillas. At some point, they break off. Some of these descendants are an ancestor of both modern chimpanzees and of human beings. And we think, just looking at the DNA evidence, we think that this departure right here-- and the fossil evidence-- was about seven million years ago. That's our best guess for when we, as human beings, had a common ancestor with the chimpanzees. Now, you have that common ancestor. Some of that common ancestor's descendants became modern chimpanzees. And some of them-- maybe they explored the right ecosystem, where it was more advantageous to do so-- started to walk on two legs. And the most famous fossil of this is the australopithicine fossil of Lucy that was discovered 3.2 million years-- it was discovered more recently. It's 3.2 million years old. So the whole genus-- and genus is kind of one level of categorization above species. The whole genus of australopithecine, these were four to two million years ago. And we never know. You could always find a fossil that's older than this, maybe newer than this. I read one account that says, maybe one million years ago. But give or take, the Lucy fossil, which is the most well established australopithecine fossil, is about three million years old. And this is a reconstruction I have over here of Lucy. So this is probably what Lucy looked like. And once again, there were many Lucys. It wasn't just there was one Lucy. And we're all descended from Lucys. And it's actually not even clear that we're even descended directly from australopithecine. We might be a cousin species or a cousin genus, I should say. Genus is the category right above species. So if you fast forward a little bit more-- you go to about 2.3 to 1.4 million years ago-- we see fossils that they're standing upright. The brain size is bigger. Because if you look at the australopithecine fossils, they are standing upright. But they're cranial capacity isn't that different than chimpanzees. You fast forward to 2.3 million to 1.4 million years ago, we start to see fossils where they're standing upright still. And the cranial capacity has grown. And you're starting to see primitive stone tools around the bone fossils. And so we believe that these are one of the first. And this is really just how we categorize it. But these are some of the first fossils that we categorize as belonging to the same genus as ours. And the genus is Homo. And Homo just means man. So it's the group right above species of man. And we call them similar to man, because it looks like they're starting to make primitive stone tools. And they stand upright like us. And they have larger cranial capacities than the australopithecine fossils or modern chimpanzees. And once again, we don't know if Homo habilis, which literally means-- so the Homo part means man. Habilis means handy, because he liked to, I guess, make tools or whatever else. We don't know if Homo habilis is a descendant of Lucy's species of Australopithecus or maybe a cousin species. Maybe they're both descendents from some common ancestor. We're not quite sure. Then you fast forward a little bit more. We're talking now about 1.8 to 1.38 million years ago. And we start seeing fossils where the cranial capacity larger than Homo habilis, getting closer in size to what our notion is of kind of a modern person's cranial capacity, at least relative to body size. And this is Homo erectus. And once again, we don't know if Homo erectus is the descendant of Homo habilis. Maybe they have a common ancestor. Who knows? And it looks from the fossil evidence that there was, especially when you look at this range here, some overlap where you had both Homo erectus and Homo habilis living on the same planet at the same time. Now, you fast forward even more. And we think about 600,000 to 300,000-- once again, all of these are constantly being modified, as we get better at finding new fossils or interpreting the fossils we have or we look at DNA evidence or whatever. About 600,000 to 300,000 years ago, the Neanderthals appear. And Neanderthals are in the same genus as humans. So it's really Homo neanderthalensis. I always have trouble saying this. So this is still part of Homo. And a common misconception is that the Neanderthals are somehow a more primitive version of humans, that they're somehow cavemen, and we're modern men. That's not the case. The belief is that Neanderthals are either cousin species-- we have a common ancestor-- or that they're actually a sub-species of human beings. And there's some belief that they might have interbred with Homo sapiens. And maybe some or a good number of us have a Neanderthal genes. And it's nothing to be ashamed of. It's just something, unfortunately, that Neanderthals just get a bad name, because of, I guess, our popular culture. So this is a drawing of a Neanderthal brain. They actually had a fairly large cranial capacity. Although scientists, they kind of make one reason or another why we think that they might have been more primitive than Homo sapiens. But who knows? We don't know. We're constantly learning things every day. But of course, the whole point of this is to talk about how humans showed up on this planet. And the first really human fossils we find about 200,000 years ago. And remember, we're in the genus Homo. And now, we've finally found something that looks just like us, anatomically, at least. We can't study its behavior and all the rest. And now we get to Homo sapiens. The Homo part, once again, means man. And the sapiens means thinking. So we can debate whether it's an appropriate title for our species, but it's "thinking man." So once again, the Neanderthals, they were either a cousin species for a lot of this time, especially once Homo sapiens showed up. And maybe Homo sapiens showed up before this. We just haven't found the fossils yet. They were maybe both inhabiting the same planet. Maybe there was some interbreeding. But the Neanderthals disappeared about 30,000 years ago. 30,000 years ago, these guys disappeared. Maybe some of them kind of got mixed in with the Homo sapiens, started to interbreed with them. Or they might have just been killed off, because they were fighting over the same ecosystems. And I've made a little sample here of Homo sapiens. Well, I'm assuming most of you watching this video are one. But just in case, here's my little sample. We can debate how representative a sample of our species this really is.