Lecture 10 for upload.pptx

Full Transcript

The Visual System
Announcements
Next Tuesday (10/8): Extra review session during class
time with Nilu
Study guide and extra practice questions provided
Attendance will be recorded
Chapter 10 (Vision)
Vision
What is
vision?
What is light?
Range of responsiveness
 Photoreceptors
Rods: scotopic vision
- Low light levels
- More sensitive to light
- 90 million in retina,
concentrated in periphery

Cones: photopic vision
- High light levels
- High visual acuity
- 4.5 million in retina,
concentrated in fovea
(inside macula)
 Photoreceptors
Rods: scotopic vision
- Low light levels
- More sensitive to light
- 90 million in retina,
concentrated in periphery

Cones: photopic vision
- High light levels
- High visual acuity
- 4.5 million in retina,
concentrated in fovea
(inside macula)
Human Dog
Human Garden Snail
Visual field
Visual fields correspond to portions of the
retina
Visual Pathway
 Summary: the visual pathway

Photoreceptors
Anatomy of the eye
1. Fibrous tunic:
Sclera: white outer coating of eye
Cornea: transparent; covers iris and
pupil
2. Vascular tunic:
Iris: colored tissue around the pupil
Ciliary body:
Choroid:
3. Retina:
Pigmented layer: tight layer of cells
between choroid and photoreceptors
Neural layer: contains retinal cells
 Summary: the visual pathway

Photoreceptors

Retinal ganglion
cells
Organization of the retina
Cell layers of the retina
Photoreceptors

Photopic system (cones)
Three opsins:
Scotopic system (rods) S-cone opsin: blue
Rhodopsin M-cone opsin: green
Convergence: many rods synapse on a single bipolar L-cone opsin: red
cell Less convergence: some ganglion cells
Slow receive information from only a single cone
Fast
Lateral inhibition: horizontal cells
Lateral inhibition: horizontal cells
Retinal ganglion cells
Beta cells (Parvocellular)
Central retina
Input mainly from cones
Good for color, detail
Alpha cells (Magnocellular)
Located in peripheral retina
Input mainly from rods
Good for motion and contrast detection
 Summary: the visual pathway

Photoreceptors

Retinal ganglion
cells

Optic nerve

Optic chiasm

Optic tract
 Summary: the visual pathway

Receptor
Photoreceptors
Thalamus

Retinal ganglion
cells

Optic nerve

Optic chiasm

Optic tract Superior colliculus

Lateral geniculate
nucleus
The lateral geniculate nuclei

LGN

Primary visual
cortex (occipital
lobe)
 Summary: the visual pathway

Receptor
Photoreceptors
Thalamus

Retinal ganglion
cells

Optic nerve Cortex

Optic chiasm

Optic tract

Lateral geniculate
nucleus
Inferior visual field (space):
Superior Retina
Dorsomedial LGN
Direct route to Cuneus (superior bank of
calcarine sulcus)

Superior visual field (space):
Inferior Retina
Ventrolateral LGN
Indirect route to Lingual gyrus (inferior bank of calcarine
sulcus)
 Summary: the visual pathway

Receptor
Photoreceptors
Thalamus

Retinal ganglion
cells

Optic nerve Cortex

Optic chiasm

Optic tract

Lateral geniculate
nucleus
Visual Processing
 Two streams hypothesis
Dorsal stream: where is
it?
Parietal lobe
Spatial location
Ventral stream: what is
it?
Temporal lobe
Object identification and
recognition (memory)
Summary: the visual pathway
Dorsal stream: mirror neurons
Color perception
Trichromatic hypothesis
Three colors: blue-sensitive, green-sensitive, red-sensitive
Labeled lines
Opponent-process hypothesis
Four hues and three opposed pairs
White and black
Blue and yellow
Green and red
Support for trichromatic hypothesis
Each cone responds to a specific range of wavelengths
Each cone has one of three types of pigments

Problem: we can see more than three colors
Support for opponent-process
hypothesis

An object of any color stimulates at
least two types of cones
We can see a range of colors with
high acuity

Implication: cones are not color
receptors
Form (rods) and color (cones) are
created in the cortex, not at the
level of the receptor
Rods are not form specific: they respond to single points
of light
Cones are not color specific: they respond to ranges of
wavelengths of light
The dress that broke the internet
Practice questions
Describe a situation in which you might be relying on
scotopic vision. Explain how light in this scenario would
be sensed and processed from the photoreceptors to
the cortex.
Describe a situation in which you might be relying on
photopic vision. Explain how light in this scenario
would be sensed and processed from the
photoreceptors to the cortex.

Look at each ”stop” of the visual pathway for one side
of the brain (right or left). Draw a picture showing what
portion of the visual field and which eye are involved.