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Chapter 29 The Senses  All animal senses originate in sensory receptors, specialized cells or neurons that are tuned to the –conditions of the external.

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Presentation on theme: "Chapter 29 The Senses  All animal senses originate in sensory receptors, specialized cells or neurons that are tuned to the –conditions of the external."— Presentation transcript:

1 Chapter 29 The Senses  All animal senses originate in sensory receptors, specialized cells or neurons that are tuned to the –conditions of the external world and –the internal organs.  All sensory receptors –trigger an electrical signal (action potential) from neurons and –send information to the central nervous system. © 2012 Pearson Education, Inc.

2 29.3 Specialized sensory receptors detect five categories of stimuli  There are five categories of sensory receptors. 1. Pain receptors detect dangerous stimuli including high heat and pressure. 2. Thermoreceptors detect heat or cold. 3. Mechanoreceptors respond to –mechanical energy, –touch, –pressure, and –sound. © 2012 Pearson Education, Inc.

3 4. Chemoreceptors –include sensory receptors in our nose and taste buds and –respond to chemicals. 5. Electromagnetic receptors respond to –electricity, –magnetism, and –light (sensed by photoreceptors) in humans. 29.3 Specialized sensory receptors detect five categories of stimuli © 2012 Pearson Education, Inc.

4 Figure 29.3A HeatLight touch Epidermis PainCold Hair Dermis Nerve to brain Connective tissue Hair movement Strong pressure

5 29.4 The ear converts air pressure waves to action potentials that are perceived as sound  The human ear channels sound waves –from the outer ear with a flap-like pinna, –down the auditory canal, –to the eardrum, which separates the outer ear from the middle ear, –to a chain of bones in the middle ear (malleus, incus, and stapes), and –to the fluid in the coiled cochlea in the inner ear that is lined with hair-like nerve cells. –The Eustachian tube connects the pharynx to the middle ear, permitting pressure equalization. © 2012 Pearson Education, Inc.

6 Figure 29.4A Outer ear Inner ear Pinna Auditory canal Eardrum Middle ear Eustachian tube

7  Pressure waves transmitted to the fluid of the cochlea –stimulate hair cells in parts of the cochlea (organ of Corti and basilar membrane) and –trigger nerve signals to the brain. 29.4 The ear converts air pressure waves to action potentials that are perceived as sound © 2012 Pearson Education, Inc.

8  Deafness is the loss of hearing.  Deafness can be caused by the inability to detect sounds resulting from –middle-ear infections, –a ruptured eardrum, or –stiffening of the middle-ear bones.  Deafness –can also result from damage to sensory receptors or neurons and –is often progressive and permanent. 29.4 The ear converts air pressure waves to action potentials that are perceived as sound © 2012 Pearson Education, Inc.

9 29.5 The inner ear houses our organs of balance  Three organs in the inner ear detect body position and movement. These include –three semicircular canals and –two chambers, the utricle and the saccule. –All three of these structures operate by bending of hairs on hair cells (clusters of hair cells are called cupula).  The three semicircular canals detect changes in the head’s rotation or angular movement.  The utricle and saccule detect the position of the head with respect to gravity. © 2012 Pearson Education, Inc.

10 Figure 29.5 Semicircular canals Nerve Cochlea Saccule Utricle Flow of fluid Cupula Flow of fluid Cupula Hairs Hair cell Nerve fibers Direction of body movement

11 29.7 Several types of eyes have evolved independently among animals  The ability to detect light plays a central role in the lives of nearly all animals.  All animal light detectors are based on cells called photoreceptors that contain pigment molecules that absorb light. © 2012 Pearson Education, Inc.

12 29.7 Several types of eyes have evolved independently among animals  Most invertebrate eyes include some kind of light- detecting organ.  One of the simplest organs is the eye cup, –used by platyhelminths called planarians, –which senses light intensity and direction. © 2012 Pearson Education, Inc.

13 Figure 29.7a Dark pigment Eyecups

14 29.7 Several types of eyes have evolved independently among animals  Two major types of image-forming eyes have evolved in the invertebrates. 1. Compound eyes of insects –consist of up to several thousand lenses –function as acute motion detectors, and –usually provide excellent color vision. © 2012 Pearson Education, Inc.

15 Figure 29.7B

16 29.7 Several types of eyes have evolved independently among animals 2.In single-lens eyes –light enters the front center of the eye through a small opening, the pupil, controlled by an iris, –passes through a single disklike lens, and –is focused onto the retina, which consists of many photoreceptor cells and connects to the optic nerve that goes to the brain. –The center of focus is the fovea, where photoreceptor cells are highly concentrated. © 2012 Pearson Education, Inc.

17 Figure 29.7C Sclera Ligament Cornea Iris Pupil Aqueous humor Lens Vitreous humor Blind spot Artery and vein Optic nerve Fovea (center of visual field) Retina Choroid

18 29.7 Several types of eyes have evolved independently  The outer surface of the human eyeball is a tough, whitish layer of connective tissue called the sclera. –At the front of the eye, the sclera becomes the transparent cornea,which –lets light into the eye and –also helps focus light along with ligaments that change the shape of the lens. –The sclera surrounds a pigmented layer called the choroid (posterior iris). The anterior choroid forms the iris, which gives the eye its color. © 2012 Pearson Education, Inc.

19 29.7 Several types of eyes have evolved independently  The lens and ciliary body divide the eye into two fluid-filled chambers. 1.The large chamber behind the lens is filled with a jellylike vitreous humor. 2.The smaller chamber in front of the lens contains the thinner aqueous humor. –These humors –help maintain the shape of the eyeball and –circulate nutrients and oxygen to the lens, iris, and cornea. © 2012 Pearson Education, Inc.


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