A Brief History of Life on Earth: The Full Series

Video Statistics and Information

Video
Captions Word Cloud
Captions
[Music] the earth formed about 4.6 billion years ago which is an almost unimaginable amount of time but that's how long it took for the earth to settle down and for life to develop into the forms we see today it was the longest miniseries we've ever done but it was worth it it turns out the history of our planet is kind of incredible and now we've collected those videos in this compilation so you can watch the full series in one place our first episode covers the first few billion years which was just enough time for life to get going and for very simple mostly single-celled organisms to form did life come from and how did it come to this the path from bacteria to baseball wasn't simple in this mini series we're going to explore the evolution of life on earth it's been a wild journey with plenty of twists and turns and there were a lot of times we almost didn't make it this first episode is about two of the earliest geological eons the rkn and the proterozoic eon czar the second-largest way to divide up earth history after super eons there was one geologically on before the archein the Hadean which was 4.5 to 4 billion years ago but because Earth's rocks are constantly being destroyed and reshaped literally all of the rocks that old are gone it's hard to have geology without rock so we're going to start with the RK the RK n began about four billion years ago and ended around 2.5 billion years ago when the chemistry of rocks began to change and plate tectonics the way the Earth's crust moves around started to become more of a thing that kicked off the Proterozoic Eon which continued until 542 million years ago these two eons are where life began and developed in complexity though it took its sweet time about it it's also the time when life transformed the atmosphere making it more suitable for some living things but more dangerous for others earth and the creatures that live on it have a complex relationship we've influenced each other the geology of the planet has guided the evolution of life and life has shaped earth just by existing the Earth's geology during the archein shape what was probably the first forms of life but you wouldn't recognize the planet the atmosphere contained a lot of methane ammonia hydrogen and carbon dioxide a type of chemical mixture that's called a reducing environment which means it can make electrons available for chemical reaction that was probably good news for the molecules that would eventually turn into biological molecules they were able to react with each other and start becoming more complex carbon dioxide and methane are greenhouse gases so the earth was much hotter than even though the Sun was younger and fainter in fact there's no evidence for polar ice caps or glaciers in the archaea it was too hot for ice meanwhile the continents were solidifying plate tectonics have shuffled them around a whole bunch since then but the innermost rocky centres of most today's continents date to the archaea volcanoes belched carbon compounds and water into the atmosphere the oceans condensed pretty quickly from that water and because there was almost no oxygen in the atmosphere there was no ozone layer UV radiation would have been pretty intense if hopped into the TARDIS and time travel to arcane earth you might think you were on Venus that's very different from the temperate climate and nitrogen oxygen atmosphere we have now so what changed well life happened at some point in the warm oceans and carbon rich atmosphere biological molecules that contains the necessary information to copy themselves and have the chemical ability to do so formed from organic compounds these became encapsulated in an oily membrane that kept them safe from the outside world the first things to resemble a living cell and eventually this early life transformed the atmosphere and climate some scientists believe the earliest biological molecules were RNA the molecule our DNA now uses to send messages outside a cell's nucleus it's called the RNA world hypothesis RNA is very similar to DNA but it's easier to form from simple components it also stores genetic information the same way DNA does but it can tangle itself into shapes that make it easier for chemical reactions to happen the way proteins do in ourselves now the RNA world hypothesis would explain why RNA is to go between for DNA and protein in our cell but some scientists argue it would have been too complicated for life to switch over from RNA to DNA and protein and it's more likely that all three evolve together whether life started as an RNA world or not by the time the common ancestor of everything alive today came along the system was based on DNA the earliest fossils showed that life in the form of bacteria existed 3.5 billion years ago but a recent finding shows that life could be even older than that a team of researchers from California found evidence of life that is 4.1 billion years old now I just said that there weren't any rocks older than four billion years and there aren't which means there aren't any fossil either but the team found resilient little crystals called zircons which can be preserved when the rocks surrounding them is destroyed then they get incorporated into new rocks as ER cons in question found in Australia contained traces of 4.1 billion year old carbon there are lighter and heavier forms of carbon called isotopes and living things tend to have more of the lighter ones compared to the heavier ones and so do these zircons for many scientists it's hard to believe that life could possibly be that old for one thing Earth was pelted by asteroids 3.8 billion years ago in what was called the late heavy bombardment next time you look up at the moon check out the craters a lot of them came from the late heavy bombardment and we can infer from what happened to the dinosaurs asteroid impacts are not the best for the survival of living thing but some analyses suggest the late heavy bombardment would have wiped out only most of life not all of it so if there were any living things that old some of them could have survived either way we're more confident about those fossils that are 3.5 billion years old they're called stromatolites and they're made up of layers laid down by films of bacteria stromatolite SAR pretty uncommon today although you can find them living in Australia's Shark Bay but pretty much up until the time grazing animals evolved half a billion years ago and started eating all of the bacteria lying around they were an extremely widespread form of life that means they basically ruled the earth for a solid three billion years they may look like slimy lumps of rock but stromatolites are actually kind of incredible even if life only goes back 3.5 billion years that's still pretty amazing because it means that Earth was about a billion years old when the first life emerged that's not a whole lot of time especially since the continents and oceans and stuff were still forming so it might not have been that hard for life to get started the hard part would have been staying alive once there was oxygen everywhere a few kinds of microorganisms make stromatolite one of them is cyanobacteria and cyanobacteria are pretty special instead of acquiring energy from their environments like the other first organisms cyanobacteria could capture energy from the Sun they could photosynthesize photosynthesis seems to have evolved in the archein but didn't really kick into high gear until early in the Proterozoic that figures the water cycle needed time to work on the brand-new continent water weathers continents it carries sediment into the sea and that creates a shallow region around the shore the continental shelf the continental shelf is great for photosynthesis because it's shallow and gets plenty of Sun but photosynthesis has a nasty chemically voracious toxic by-product oxygen one of the most greedy electrons dripping elements on the periodic table it reacts with practically anything it's where we get the word oxidizing for chemically stealing electron once continental shelves form the cyanobacteria started pumping out oxygen like there was no tomorrow and for many of the anaerobic or oxygen intolerant life-forms on the planet there was no tomorrow they weren't used to oxygen and they couldn't handle it it was poison to them it reacted with and destroyed them all that oxygen even changed the rocks it reacted with iron that had been dissolved in the oceans laying down bands of iron ore that we still find today earth basically rusted but there was another problem the cyanobacteria also pulled the carbon-containing greenhouse gases out of the atmosphere earth temperature plunged in the early Proterozoic and again near the end maybe twice the planet became a snowball life nearly poisoned and then froze itself to death cyanobacteria changed the atmosphere so much they destabilized the climate and changed the composition of the earth itself eventually the volcanoes coughed up more greenhouse gases in the snowball thought out cold tolerant forms of life managed to survive the crisis and some organisms learned not only to put up with oxygen but to use it to make energy they became aerobic life-forms but many anaerobic organisms had to either find a place to hide or kick the bucket life is easy but surviving is hard and so is becoming any more complex than a single simple cell life stayed single-celled for 2 billion years or so and it only changed because something really weird happened that something weird was endosymbiosis sometime in the Proterozoic before 2.1 billion years ago an anaerobic cell ate anaerobic bacterium one that used oxygen to produce energy and the bigger cell never digested the smaller one the smaller one kept on living using oxygen and producing energy and there was so much surplus energy that the bigger cell benefited from having the little guy in there eukaryotic cells the ones with nuclei have the descendants of these aerobic bacteria inside them they are our mitochondria that convenient energy arrangement paved the way for life to become more complex and all because of a weird flu except maybe it wasn't that weird because it happened again the ancestor of plants engulfed a cyanobacterium which kept right on doing its photosynthesis thing and now plants have chloroplast the earliest possible evidence for multicellular life is 2.1 billion years old but it could have just been a colony of single-celled organisms the earliest multicellular eukaryotes we can be fairly confident about are 1.5 billion years old animals didn't show up until 600 to 800 million years ago late in the Proterozoic and into the next geologic time period animal life established the groundwork for every kind of animal body plan that still exists today so we've got life although it is still fairly simple but in the next stage of Earth's history things start to get really interesting as evolution takes off and we see a huge explosion in the diversity of life Anna Rizzo icky on and here we're going to zoom in a bit to the first chunk of the phanerozoic eon the Paleozoic era which lasted from 542 to 252 million years ago right at the beginning of the Paleozoic there was a huge explosion of more complex slice and that's when things really started to get interesting Paleozoic era is divided up into six periods and by the first one the Cambrian multicellular life including animals already existed but it had not done much animals were simple things like sponges they didn't have complex organs and really they weren't much more than lumps eating bacteria they strained out of the water all that changed about 542 million years ago with the Cambrian explosion there was an increase in oxygen levels just before the beginning of the Cambrian caused by a boom in life that produced oxygen using photosynthesis scientists still debate how big this oxygen event was and when exactly it happened but it might have made predation the predator-prey relationship possible for the first time and the filter-feeding lumps got gobbled up predation involves chasing after things you want to eat and that takes more energy than just sitting on the ocean floor waiting for food to come to you to maintain that high energy lifestyle predators it needed a whole lot of oxygen once predators evolved prey started evolving better defenses and ways to run away which led to predators getting faster and better at capturing their prey it was basically an evolutionary explosion hard body tissues like shells and skeletons began to show up in the fossil record just before the Cambrian it took a lot of energy to produce that tissue but it was worth it since these animals were less likely to be eaten officially the beginning of the Cambrian was when animals started to burrow under the thick mat of bacteria on the ocean floor to escape predators these predator-prey relationships combined with other factors like changes in the minerals in the oceans and flooding that opened up shallow habitats led to such an enormous boom in diversity that almost every major animal group that exists today evolved during the Cambrian including arthropods mollusks and the chordates that eventually gave rise to vertebrates the second period of the Paleozoic era was the Ordovician which started 485 million years ago this name comes from a Celtic tribe since many of the best studied rocks from the Paleozoic could come from Britain the Ordovician was when vertebrate first appeared they were fish without jaws then came the Silurian period named for another celtic tribe which started 443 million years ago sometime during the Ordovician and into the Silurian life made the jump to land hoping to land wasn't as easy as washing up on shore and going about your business life began in water and living in water adds some advantages over living in air water holds your body up it helps you with gas exchange if you release your sperm or eggs into the big blue it's much more likely that they will meet up with other gametes to reproduce none of that is true for air you have to lift your body up and in order to make the next generation you have to get physically close to each other the earliest land organisms had to evolve support structures new respiratory systems ways to avoid drying out in methods of reproduction that were a little more controlled extremely simple plants might go back as far as the early or division or even the Cambrian they were spore forming and had very little in the way of internal support the oldest fossil we have that isn't a plant spore or a single-celled organism is a fungus called Porto Tula it's about 440 million years old from around the Ordovician Silurian cut-offs this fungus was a total GameChanger Tuerto tuba probably helped pave the way for more complex plants and for animals too it lived as an underground network of filaments much like modern fungi it might have formed mushrooms to disperse its spores but we don't know for sure it's said by rotting the few other organisms on land likely early plants and microbes by break them down nutrients it helped develop the soil on Earth's surface that helps complex plants grow and develop soil even further now there are doctor who creatures called Silurians but they are pretty badly named because there were no land vertebrates during the Silurian period let alone intelligent humanoid reptiles but there were insects and other arthropods earthworms and other terrestrial invertebrates colonizing the land they formed the first simple land ecosystems along with plants and fungi the fourth period of the Paleozoic called the Devonian started 419 million years ago and ended 359 million years ago it's sometimes called the age of fishes because it's when the first fish with jaws appeared and it was followed by a lot of fish with jaws these fish called placa derms had tough bony armor surrounding their skulls they were the earliest with jaws and jaws were pretty useful for eating stuff so they were a big success in an evolutionary sense pachyderms showed up in the middle devonian before the Devonian was over the first tetrapods or four footed creatures with backbones had already evolved in fact there's evidence that tetra pods may go back 395 million years or more smack in the middle of the Devonian which means that those fish the ancestors of birds mammals reptiles and amphibians got around to having legs and crawling out of the ocean almost instantly on an evolutionary timescale at the beginning of the Devonian jawless vertebrates were the most complex life around by the end of the Devonian they were early amphibian like land dwellers walking around that is that gigantic leap arthropods and land plants had a huge boom - meaning those simple land-based ecosystems from the end of the Silurian were a lot more complex by the end of the Devonian then 359 million years ago the 5th period of the Paleozoic began the Carboniferous period he might have heard that fossil fuels are made of dinosaurs but they are actually much much older than that a Carboniferous was when land plants really started to establish themselves the climate was mild enough for plants to grow year-round and huge forests screw the word Carboniferous means coal baring and for good reason hundreds of millions of years later we're digging up the remains of those forests as coal the forests pumped oxygen into the atmosphere like crazy much more oxygen than there is today which led to the development of the first big land animals arthropods bugs basically they grew huge in the oxygen-rich atmosphere that's right 350 million years ago earth was full of giant bugs land vertebrates were still fairly small in the Carboniferous but they did develop one major evolutionary innovation the amniotic egg which is the reason you can store a chicken egg without it drying out amniotic eggs don't need to be kept in water because they have a tough shell and membranes to manage gas exchange without letting the embryo dry out the reptiles that laid these eggs were less dependent on water than the first tetrapods who still had to return to the water to lay their egg because the amniotes could spend their entire lifecycle on land and they got better and better at it and they got bigger the Permian the last period of the Paleozoic began 299 million years ago it was the first age dominated by land vertebrates including the first big vertebrate land predators like the finback Dimetrodon if you had a dinosaur themed coloring book or toy set that featured Dimetrodon as a kid you should know two things first dinosaurs didn't evolve until after the Paleozoic era during the Mesozoic era Dimetrodon is way older than those guys second Dimetrodon was on the same evolutionary branch as today's mammals not today's reptiles and birds so it's more closely related to you than to any dinosaurs it was a member of the group of so called mammal-like reptiles that came before dinosaurs even though they weren't technically reptiles it can be a helpful way to think of them not mammals yet but getting there I'm entered on with a carnivore but there were synapses that ate plants as well like the similar looking at gasosaurus which Dimetrodon probably ate plant eating was its own kind of evolutionary innovation because herbivores couldn't really survive until there were enough plants to sustain the animals that ate them Plus herbivorous animals had to evolve a digestive systems that could extract nutrients from leaves which is much harder and less energy efficient than getting all your calories from meat so plant eating was another major evolutionary development that happened during the Permian at the end of the Permian 251 million years ago the Paleozoic era ended and everything else nearly ended along with it there was a mass extinction event so unimaginably widespread that it's sometimes called the great dying something like 90% or more of Earth's marine species went extinct most of those big synapses died out marine species were hit even harder something so awful happened that life nearly met its match there were ice ages and smaller extinctions throughout the Paleozoic but this one was the big one so what was it what caused the great dying we don't know for sure the prime suspect is a plume of lava in present-day Siberia that was deposited 250 million years ago just when the Permian extinction took place this was a volcanic eruption of sorts but if you're imagining the SU vs or Krakatoa think bigger a huge plume of heat welled up under Earth's crust and melted it for hundreds of square kilometers the region was flooded by enough lava to cover two-thirds of the United States so the reason this volcanic plume is such a likely suspect is because it could have done all sorts of life-ending things it could have caused rapid cooling by blocking out the Sun it also could have set fire to buried coal releasing carbon dioxide and causing runaway global warming there's evidence for both kinds of temperature extremes it could have released chemicals into the atmosphere that led to large-scale acid rain or change the chemistry of the oceans we don't know exactly what those eruptions did but we know they did something and it probably wasn't pretty other suspects include methane producing bacteria warming the planet a catastrophe that somehow got rid of all the oxygen in the oceans an asteroid impact the great dying could also have been caused by the formation of the supercontinent Pangea confidence crashing into each other would have destroyed a lot of continental shelf habitats killing some of the richest parts of the oceans having one big continent in one place would also have rearranged ocean currents and altered the climate but Pangaea formed a little too early to account for such a widespread die out and all the other hypotheses have strengths and weaknesses too none of them can explain everything so some scientists have suggested what's known as the Murder on the Orient Express hypothesis hashtag spoiler like an Agatha Christie's classic novel there are multiple culprits it's like an exam question where the answer might be some of the above or all of the above whatever the cause nearly everything died out so we almost didn't make it there but mass extinctions clear the way for new forms of life to dominate and in this case it was the dinosaurs life had been brought to its knees by a mass extinction at the end of the Paleozoic era the Mesozoic era from 251 to 65 million years ago followed the great extinction and would produce some of the weirdest and most fascinating animals of all time including the dinosaurs it also led to most of the major land animal groups we know today like other eras the Mesozoic is divided into periods in this case three of them the first period the Triassic lasted from 251 to 199 million years ago it was a time of transition when the dominant vertebrates of the late Paleozoic that the rhapsode pretty much disappeared a new group of reptiles the dinosaurs then rose to become the Earth's new dominant land vertebrates throughout the Mesozoic earth was warmer than it is now and it had no polar icecaps at the beginning of the Triassic the Earth's land masses were lumped together into the dry supercontinent Pangea slowly life started to repopulate the place repopulating meant diversifying the therapsids were declining but a new group of vertebrates was starting to take over the arcus ores arcus ores are descended from one of the earliest major groups of land vertebrates the die acids at the end of the Paleozoic these major animal groups the arcus ores and the day absence are defined by holes in their skulls which attach to muscles and mean that big heavy bones weigh a little less it might seem like kind of a strange way to tell these animals apart but it's actually a very clear marker dye absent to have two openings behind their eyes arcus ores have two extra openings one in front of the eye and one in the lower jaw dinosaurs are arcus ores but so is another group that almost took over instead of the dinosaurs the pseudo Sukie ins which evolved very similar body plants to dinosaurs that came later including standing on two legs they came in a lot of different shapes and sizes but if you want to know what a pseudo Suqian looked like picture something a bit like a crocodile but about twelve times more terrifying because it's able to stand up straight on its long legs and run really fast over land so tsuki ins were nearly wiped out in another mass extinction at the end of the Triassic only one lineage survives one that took the living in swamps and gave rise to modern crocodiles and alligators although thankfully the modern version is done run around on two legs the only other arc asuras around today are birds so the arcus orsa took over from the therapsids which had mostly died out at the end of the Paleozoic if some perhaps had hung on through the Triassic and some didn't die at all luckily for us the thorax heads are descendants of another major branch of land vertebrates the synapsids who are also classified by their skull holds synapsids have only one skull opening not four and they're the ancestors of mammals the earliest mammals appeared in the middle of the Triassic at practically the same time of the dinosaurs yes we mammals started out as dinosaur buddies and we still hang out with dinosaurs now just in bird form speaking of dinosaurs there probably weren't many Triassic dinos and the coloring books you had when you were six because they haven't developed much yet but they had some advantages that would eventually make them the ruling reptiles like I mentioned earlier pseudo Sukie ins and dinosaurs had a very similar body plan but the dinosaurs had a slight physiological edge their breathing was more efficient and while both groups evolved the legs that were positioned straight under them instead of sprawling out to the sides dinosaurs were the stronger movers the earliest dinosaurs that we can be confident about and go back 230 million years but there are some very Dino like animals from ten million years before that an animal called nyasa soros may or may not be a true dinosaur depending on who you ask but it's definitely close and it comes from 243 million years ago in present-day Tanzania as is often the case with evolution it's hard to draw the line between true dinosaurs and their immediate ancestors but somewhere between nyah thesaurus and later dinosaurs like yo Raptor they had officially evolved ready to take over the world a couple of other animal groups turned up during the Triassic one was the ichthyosaurs the first reptile group to become fully aquatic again after evolving a land-based lifestyle they're also one of only two groups to evolve a fish shaped body from a four-footed animal body the other group being the whales finally toward the end of the Triassic a group of arcus oars that were closely related to dinosaurs but weren't dinosaurs themselves evolved the power of flight the pterosaurs after the Triassic came a period that you might have heard of called the Jurassic period which lasted from 199 to 146 million years although I do feel like I need to point out that some of the dinosaurs from the movie franchise are partly or totally made up and others aren't from the Jurassic at all during the Jurassic Pangaea was beginning to separate into two continents Laurasia and Gondwana shallow seas covered parts of the land this is what dinosaurs diversified into their more familiar forms the Jurassic was a great time to be a sauropod for example a huge long next plant eater that walked on four legs Diplodocus Brachiosaurus and Apatosaurus all lived during the Jurassic then there were the theropods the meat-eaters that walked upright Allosaurus was one major predator but even bigger and meaner theropods were yet to come the Stegosaurus also evolved during the Jurassic it was a big plant eater with plates all along its back and a spiked tail weapon called a sagem Iser because if you're gonna pick a name for a giant spiky tail weapon you might as well make it awesome meanwhile the plesiosaur is a group of reptiles not closely related to dinosaurs that joined the ichthyosaurs in the ocean there was one other major group of dinosaurs that appeared during the Jurassic Birds we know that birds are descended from dinosaurs because of the similarities in their skeletons and the fact that many dinosaurs had feathers and because people who study evolution like to include all of the group's descendents in that group birds technically are dinosaurs so if you've ever fed a chicken nugget that's shaped like a dinosaur to a child that's that's a weird experience that the whole strange thing Archaeopteryx which is usually considered the earliest bird dates back to the Jurassic and so do lots of other early birds they along with the pterosaurs were the two kinds of flying arca soars during the Jurassic and during the next period the Cretaceous the Cretaceous which means chalk baron lasted from 146 to 65 million years ago and was even warmer than the earlier Mesozoic the continents continued to drift apart heading for where they are now at the seafloor spread it released carbon trapped in the Earth's crust and caused some serious global warming XPS ores disappeared sometime during the Cretaceous but a new type of marine reptile appeared the mosasaurs aquatic lizards related to the monitor lizards we have today but not closely related to dinosaurs another new arrival flowering plants which were excellent at getting animals to spread their pollen that's why at the same time as flowers we see pollinators like bees in the fossil record whether flowers or pollinators came first as a kind of evolutionary chicken and egg question probably neither one of them came first exactly the flowers and pollinators influenced each other's evolution and became more interdependent as time went on mammals which you'll remember had been around since the Triassic evolved into the major lineages alive today placental mammals like us marsupials like the opossum and monotremes like the Platypus the Cretaceous also meant even more dinosaurs like the frilled ceratopsians and the duck-billed hadrosaurs and of course Tyrannosaurus Rex I don't know about you but I think t-rex is pretty cool I'm also very glad that predators that size aren't around today to snack on us and why are they around anymore well like the Paleozoic the Mesozoic ended in a mass extinction but there were a few differences between the two die outs for one thing the extinction at the end of the Mesozoic wasn't as bad only about 50% of the Earth's species went extinct which yes is a lot but not nearly as many as during the extinction at the end of the Paleozoic when almost all life died out and while we don't know exactly what caused the earlier Paleozoic extinction we have a major clue about the event at the end of the Mesozoic it's a crater in the Yucatan region of Mexico most scientists agree that a meteor impact at the site must have been what wiped out all of the dinosaurs except for birds there might have been other factors at play but the meteor didn't help so most of the diversity dinosaurs had to offer is gone for good yes birds are very cool but they represent only one lineage of dinosaurs those big four footed plant eaters and the walk and around armored vehicles they're not around anymore once they were gone mammals had a chance to take over which is what happened during the Cenozoic the era that we are still in so dinosaurs are pretty cool but finally it's our time to shine it took another 65 million years or so but who's counting Cenozoic is divided into three period the names of the periods have been switched up a bit recently but these days the era is divided into the Paleogene mia jean and quaternary period and each period is subdivided into even small units of time called epoch so first the Paleogene period it covers the time from the extinction of the dinosaurs 65 million years ago to about 23 million years ago and it's divided into the paleocene-eocene and Oligocene epoch so paleo scene from about 65 to 56 million years ago came right after the extinction of the non-avian dinosaurs and even the ones that didn't die out the birds took a big hit on the diversity front the dinosaurs left behind a huge ecological shoes to fill there were lots of feeding strategies and body plans that suddenly weren't being used the place an organism fills in its environment is its niche and usually two animals can't use the same one at the same time with the dinosaurs gone the mamo started exploiting those niches so that's why mammals expanded a lot in diversity during the Cenozoic even though they'd existed since the early Mesozoic by the Eocene epoch from 56 to 30 3.9 million years ago mammals had diversified into some pretty neat forms including orders that still exist like rodents and primates but also some that don't like the enormous and bizarre Titanic ears and you interferes one little antelope like mammal had even wandered into the sea to become the ancestor of whales the Oligocene from 33.9 to 23 million years ago saw the introduction of carnivores but not what we usually mean by carnivores there were already animals that ate meat I'm talking carnivory the taxonomic order of mammals that includes cats and dog there were also lots of different kinds of rhinos all over the place the paleo gene was warm despite the mass extinction the climate carried on more or less the way it had in the Mesozoic balmy with no polar icecap but all of that was about to change because the continents were shifting Antarctica drifted over the South Pole and was surrounded by a cold current which led to global changes in the circulation of the oceans Antarctica started to ice over the later two periods of the Cenozoic starting with the Neogene were characterized by the rise to prominence of one extraordinary life-form it changed the course of evolution for every species that encountered it I'm talking of course about grass grass is so common that most of us probably don't think about it it just belongs on the ground always have but grass is a relative newcomer to the evolutionary scene the first grasses showed up just before the end of the Mesozoic but the c4 grasses so-called because of the way they process carbon only showed up between 25 and 35 million years ago those are the important ones and the major changes they influenced mostly happened within the last 10 million years grass is so important because it's hard to eat it's tough low in nutrients and has little bits of silica incorporated into its tissues specifically to discourage herbivores technically called phytoliths they're basically sand and chewing on sand is less than amazing for your teeth rather than not eating it a lot of mammals just got really good at chewing and digesting grass evolved teeth with high crowns more resistant to being ground down evolved complex stomachs like the four chambered arrangement and cows to extract as much nutrition as possible and they evolve long legs adapted to running around in the new open grassland habitats horses and antelope were the big winners in the Neogene but it wasn't just them grasses have become so widespread that all kinds of creatures depend on them for food including up we don't eat the leaves with the sandy bits in them but most humans depend on grain like corn wheat and rice all grasses we also feed grass and grain to our livestock that means for the rest of the Cenozoic up to the present the evolution of mammals was tightly bound to the spread of grassy habitats pelรฉan herbivores had been mostly browsers animals that eat leaves from trees and shrubs in the Neogene they were outnumbered by grazer the Neogene is divided into two epochs the Maya scene and the Pliocene in the Miocene epoch beginning 23 million years ago the continents were already close to where they are today ocean circulation became more modern too which meant things were cooling down the giant shark C Megalodon patrolled the ocean grazers like horses and camels were all over the place and toward the end of the epoch in Eastern Africa a group of Apes was learning how to walk on two legs at some point before or during the Pliocene epoch from 5.3 to 2.6 million years ago north and south america crashed into each other during the Pliocene animals crossed the new land bridge and switched up their places on the continent opossums colonized North America and as anyone who's driven around here knows they stuck around camels and bears moved into South America and they're still there too and in the afar region of Africa there lived the early human relative Australopithecus afarensis Australopithecus is upright body plan was adapted to a shifting climate and by the end of the Neogene that climate was shifting quite a bit Antarctica had already freeze into the southern polar icecap and then the Pliocene the Arctic began to get chilly - this was the first time earth had had ice caps for a long time possibly since the early Paleozoic so by the time the quaternary period came around starting 2.6 million years ago things were a little different from the mild times that came before the quaternary period is divided into the Pleistocene and Holocene epochs you might recognize the last one as the epoch were in that applies to see an epoch from 2.6 million to 12,000 years ago is sometimes called the icing it was more like a series of ice ages with ice sheets advancing over the years then receding in dozens of cycles the reason the ice sheet advanced and retreated cycles has to do with minor predictable variations in Earth's orbit when the ice sheets get more Sun they melt more than they freeze and vice versa atmospheric carbon dioxide also tracks closely with global temperature during these cycles when co2 drops the temperature plunges - we coexisted with lots of cold weather organisms in the Pleistocene like woolly mammoth saber-toothed cats and the actually real not just from Game of Thrones dire wolf many of these are synched even though we are the post-mortem on the Pleistocene megafauna seems to be some combination of climate variations that caused the glacial cycles and the arrival of hungry humans with pointy sticks so-called archaic humans also sometimes called Homo heidelbergensis bate - around 400,000 years ago then anatomically modern humans showed up a little less than 200,000 years ago Homo sapiens that's us also coexisted with other branches of our human family tree like the Neanderthal we're the only ones left but for a while there were a handful of different species of humans running around at the same time these early humans hadn't yet developed the complex cultures and traditions that make us truly ourselves but they mostly just needed time there's evidence for art as old as 40,000 years our big brains probably evolved as an adaptation to the unpredictable climate with the glaciers coming and going we needed flexibility to survive also tools and fire help we are technically still in the Pleistocene Ice Age in what's called an interglacial period even though we consider the Pleistocene epoch to be over the ice is supposed to return eventually just not yet most recent epoch the Holocene is a tiny slice of time covering only the most recent warm interglacial cycle that's just shy of 12,000 years ago it's not the formal definition of the Holocene or anything but that period of time also happens to correspond with humans learning to farm and keep animals we've started this miniseries with life emerging nearly four billion years ago 200,000 years of human history isn't much compared to that and our actual recorded history compared to prehistory is on a geological scale very short we're basically a blip but even though we're a relatively young species we've already had a lot of influence on Earth's geology through things like nuclear tests and our use of plastic a group of scientists has argued that this is enough to define the start of a new epoch within the last century the Anthropocene or human epoch the powers that be in geology haven't adopted this term yet but it's often used informally so welcome to the Anthropocene the latest slice of time in geologic history well thanks for revisiting our mini-series on the history of life with us it took a long time for it to get to where it is today but the diversity of life on our planet is amazing and there's so much more to the history of life on Earth than we were able to cover in this series so if you love learning about this stuff as much as we do you can check out our sister show Aeons which is all about the most bizarrely fascinating things that have happened on this planet over the last 4.6 billion years from saber-toothed famine to dinosaurs with hollow butts just head over to youtube.com slash Aeons and subscribe [Music]
Info
Channel: SciShow
Views: 1,472,251
Rating: 4.8205442 out of 5
Keywords: SciShow, science, Hank, Green, education, learn, History of Life, Compilation, Archean, Eons, Epochs, Phanerozoic, Mesozoic, Paleogene, Cenozoic, Neogene, Quaternary, Age of Mammals, Dinosaurs, Paleocene, Period, Eocene, Oligocene, Miocene, Pliocene, Anthropocene, Proterozoic, Paleo, Anaerobic, Aerobic, Endosymbiosis, Eukaryotes, Continents, Birds, Synapsids, Archosaurs, oxygen, Geology, Biology, bacteria, Chordates, Tetrapods, Fish, jaws, Ferns, Arthropods
Id: -Wfu0GR-mE8
Channel Id: undefined
Length: 36min 12sec (2172 seconds)
Published: Wed Aug 09 2017
Reddit Comments

Thanks! Went down a 2 hour long and informative YouTube rabbit hole

๐Ÿ‘๏ธŽ︎ 2 ๐Ÿ‘ค๏ธŽ︎ u/ChristisAverted ๐Ÿ“…๏ธŽ︎ Feb 22 2018 ๐Ÿ—ซ︎ replies

Here is a list of threads in other subreddits about the same content:

Title Subreddit Author Time Karma
A Brief History of Life on Earth: The Full Series /r/nerdfighters /u/nerdfighterbot 2017-08-10 05:12:51 3
A Brief History of Life on Earth: The Full Series /r/TFHgeneral /u/TheFlyingHalibut 2017-08-10 05:10:48 1
[SciShow] A Brief History of Life on Earth: The Full Series /r/redditedu /u/Lenned 2017-08-10 05:08:26 1

I am a bot FAQ-Code-Bugs-Suggestions-Block user (op only)-Block from subreddit (mods only)

Now you can remove the comment by replying delete! (op only)

๐Ÿ‘๏ธŽ︎ 1 ๐Ÿ‘ค๏ธŽ︎ u/DuplicatesBot ๐Ÿ“…๏ธŽ︎ Feb 21 2018 ๐Ÿ—ซ︎ replies
Related Videos
Note
Please note that this website is currently a work in progress! Lots of interesting data and statistics to come.