The History of Life

By Zareen_Ahmed
  • 4530 BCE

    Solar System Found

    Solar System Found
    Earth and the other planets of the solar system formed, condensing from a vast cloud of dust and roach that surrounded the young sun.
  • Period: 4530 BCE to

    Scale

    Multiple the year by 1,000,000 to find the correct year.
    Example:
    4,530 BCE --> 4,530,000,000 BCE or 4.53 Billion BCE
  • 4500 BCE

    Rocks on Earth

    Rocks on Earth
    Oldest known rocks on Earth’s surface, located at a site called Issua in Greenland, existed.
  • 4500 BCE

    Life from Space

    Life from Space
    Fragments of a 4.5-billion-year-old chondrite collected in southern Australia containing more than 80 amino acids shows that first life on Earth may have come from space.
  • 3900 BCE

    Earth began to cool

    Earth began to cool
    Earth began to cool to a temperature at which liquid water could exist, and thus life could exist.
  • 3800 BCE

    First Life

    First Life
    First life may have developed in undersea alkaline vents
  • 3500 BCE

    Oldest known fossils created

    Oldest known fossils created
    Oldest known fossils, fossils of stromatolites, come into existence
  • 3500 BCE

    First cells use solar energy

    First cells use solar energy
    The first cells began to use the sun's energy and convert it into their own energy.
  • 3460 BCE

    Single-celled Organisms

    Single-celled Organisms
    Some single-celled organisms may be feeding on methane by this time.
  • 2400 BCE

    The Great Oxidation Event

    The Great Oxidation Event
    Supposedly, the poisonous waste produced by photosynthetic cyanobacteria – oxygen – started to build up in the atmosphere. Dissolved oxygen makes the iron in the oceans “rust” and sink to the seafloor, forming striking banded iron formations and making life more viable.
  • 2300 BCE

    Snowball Earth

    Snowball Earth
    Earth freezes over in what may have been the first “snowball Earth”, possibly as a result of a lack of volcanic activity. When the ice eventually melts, it indirectly leads to more oxygen being released into the atmosphere.
  • 2200 BCE

    Algae emerges

    Algae emerges
  • 2000 BCE

    Eukaryotic cells emerge

    Eukaryotic cells emerge
  • 1500 BCE

    Eukaryotes divide

    Eukaryotes divide
    Eukaryotes divide into three groups
  • 1000 BCE

    Animal phyla originated

    Animal phyla originated
    Animal phyla originated and began to diverge, showing the creation of varying species and new animals.
  • 900 BCE

    First multicellular life develops

    First multicellular life develops
  • 800 BCE

    Multicellular animals undergo their first splits

    Multicellular animals undergo their first splits
    First they divide into, essentially, the sponges and everything else – the latter being more formally known as the Eumetazoa.
  • 770 BCE

    Second Snowball Earth

    Second Snowball Earth
    The planet freezes over again in another “snowball Earth“.
  • 750 BCE

    Ice Age

    Ice Age
    Severe ice age occurred, reducing the speed at which life was being formed.
  • 730 BCE

    Comb jellies split

    Comb jellies split
    The comb jellies (ctenophores) split from the other multicellular animals.
  • 680 BCE

    Cnidarians emerge

    Cnidarians emerge
    The ancestor of cnidarians (jellyfish and their relatives) breaks away from the other animals – though there is as yet no fossil evidence of what it looks like.
  • 590 BCE

    Bilateral symmetry begins

    Bilateral symmetry begins
    Around this time, some animals evolve bilateral symmetry for the first time
  • 590 BCE

    Bilateria splits into protostomes and deuterostomes

    Bilateria splits into protostomes and deuterostomes
    The Bilateria, those animals with bilateral symmetry, undergo a profound evolutionary split. They divide into the protostomes and deuterostomes.
  • 565 BCE

    Moving animals emerge

    Moving animals emerge
    Fossilised animal trails suggest that some animals are moving under their own power.
  • 541 BCE

    The Cambrian explosion

    The Cambrian explosion
    The Cambrian explosion was the relatively short evolutionary event, beginning around 541 million years ago in the Cambrian period, during which most major animal phyla appeared, as indicated by the fossil record.
  • 530 BCE

    First vertebrates appear

    First vertebrates appear
    The first true vertebrate – an animal with a backbone – appears. It probably evolves from a jawless fish that has a notochord, a stiff rod of cartilage, instead of a true backbone. The first vertebrate is probably quite like a lamprey, hagfish or lancelet.
  • 500 BCE

    Macroscopic life colonizes land

    Macroscopic life colonizes land
    Macroscopic life in the form of plants, fungi, and animals did not colonize land until about 500 million years ago. This gradual evolutionary venture was associated with adaptations that helped prevent dehydration and made it possible to reproduce on land.
  • 489 BCE

    The Great Ordovician Biodiversification Event

    The Great Ordovician Biodiversification Event
    The Great Ordovician Biodiversification Event begins, leading to a great increase in diversity. Within each of the major groups of animals and plants, many new varieties appear.
  • 465 BCE

    Plants arrive on land

    Plants arrive on land
    Plants begin colonizing the land.
  • 428 BCE

    Centipedes first land creature

    Centipedes first land creature
    Pneumodesmus newmani is a species of millipede that lived 428 million years ago, in the Late Silurian. It is the first myriapod, and the oldest known creature to have lived on land.
  • 397 BCE

    Tetrapods evolve

    Tetrapods evolve
    The first four-legged animals, or tetrapods, evolve from intermediate species such as Tiktaalik, probably in shallow freshwater habitats. The tetrapods go on to conquer the land, and give rise to all amphibians, reptiles, birds and mammals.
  • 370 BCE

    First amphibians

    First amphibians
    The first major groups of amphibians developed in the Devonian period, around 370 million years ago, from lobe-finned fish which were similar to the modern coelacanth and lungfish. These ancient lobe-finned fish had evolved multi-jointed leg-like fins with digits that enabled them to crawl along the sea bottom.
  • 250 BCE

    End of the world, almost.

    End of the world, almost.
    The Permian period ends with the greatest mass extinction in Earth’s history, wiping out great swathes of species, including the last of the trilobites.
  • 200 BCE

    Dinosaurs control world

    Dinosaurs control world
    By the year 200,000,000 BCE, dinosaurs reigned through and ruled throughout the entire world, being the dominant inhabitiants of Earth.
  • 168 BCE

    First birds emerge

    First birds emerge
    A half-feathered, flightless dinosaur called Epidexipteryx, which may be an early step on the road to birds, lived in China.
  • 130 BCE

    First flowering plants

    First flowering plants
    The first flowering plants emerge, following a period of rapid evolution.
  • 93 BCE

    Ocean becomes oxygen-deprived

    Ocean becomes oxygen-deprived
    The oceans become starved of oxygen, possibly due to a huge underwater volcanic eruption. Twenty-seven percent of marine invertebrates are wiped out.
  • 65 BCE

    Dinosaur extinction

    Dinosaur extinction
    By the year 65,000,000 BCE, all dinosaurs had gone extinct. According to scientists who maintain that dinosaur extinction came quickly, the impact must have spelled the cataclysmic end.
  • 40 BCE

    First simians

    First simians
    New World monkeys become the first simians (higher primates) to diverge from the rest of the group, colonizing South America.
  • 7 BCE

    Gorillas evolve

    Gorillas evolve
    Gorillas branch off from the other great apes.
  • 6 BCE

    Humans evolve

    Humans evolve
    Humans diverge from their closest relatives; the chimpanzees and bonobos.