1. Biology, 9th ed, Sylvia Mader
Chapter 40
Sense Organs

2. Outline Chemical Senses Sense of Vision Sense of Hearing
Taste
Smell
Sense of Vision
Human Eye
Focusing
Photoreceptors
Sense of Hearing
Sense of Balance
Outline

3. Sensory receptors responsible for taste and smell are termed chemoreceptors
Chemoreception is found almost universally in animals
Thought to be most primitive sense
Chemical Senses

4. In humans, taste buds are located primarily on the tongue
Taste buds open at a taste pore
Have supporting cells and elongated taste cells that end in microvilli
Four primary tastes
Bitter, sour, salty, sweet
Taste buds for each are concentrated on the tongue in particular regions
Sense of Taste

5. b(All): © Omikron/SPL/Photo Researchers, Inc.
Taste Buds in Humans
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
tonsils
epiglottis
sensory nerve fiber
supporting cell
taste pore
10 µm
papillae
taste bud
connective tissue
taste cell
microvilli
a. Tongue
b. Papillae
c. Taste buds
d. One taste bud
b(All): © Omikron/SPL/Photo Researchers, Inc.

6. Sense of Smell Sense of taste and smell Dependent on olfactory cells
Work together to create a combined effect
Interpreted by the cerebral cortex
Dependent on olfactory cells
Located within olfactory epithelium
In the roof of the nasal cavity
Nerve fibers from olfactory cells lead to neuron in the olfactory bulb
Sense of Smell

7. Olfactory Cell Location and Anatomy
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
olfactory bulb
neuron
olfactory tract
frontal lobe of
cerebral hemisphere
olfactory bulb
olfactory epithelium
nasal cavity
odor
molecules
sensory
nerve fibers
olfactory
epithelium a.
supporting
cell
olfactory
cell
olfactory cilia of
olfactory cell b.
odor molecules

8. Sense of Vision Photoreceptors are light sensory receptors Arthropods
Photoreceptors generate nerve impulses which pass to the brain by way of optic nerve fibers
Arthropods
Eyes are compound
Insects have limited color vision
Sense of Vision

9. Compound Eye Compound eye cornea crystalline cone photoreceptor cells
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Compound
eye
cornea
crystalline cone
photoreceptor
cells
pigment
cells
optic
nerve
fibers
Fly head
Ommatidium
© Farley Bridges

10. (Both): © Heather Angel/Natural Visions
Nectar Guides
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
nectar guides
(Both): © Heather Angel/Natural Visions

11. Vertebrates and certain molluscs have a camera-type eye
Single lens focuses an image of the visual field on closely-packed photoreceptors
Sense of Vision

12. The Human Eye Three Layers Sclera - Opaque outer layer
Fibrous layer
Choroid - Thin middle layer
Iris regulates size of pupil
Retina - Inner layer
Contains rod cells and cone cells
The Human Eye

13. Anatomy of the Human Eye
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
sclera
choroid
retina
ciliary body
retinal blood
vessels
lens
iris
optic nerve
pupil
fovea centralis
cornea
posterior compartment
filled with vitreous humor
anterior
compartment
filled with
aqueous humor
retina
suspensory
ligament
choroid
sclera

14. Light rays pass through the pupil and are focused on the retina
Focusing starts at the cornea and continues as rays pass through the lens and humor
Shape of lens is controlled by ciliary muscles
Distant Object - Muscles Relaxed
Near Object - Muscles Contracted
Focusing the Eye

15. With normal aging, the lens loses its ability to accommodate for near objects
Also may make lens subject to cataracts
Nearsighted
Elongated eyeball - Wear concave lenses
Farsighted
Shortened eyeball - Wear convex lenses
Focusing the Eye

16. Functions of the Parts of the Eye

17. Focusing of the Human Eye
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
ciliary muscle relaxed
lens flattened
light rays
suspensory ligament taut
a. Focusing on
distant object
ciliary body
ciliary muscle contracted
lens rounded
b. Focusing on
near object
suspensory ligament relaxed

18. Common Abnormalities of the Eye with Possible Corrective Lenses
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
normal
eyeball
Long eyeball; rays focus in front of
retina when viewing distant objects.
Concave lens allows subject
to see distant objects.
a. Nearsightedness
normal
eyeball
Short eyeball; rays focus behind
retina when viewing close objects.
Convex lens allows subject
to see close objects.
b. Farsightedness
Uneven cornea;
rays do not focus evenly.
Uneven lens allows subject
to see objects clearly.
c. Astigmatism

19. Photoreceptors of the Eye
Both rods and cones have an outer segment joined to an inner segment
Pigment molecules are embedded in membrane of disks in the outer segment
Rhodopsin
Rods permit vision in low light
Peripheral vision and motion
Cones permit vision in bright light
Fine detail and color
Photoreceptors of the Eye

20. Photoreceptors in the Eye
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
ion
channels
close
membrane of disk
cascade of reactions
rod cell
light
rays
outer segment
cone cell
ion channels
in plasma
membrane
retinal
inner segment
cell body
opsin
nucleus
synaptic
vesicles
membrane
of disk
Rhodopsin molecule
(opsin + retinal)
synaptic endings
20 µm
© Lennart Nilsson, from The Incredible Machine

21. Integration of Visual Signals in the Retina
Retina has three layers of neurons
Layer closest to choroid contains rod and cone cells
Middle layer contains bipolar cells
Innermost layer contains ganglion cells
Synaptic integration and processing
Begin in the retina
Then impulses are sent to the brain

22. Structure and Function of the Retina
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
sclera
choroid
rod cell
and cone
cell layer
choroid
bipolar
cell layer
retina
optic
nerve
ganglion
cell layer
axons of
ganglion cells
b. Micrograph of retina
blind
spot
to optic nerve
light rays
a. Location of retina
b: © Biophoto Associates/Photo Researchers, Inc.

23. Sense of Hearing and Balance
Anatomy of the Ear
Outer ear - Pinna and auditory canal
Middle ear begins at tympanic membrane and ends at oval and round windows
Ossicles found between tympanic membrane and the windows
Auditory tube (eustachian tube) extends from middle ear to nasopharynx
Inner ear has three areas
Semicircular canals
Vestibule
Cochlea
Sense of Hearing and Balance

24. Anatomy of the Human Ear
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Outer ear
Middle ear
Inner ear
stapes
semicircular canals
incus
malleus
vestibule
vestibular
nerve
pinna
cochlear
nerve
tympanic
membrane
cochlea
auditory
canal
round window
auditory
tube
earlobe

25. Process of Hearing Sound waves enter the auditory canal
Strike tympanic membrane, causing it to vibrate
Malleus takes pressure from inner surface of tympanic membrane
Passes it to the stapes, multiplying the pressure along the way
Stapes strikes membrane of oval window, passing pressure to fluid within cochlea
Process of Hearing

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Animation

27. Spiral Organ, hair cells of cochlear canal, synapse with nerve fibers of cochlear nerve
Mechanoreceptors for sound are the hair cells of cochlear canal
Sound causes basilar membrane to vibrate
The stereocilia of the hair cells bend
Stimulates nerve cells leading to the auditory center
Process of Hearing

28. Mechanoreceptors for Hearing
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
semicircular
canals
cochlea
stapes
oval window
round window
vestibular
canal
cochlear
canal
tympanic
canal
cochlear
nerve
Cochlea cross section
tectorial membrane
stereocilia
basilar
membrane
hair cell
tympanic
canal
cochlear nerve
Organ of Corti
Stereocilia
2 µm

29. Mechanoreceptors of rotational equilibrium are in semicircular canals
Detect rotational and/or angular movements of the head
Maintain rotational equilibrium
Cupula
Mechanoreceptors of gravitational equilibrium are in the utricle and saccule
Detect straight-line movements of the head in any direction
Maintain gravitational equilibrium
Otolithic Membrane
Sense of Balance

30. Mechanoreceptors for Equilibrium
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
receptor in ampulla
endolymph
semicircular
canals
vestibular nerve
ampullae
cochlea
utricle
saccule
endolymph
cupula
stereocilia
otoliths
hair cell
otolithic
membrane
hair cell
supporting cell
supporting
cell
vestibular nerve
vestibular
nerve
flow of endolymph
flow of otolithic
membrane
kinocilium
stereocilia
a. Rotational equilibrium: receptors in ampullae of semicircular canal
b.Gravitational equilibrium: receptors in utricle and saccule of vestibule

31. Sensory Receptors in Other Animals
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
skin
water
scale
external opening
hair cells
cilia
hair
cell
cupula
lateral line
nerve
lateral line
canal a.
dendrites
of sensory
neurons
statolith b.

32. Review Chemical Senses Sense of Vision Sense of Hearing
Taste
Smell
Sense of Vision
Human Eye
Focusing
Photoreceptors
Sense of Hearing
Sense of Balance
Review

33. Biology, 9th ed, Sylvia Mader
Chapter 40
Sense Organs
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
(Both): Courtesy of The Virginia Bloodhound Search and Rescue Association