A Brief History of Geologic Time

A Brief History of Geologic Time

The tale of life on Earth has been unfolding
for about 4 billion years. And we humans are just the last word on the
last page of that story. At least so far. And the vast stretches of time that are covered
by the history of life can be hard for us to fathom. We wrack our brains just trying to imagine
what a few hundred years looks like, let alone billions of years And, like, speaking for myself, I can’t
even remember what I had for breakfast this morning. So, to help us comprehend the full expanse
of time, scientists have turned to the rocks. By looking at the layers beneath our feet,
geologists have been able to identify and describe crucial episodes in life’s history
— from bursts of evolutionary diversity to disastrous extinction events. These key events — of new life and sudden
death — frame the chapters in the story of life on earth. And the system we use to bind all these chapters
together is the Geologic Time Scale. First, let’s talk about the history of geologic
time itself. ‘Cause figuring out how
to read history in rocks was not easy. For much of human history, of course, we had
no idea how old the Earth was, or what actually happened in deep time, or what happened in
what order. But in 1669, Danish scientist Nicolas Steno
published the first laws of stratigraphy — the science of interpreting the strata, or layers
of rock, in Earth’s outer surface. Steno argued that the layers closer to the
surface must be younger than the layers below them. So the farther down you dig, he thought, the
older the fossils are that you find there. Sounds legit, right? But in Steno’s day — when some people thought
that fossils had literally fallen from the sky, for some reason — this was pretty revolutionary
idea. Building on Steno’s ideas, Italian geologist
Giovanni Arduino went a step further and began naming the layers of rock. In the 1760s, Arduino studied the Italian
Alps, organizing their layers based on their depth and composition. The lowest layers of metamorphic and volcanic
rocks, he called the Primary layer. Above those were hard sedimentary rocks which
he called Secondary. And the top layers of softer alluvial deposits
he named Tertiary and Quaternary. But, because rock layers don’t appear in
this same order all over the world, there was no way for geologists to compare rocks
from one location to another. Without a way to compare strata, there could
be no universal time scale. Finally, in 1819, English geologist William
Smith figured out the solution to this problem: fossils. By comparing the remains of ancient organisms
from different rock formations, Smith could match their ages, regardless of how far apart
they were. For example, Smith realized that fossils of
many early species of trilobites are found below ammonite fossils, which are in turn
below certain species of shellfish. So, anyplace in the world where you find these
first trilobites, you know that you’re looking at rock that’s older than when ammonites
lived. And even in the most ancient rocks, that have
little or no evidence of life, scientists can still look for signs of the very earliest
major geologic events, like when continents first formed, and even when the Earth itself
cooled and solidified. Thanks to the work of early geologists like
Steno, Arduino, and Smith, modern scientists have used these and other clues to create
what we now call the Geologic Time Scale, or GTS. The GTS has been reworked many times to reflect
the latest knowledge of Earth’s history. And today, it’s organized into five subgroups:
Eons, Eras, Periods, Epochs and Ages. Organizing time in increments like this allows
us to ask questions about history on different scales. In the largest increments — like Eons and
Eras — we can ask the biggest of big-picture questions. Like, was there life on Earth at this time? If there was, what did it look like? Did it live in the water or on land? This is the kind of top-level view we’re
gonna take today. But the smaller increments of time, like Periods
and Epochs, help us take a tighter focus and ask more specific questions. Like, what was the climate like during this
window of a few million years? And how did life around the world adapt to
it? We’ll be talking about those in more detail
in future episodes, when we talk about each era, period by period. OK! So, let’s get the biggest of Big Picture
views of Earth’s history right now, by taking a tour of all the Eons and Eras in the GTS. Eons are the largest slices of time, ranging
from a half-billion to nearly 2 billion years long. And the earliest Eon is known as the Hadean. It begins with the very formation of the Earth
itself, around 4.6 billion years ago and ends 4 billion years ago. And this is the only Eon that doesn’t have
fossils. Because, back then, the world was just … hell. Named after the Greek underworld Hades, the
Hadean lived up to its name. The planet was wracked by volcanic activity,
cosmic bombardments, raging storms, and temperatures that were at times hot enough to melt rock. But even in this searing wasteland, life may
have been able to form. While no fossils have been found from this
Eon, small amounts of organic carbon have been discovered in Hadean rocks that some
experts think is evidence of the earliest life. These first organisms were tiny and single
celled, but they were eventually able to shape the future of the entire planet, so their
appearance is the one major benchmark of this Eon. The Hadean was brought to an end by the cooling
of the Earth’s crust, setting the stage for continents to eventually form. And this cooling marked the beginning of the
next phase — the Archean Eon, which ran from 4 billion to 2.5 billion years ago. Named for the Greek word for ‘origin’,
the Archean was once thought to be when the first signs of life appeared. But at the very least, it’s fair to say
it was the first time that life flourished, forming mats of microbes in the primordial
seas. The fossils that these microbes left behind
are called stromatolites, or sometimes, stromatoliths, and the very oldest of them — like those
found in western Australia — date from the Archaean. During this time, the atmosphere was mostly
carbon dioxide, but the appearance of cyanobacteria was about to change all that. Then 2.5 billion years ago, the Archean gave
way to the Proterozoic Eon, meaning ‘earlier life’. And around this time, photosynthetic bacteria,
along with some multicellular forms of life, spewed tons of oxygen into the atmosphere. This probably wiped out much of the anaerobic
life on Earth. BUT! It cleared the path for crucial, new organisms,
including the ancestral Eukaryotes, whose cells each have a nucleus and organelles wrapped
up in membranes. Eukaryotes developed into the first really
big, complex, and sometimes kinda weird forms of life, like the frond-like Charnia and the
plate-shaped Dickinsonia. These new, larger organisms quickly diversified,
and by 541 million years ago, we were at the doorstep of the next and current eon, the
Phanerozoic. Its name means ‘visible life,’ and the
Phanerozoic was when life really became … obvious. This is the eon that’s home to trees, dinosaurs,
newts, aardvarks, and humans. Basically, life as we know it. Hoo! How are you holding up? You doing OK? We’ve covered about three and half billion
years already! Just got another half billion to go and then we’re home free OK, now, from here, it’s best to explore
the Phanerozoic Eon through its Eras, the next level down in the divisions of time. This’ll let us explore more recent history
in greater detail. The first era of our current eon is the Paleozoic
Era, which began 541 million years ago. This chapter was defined by the diversification
of visible life, and it started with a bang. Actually, an explosion! The Cambrian explosion. This flurorescence of diversity and complexity
in the world’s oceans is such a huge deal in the history of life that all of the eons
that came before it — the Hadean, Archean, and the Proterozoic — are collectively known
as the Precambrian. At the start of the Paleozoic, over about
25 million years, the fossil record suddenly reveals the appearance of complex animals
with mineralized remains. Y’know, hard parts — shells, exoskeletons,
that kind of thing. And the first of these new animals to become
truly widespread were the trilobites. They were so common all over the world that
they’ve been used as index fossils for the Palaeozoic Era for centuries, ever since the
days of William Smith. But the trilobites soon had competition. Fish developed teeth and jaws, and came to
dominate the seas, including the first sharks and armored giants known as placoderms. Meanwhile, the land, which had been barren
since the formation of continents back in the Archean, was finally being populated — first
by plants and then by arthropods. By 370 million years ago entire ecosystems
had developed on the primeval continents. Soon after, the earliest amphibians evolved
and hauled themselves out of the water, leaving the first vertebrate footprints in the mud. 299 million years ago, the supercontinent
Pangea had formed, with an enormous desert at its center. This desert was quickly populated by the ancestors
of what would eventually become reptiles and mammals, which could thrive in dry conditions,
unlike amphibians. But this time of incredible growth couldn’t
last forever. and instead, the Palaeozoic Era ended in cataclysm. 252 million years ago, 70% of land vertebrates
and 96% of marine species disappeared from the fossil record, including survivors
of previous extinctions, like our friends the trilobites. I still miss those guys. The event, known as the Great Dying, was the
most severe extinction in our planet’s history. But its exact cause is still unclear. A possible meteorite impact site off the coast
of South AmericaIslands, might be one clue. And in Siberia, layers of basalt show that
massive volcanic eruptions covered large swaths of Pangea in lava. Both of these incidents coincided with the
end of the Palaeozoic, and it seems more than likely that the extinction had many causes. In any case, the Palaeozoic may have begun
as a chapter defined by an explosion of life, but it ended in nearly absolute death. It took millions of years for life to recover,
but when it did, a new world, The Mesozoic Era, had arrived. This is often called the Age of Reptiles,
and with good reason. Right from the start of the Mesozoic, reptiles
were incredibly successful. This is when they took some of their most
famous forms, including dinosaurs, pterosaurs, and a variety of marine species. In fact, all of the non-avian dinosaurs lived
only in the Mesozoic, so they remain one of the best index fossils of this era. And many modern groups of organisms also evolved
in the shadow of the reptiles, like mammals frogs, bees, and flowering plants. But the Mesozoic Era came to an end 66 million
years ago, with yet another episode of devastation, known as the Cretaceous-Paleogene, or K-Pg,
Extinction Event. Like all mass die-offs, the K-Pg had many
causes, but probably the biggest of them was a gigantic asteroid that struck the earth,
sending out enormous amounts of ash into the atmosphere, blocking out sunlight, and creating
a vicious cold snap across the planet. Without the sun’s energy, entire plant communities
died, and the animals that relied on those plants perished with them. Evidence of this impact can be found in a
layer of iridium, in rocks dating to the end of the Mesozoic. Iridium is an element that’s rare on Earth,
but very common in asteroids and comets. And a giant impact crater in the Gulf of Mexico,
whose age matches the date of this extinction has become the smoking gun for the asteroid
hypothesis. The victims of the K-Pg Extinction were some
of the biggest reptiles of the land, sea and sky, including all of what we NOW call the
non-avian dinosaurs. Birds survived the cataclysm, of course, making
them the last surviving lineage of the dinosaurs. Ok we have 66 million years to go and that’s the last major extinction event that we have to talk about. I thought you might want to freshen up so I bought these pre-moistened toilettes just going to you have some Iridium Here. On this side. On your forehead. Other side. With all of the great reptiles gone, the smaller
animals that remained were able to eke out a living in the next era, the Cenozoic. This is our era, in more ways than one. It’s the era that we’re in today, and
it also marks the rise of the mammals. Soon after the K-Pg extinction, the climate
warmed, and jungles stretched across the planet. Mammals quickly recovered in this hothouse
world, and by 40 million years ago, most of the mammal groups that we recognize had come
about, like whales, bats, rodents and primates. But, starting 34 million years ago, the climate
began to shift again. This time Ice caps started to grow at the poles, taking
up much of the planet’s water. And these drier conditions created a new habitat,
the grassland, where ancestral horses and antelope were first hunted by the earliest
cats and dogs. It was also on these grassy plains 7 million
years ago that a species of ape known as Sahelanthropus became the first known primate to walk upright. 2.6 million years ago, the ice caps expanded
even more, and the Earth entered a glacial period. This is the one you hear referred to as The
Ice Age. Over the course of these last several million
years, most modern lifeforms that we know about developed and thrived, alongside giants
like mammoths, ground sloths and saber-toothed cats. Once again, though, this era of lush diversity
came to a morbid end: Starting around 15,000 years ago, the climate began to warm up. And over the next few thousand years, many
of the giant fauna went extinct. By 11,700 years ago, the last major glaciation
was over, and modern humans inhabited nearly all corners of the globe. But how big a role we played in the extinction
of the so-called Ice Age megafauna is hotly debated. Regardless, there’s no escaping the fact
that our species has shaped the Earth to its will since then. Like cyanobacteria, and the dinosaurs before
us, we’ve had a huge impact on habitats, other organisms, and the biosphere itself. And as we’ve learned today, it’s the most
dominant forms of life that define each phase of deep time. So, even though our time on this planet amounts
to the last word on the last page of the story of life, we are the authors of the next chapter. One day, the epoch of humans may be detected
by the marks we made on the land, the traces of our cities and farms. And our very bodies will be the index fossils
of this time. No matter how our chapter ends up, we get
to be characters in a truly amazing story. Thanks for joining me for this epic — or
ee pok — journey through geologic time. Now, what do you want to know about the story
of life on Earth? Let us know in the comments. And don’t forget to go to youtube.com/eons
and subscribe! And the fun doesn’t end here! Do yourself a favor and check out some of
our sister channels from PBS Digital Studios.

100 thoughts on “A Brief History of Geologic Time

  1. What a great way to describe. Like us who has never been able to have lesson about this but now it became so interesting. Thank goodness, YouTube is not boring anymore. Thanks a lot to all people who work on this from the bottom of my heart.

  2. You state that Eons will cover the Periods for each Era in future videos. However, the obtuse names chosen for the videos make it very difficult to tell which videos cover which eras or periods. Some can be guessed, but others are more obscure. For example, "The Other Explosion You Should Know About"… when was that? What event or period was this? For a teacher, it makes finding appropriate videos very difficult.

  3. "How big a role we played in the extinction is highly debated." The answer is big. Megafauna became extinct because of hunting: as soon as Sapiens got to a new continent, it's megafauna soon collapsed. And this happened in several separate occasions, which kind of wipes away the climate change theory.

  4. Does anyone know where they got their background music from? I bet it's perfect for studying/walking???

  5. The 'CH' in Charnia is pronounced like the 'CH' in Church'. It's named after the Charnwood Forest in Leicestershire in England.

  6. The great dying probably happened by a meteor that killed the ocean animals and in different time but not at the same time and when the volcano exploded it probably killed the land animals. Probably a 100 year gap?

  7. Ah, you skipped CO2’s rapid decline during glaciated ice age events killing plant life at higher altitudes aka the tree line until the gobi desert grasslands die, leading to vast northern hemispheric dust storms darkening and melting snowball earth.

  8. I wish your show had been available years ago when I was going through grade school and high school. I used to dream of such audio-visually immersive educational film videos.

    Speak slower, dude. I want to absorb everything you are saying in your narrative.

  9. OK everyone .. Here is a question to Bohol our minds !!.. Way are we "human beings" so ubsest with life ? Way when we dig up a lode of old bones and peace it together and find an big reptile from ages ago do we go whhooooww !!..and even the other life on the planet now and looking out into outer space to see of their is other life ?..way is mankind so ubsest with it? It fascinates way we are so fascinated …lol.

  10. I actually like that thought; being an index fossil one day. Makes me feel like my life and death will mean something. I dunno. Just a thought. I gotta find the right conditions to get fossilized, though. ? Haha! Me and my weird thoughts. ?

  11. Everyone is talking about the Cambrian explosion part but no-one is talking about 10:26 where he mentions the big ice age and then goes on to list giant mammoths, sloths and saber tooths… talk about a reference there lmao.

  12. I love to know more about fossils and how to find them. How do scientists find out about life style of animals only by the mark of their corpse in the rock? I have some clues but I want to know more

  13. A question for Eons, are you all atheists? I feel like it would be hard to stick to a religion because of how much you all know and how much religion doesn’t.

  14. if you enjoyed the vid and you like metal you should check out The Ocean Collective – many of their songs are named after geoligical times or their songs itself have something to do with it.

  15. There’s a playback glitch shortly after 5:00… Playback falls to 360p, and when you re-set it to bigger resolution, a playback error follows shortly thereafter.

  16. Logic must have evaded humans for a long time- fossils falling from the sky – wow – I guess anyone with a logical conclusion can seem like a genius compared to

  17. Two years later this is still an excellent video. And the information is still current … we're still in the Phanerozoic Eon …

  18. Tip: If you want to hear this awesome video at normal speed (so you don't miss any of the fascinating info), just change the playback speed to .75.

  19. I just found out I have not passed on my X mitochondria to my heirs, son only, grandson only. Even so, I doubt I will be a marker fossil, either.

  20. This series reminds me of my youth, reading At the Mountains of Madness for the first time. HPL sparked a lot of my fascination with geology and deep time.

  21. William Smith did his work in 1790-1815, not 1890. James Hutton was also a major name in generating ideas, around the1780s and later. The Coca Cola bottle, allied to widespread nuclear fall-out for dating, will be the world's most superb zone (index) fossil as it will be found in all environments, from deserts to the deepest sediments in the oceans.Though future palaeontologists will wonder why its carapace changed abruptly from silica to polycarbonate in just a few years. Perhaps it is in answer to the rise of the CD-ROM and DVD, which occurred at about the same time, with the silica-based organism finding it more beneficial to eat CDs and DVDs and thus evolving a more resilient carapace through consumption of this new source of food.

    Regrettably, the video forgot to mention the "Global Snowball" of the latest Proterozoic.

  22. If i could go to back in time to one time, it would either be when it a was all jungle in the cenozoic or anytime in the mesozoic because dinosaurs

  23. What an amazing channel! Too cool for school! But seriously, love how you condensed the whole story of earth!!!

  24. Oh come on dude! Back off on the coffee! The information doesn't sink in any faster if you blitz us with a withering blast of words! I have the ability to read at a rate substantially faster than most people but my limit comes about as a consequence of how quickly I can convert it to auditory data. I don't know what your point might be by trying to do here, whether it's to beat out some auctioneer or just try to make yourself seem more intelligent. or some twisted crap. Either way, you failed. Just take a breath and slow down!

  25. Here because I woke up from a terrifying nightmare about swimming in a pool with various prehistoric sea creatures divided by periods in history. Not fun getting your leg pulled in by some large shark in the Paleozoic period and swimming over to the Mesozoic section of the pool only to get pulled in by some other bizzarre tentacle creature.

  26. he always misses the trilobytes 🙁

    I thought grass developed as C4 type plants to deal with the decrease of Co2 ?

Leave a Reply

Your email address will not be published. Required fields are marked *