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The evolution of the human eye - Joshua Harvey

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    The human eye is an amazing mechanism,
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    able to detect anywhere
    from a few photons to direct sunlight,
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    or switch focus from
    the screen in front of you
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    to the distant horizon
    in a third of a second.
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    In fact, the structures required
    for such incredible flexibility
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    were once considered so complex
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    that Charles Darwin himself acknowledged
    that the idea of there having evolved
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    seemed absurd in the
    highest possible degree.
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    And yet, that is exactly what happened,
    starting more than 500 million years ago.
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    The story of the human eye begins
    with a simple light spot,
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    such as the one found
    in single-celled organisms,
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    like euglena.
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    This is a cluster
    of light-sensitive proteins
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    linked to the organism's flagellum,
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    activating when it finds light
    and, therefore, food.
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    A more complex version of this light spot
    can be found in the flat worm, planaria.
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    Being cupped, rather than flat,
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    enables it to better sense
    the direction of the incoming light.
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    Among its other uses,
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    this ability allows an organism
    to seek out shade and hide from predators.
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    Over the millenia,
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    as such light cups grew deeper
    in some organisms,
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    the opening at the front grew smaller.
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    The result was a pinhole effect,
    which increased resolution dramatically,
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    reducing distortion by only allowing
    a thin beam of light into the eye.
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    The nautilus,
    an ancestor of the octopus,
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    uses this pinhole eye for improved
    resolution and directional sensing.
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    Although the pinhole eye allows
    for simple images,
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    the key step towards the eye
    as we know it is a lens.
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    This is thought to have evolved
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    through transparent cells covering
    the opening to prevent infection,
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    allowing the inside of the eye
    to fill with fluid
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    that optimizes light sensitivity
    and processing.
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    Crystalline proteins
    forming at the surface
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    created a structure that proved useful
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    in focusing light
    at a single point on the retina.
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    It is this lens that is the key
    to the eye's adaptability,
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    changing its curvature to adapt
    to near and far vision.
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    This structure of the pinhole camera
    with a lens
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    served as the basis for what would
    eventually evolve into the human eye.
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    Further refinements would include
    a colored ring, called the iris,
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    that controls the amount
    of light entering the eye,
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    a tough white outer layer,
    known as the sclera,
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    to maintain its structure,
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    and tear glands that secrete
    a protective film.
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    But equally important
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    was the accompanying evolution
    of the brain,
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    with its expansion of the visual cortex
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    to process the sharper
    and more colorful images it was receiving.
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    We now know that far from being
    an ideal masterpiece of design,
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    our eye bares traces
    of its step by step evolution.
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    For example,
    the human retina is inverted,
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    with light-detecting cells facing away
    from the eye opening.
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    This results in a blind spot,
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    where the optic nerve
    must pierce the retina
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    to reach the photosensitive
    layer in the back.
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    The similar looking eyes
    of cephalopods,
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    which evolved independently,
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    have a front-facing retina,
    allowing them to see without a blind spot.
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    Other creatures' eyes display
    different adaptations.
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    Anableps, the so called four-eyed fish,
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    have eyes divided in two sections
    for looking above and under water,
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    perfect for spotting
    both predators and prey.
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    Cats, classically nighttime hunters,
    have evolved with a reflective layer
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    maximizing the amount of light
    the eye can detect,
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    granting them excellent night vision,
    as well as their signature glow.
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    These are just a few examples of the huge
    diversity of eyes in the animal kingdom.
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    So if you could design an eye,
    would you do it any differently?
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    This question isn't as strange
    as it might sound.
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    Today, doctors and scientists are looking
    at different eye structures
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    to help design biomechanical implants
    for the vision impaired.
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    And in the not so distant future,
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    the machines built with the precision
    and flexibilty of the human eye
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    may even enable it to surpass
    its own evolution.
Title:
The evolution of the human eye - Joshua Harvey
Speaker:
Joshua Harvey
Description:

View full lesson: http://ed.ted.com/lessons/the-evolution-of-the-human-eye-joshua-harvey

The human eye is an amazing mechanism, able to detect anywhere from a few photons to a few quadrillion, or switch focus from the screen in front of you to the distant horizon in a third of a second. How did these complex structures evolve? Joshua Harvey details the 500 million year story of the human eye.

Lesson by Joshua Harvey, animation by Artrake Studio.
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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
04:44

  • Denise RQ

    A quick note, thanks :)

    0: 33 of there having evolved ---- of their ....
    3.00 our eye bares traces---- bears traces

English subtitles

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