Chapter 41: Sensory Systems

Question 1

What is echolocation?

Answer 1

bats use this to see in the dark. They send out sound waves and then the waves bounce off objects and the bats can then put together a picture of their surroundings.

gives them secondary vision

Question 2

What is a stimulus?

Answer 2

a change in the internal or external environment that can be detected by the organism’s body

Question 3

What detects a stimulus?

Answer 3

sensory receptors

Question 4

What are the 5 basic types of receptors?

Answer 4

mechanoreceptors, photoreceptors, chemoreceptors, thermoreceptors, nociceptors

Question 5

What is a mechanoreceptors? ex? found in?

Answer 5

Detect mechanical energy when it deforms membranes, physical movement of receptor

ex) auditory receptors in the ears

found in skin, skeletal muscles, walls of blood vessels, and internal organs

Question 6

What is a photoreceptors? ex?

Answer 6

detect the energy of light

ex) found in retina of eye

Question 7

What is a chemoreceptors? ex?

Answer 7

detect specific molecules or chemical conditions (acidity)

ex) taste buds on the tongue

Question 8

What is a thermoreceptors? ex?

Answer 8

detect the flow of heat energy

ex) temperature receptors in the skin

Question 9

What is a nociceptors? ex?

Answer 9

detect tissue damage or noxious chemicals, register their activity as pain

ex) pain receptors are located in the skin and in some internal organs

Question 10

What is a receptive field?

Answer 10

a region in which the receptor responds to a stimulus

Question 11

What are some of the disadvantages of free nerve endings?

Answer 11

they are not as sensitive b/c stimulus has to hit the free nerve exactly

a nerve “pad” increases the receptor field which increases sensitivity

Question 12

What is signal transduction?

Answer 12

conversion of a stimulus into a receptor potential

Question 13

What do photons use for communication?

Answer 13

they use transduction, they are not neurotransmitters

Question 14

What are the 2 ways intensity of a stimulus are registered?

Answer 14

1) frequency of action potentials

2) number and types of afferent neurons that the stimulus activates to generate action potentials in the pathway

Question 15

What is sensory adaptation?

Answer 15

the frequency of action potentials generated in afferent neurons is reduced when the intensity of a stimulus remains constant

increases the sensitivity of receptor systems to changes in environmental stimuli, which may be more important to survival than constant factors

Question 16

How does perceptions differ from reality?

Answer 16

• Lack receptors for some types of energy (e.g., X-rays)

* Sensory input is processed in various ways

Question 17

How does a mechanical stimulus work?

Answer 17

creates tension in the plasma membrane of a receptor which causes ion channels to open, producing a receptor potential

Question 18

What are the types of receptors for touch and pressure human skin has?

Answer 18

free nerve endings, Pacinian corpuscles, Ruffini endings, and Meissner’s corpuscles

Question 19

What do free nerve endings respond to?

Answer 19

light touch

Question 20

What do pacinian corpuscles respond to?

Answer 20

deep pressure and vibrations—- warning signals

Question 21

What do ruffini endings respond to?

Answer 21

deep pressure

Question 22

What do meissner’s corpuscles respond to?

Answer 22

light touch and surface vibrations

Question 23

What are proprioceptors

Answer 23

a mechanoreceptor that detect stimuli used in the CNS to maintain body balance and equilibrium and to monitor the position of the head and limbs

Question 24

What are muscle spindles?

Answer 24

bundles of specialized muscle cells wrapped with the dendrites of afferent neurons

cerebellum uses this info

Question 25

What is the vestibular apparatus?

Answer 25

in the inner ear responsible for perceiving the position and motion of the head

made of three semicircular canals, the utricle, and the saccule – all filled with a fluid called endolymph

Question 26

What are the semicircular canals?

Answer 26

detect rotational (spinning) motions

Question 27

What is an ampulla?

Answer 27

each semicircular canal has an ampulla at its base, topped with sensory hair cells that synapse with afferent neurons

Question 28

What are sterocilia?

Answer 28

Microvilli (stereocilia) extend into a gelatinous cupula which protrudes into the endolymph of the canals

When the head rotates, displacement of the cupula bends the sensory hair cells – depolarization causes release of neurotransmitters, which trigger action potentials—–allows Na+ to rush in

Question 29

What is the otolitic membrane?

Answer 29

The utricle and saccule contain sensory hair cells covered with a gelatinous otolithic membrane in which small crystals of calcium carbonate (otoliths) are embedded

Question 30

What is the orientation of the sensory hairs when the animal is upright?

Answer 30

sensory hairs in the utricle are oriented horizontal – those in the saccule are vertical

Question 31

What is the orientation of the sensory hairs when the animal is tilted?

Answer 31

sensory hairs bend and action potentials are generated

Question 32

What is the lateral line system?

Answer 32

Fishes and some aquatic amphibians detect vibrations and currents in water through a series of mechanoreceptors in the lateral line system

Question 33

What are neuromasts?

Answer 33

In fish, the mechanoreceptors (neuromasts) also provide information about orientation with respect to gravity and swimming velocity

Question 34

What are statocysts?

Answer 34

fluid-filled chambers with walls that contain sensory hair cells enclosing one or more movable stonelike bodies (statoliths)

When the animal moves, statoliths lag behind the movement, bending the sensory hairs and triggering action potentials

􏰁 Statocysts signal the brain about the body’s position and orientation with respect to gravity

Question 35

What is sound?

Answer 35

vibrations that travel as waves made by alternating compression and rarefraction of the air

Question 36

What does the loundness/intensity of a sound depend on?

Answer 36

amplitude of the wave

Question 37

What does the pitch (how high/low a sound makes) of sound depend on?

Answer 37

frequency of the waves

Question 38

How do invertebrates detect sound?

Answer 38

through mechanoreceptors in their skin or other surface structures

Question 39

How do some insects detect sound?

Answer 39

have complex auditory organs on either side of the abdomen or on the first pair of walking legs

􏰁 These organs consist of a thinned region of the insect’s exoskeleton that forms a tympanum over a hollow chamber

􏰁 Sounds reaching the tympanum cause it to vibrate – mechanoreceptors connected to the tympanum translate the vibrations into nerve impulses

Question 40

What is the outer ear?

Answer 40

external structure (pinna) which concentrates and focuses sound waves

􏰁 Sound waves enter the auditory canal and strike the tympanic membrane (eardrum), which vibrates in response

Question 41

What is the middle ear?

Answer 41

contains three small, interconnected bones: the malleus (hammer), incus (anvil), and stapes (stirrup)

Question 42

What is the oval window?

Answer 42

The stapes fits within an elastic membrane (oval window) and is held in place by a ligament

Question 43

What is the inner ear?

Answer 43

contains the semicircular canals, utricle, saccule, and the cochlea – a spiraled tube

Question 44

What is the structure of the cochlea?

Answer 44

divided into three longitudinal chambers: the vestibular canal, the cochlear duct, and the tympanic canal

Question 45

What is the organ of Corti (spiral organ)?

Answer 45

Within the cochlear duct, the organ of Corti (spiral organ) contains sensory hair cells that detect sound vibrations

Question 46

What is the round window?

Answer 46

At the end of the tympanic canal, sound waves are transmitted to another membrane, the round window

Question 47

What is the basilar membrane?

Answer 47

forms part of the floor of the cochlear duct, anchors sensory hair cells in the organ of Corti

When the basilar membrane vibrates, the stereocilia are bent in relation to the stationary tectorial membrane

Question 48

What is the tectorial membrane?

Answer 48

Stereocilia of these cells are embedded in the tectorial membrane, which extends the length of the cochlear canal

Question 49

What is the cochlear nerve?

Answer 49

carries information through intermediate regions to the thalamus, which routes signals to specific regions in the temporal lobe, which then integrates the information

Question 50

How are sensory hair cells arranged?

Answer 50

Sensory hair cells in a particular location in the basilar membrane are tuned to a particular sound frequency (pitch)

Question 51

What is the eustachian tube?

Answer 51

(also called the auditory tube), a duct that leads from the air-filled middle ear to the throat

protects the tympanic membrane from damage by changes in environmental atmospheric pressure

Question 52

What does stopped-up ears a result of?

Answer 52

When swelling or congestion due to infections prevents the tube from admitting air, we complain of having stopped-up ears— we can sense that a pressure difference between the outer and middle ear is bulging the tympanic membrane, interfering with the transmission of sounds and causing pain

Question 53

What is retinal?

Answer 53

All animals use forms of a single pigment, retinal (synthesized from vitamin A), in photoreceptors to absorb light energy

Question 54

How do earthworms see?

Answer 54

Earthworms have photoreceptors in their skin that allow them to sense and respond to light

Question 55

How do planarians see?

Answer 55

have a cuplike ocellus which detects light but does not form an image – photoreceptor cells are connected to dendrites of afferent neurons, which are bundled into nerves that travel from ocelli to the cerebral ganglion

Planarians orient themselves so that the amount of light falling on their two ocelli is equal and diminishes as they swim

Question 56

What is rhodopsin?

Answer 56

a photopigment (retinal bound to opsin) which absorbs light and causes action potentials to be generated

Question 57

How do compound eyes work? what organisms are they found in?

Answer 57

found in insects and crustaceans

they contains many faceted visual units (ommatidia) fitted closely together. Light entering an ommatidium is focused by a transparent cornea and crystalline cone onto photoreceptor cells

The brain receives a motion-sensitive mosaic image

Question 58

How do single-lens eyes work? what organisms are they found in?

Answer 58

found in vertebrates

Light enters through the cornea, a lens concentrates the light, and a layer of photoreceptors (retina) records the image

􏰁 Muscles in the iris adjust the size of the pupil to vary the amount of light entering the eye

􏰁 Muscles move the lens to focus on objects at different distances (accommodation)

Question 59

What is the choroid?

Answer 59

inside of the sclera and is darkly pigmented

Question 60

What is the purpose of the ciliary body?

Answer 60

changes the shape of the lens to focus light from distant or nearby objects on the retina (accommodation)

Question 61

Is the lens flat or round when fousing on objects close up?

Answer 61

lens is rounded

Question 62

Does light pass through neurons or photoreceptors first?

Answer 62

neurons

Question 63

How many rods and cones does the human retina contain? how are they arranged?

Answer 63

120 million rods and 6 million cones organized into a densely packed, single layer

Question 64

What is the fovea?

Answer 64

The image focused by the lens is centered on the fovea, a small region of the retina where cones are concentrated

Question 65

How does the fovea change for animals and birds with night vision?

Answer 65

they lack a defined fovea

Question 66

What is in the peripheral vision?

Answer 66

rods

Question 67

How do the rods of mammals differ from other organisms?

Answer 67

The rods of mammals are much more sensitive than cones to low-intensity light

Question 68

What are the 3 parts of a photoreceptor?

Answer 68

􏰁 An outer segment consisting of stacked, flattened, membranous discs

􏰁 An inner segment where metabolic activities occur

􏰁 The synaptic terminal, where neurotransmitter molecules are stored and released

Question 69

What is retinal bonded to?

Answer 69

opsins

Question 70

What happens to the retinal of rhodopsin in the dark?

Answer 70

In the dark, the retinal of rhodopsin is inactive (cis-retinal) and the rods steadily release the neurotransmitter glutamate

Question 71

What happens to the retinal of rhodopsin in the light?

Answer 71

When rhodopsin absorbs a photon of light, retinal converts to its active form, trans-retinal, and the rods decrease the amount of glutamate they release

Question 72

What is the pathway for rhodopsin?

Answer 72

􏰁 Rhodopsin is a membrane-embedded G-protein-coupled receptor – activated rhodopsin triggers a pathway that leads to the closure of Na+ channels in the plasma membrane

􏰁 Closure of the channels hyperpolarizes the photoreceptor’s membrane, decreasing neurotransmitter release

􏰁 The response is graded – as light absorption increases, the amount of neurotransmitter released is reduced proportionately

Question 73

What are the 4 types of neurons in the retina of mammals?

Answer 73

bipolar cells, ganglion cells, horizontal cells, and amacrine cells

Question 74

What are bipolar cells?

Answer 74

where processing of visual information begins and Rods and cones form synaptic
connections

Question 75

What are ganglion cells?

Answer 75

receive signals from bipolar cells – axons of ganglion cells collect at the back of the eyeball to form the optic nerve

Question 76

What are horizontal cells?

Answer 76

integrate inputs from multiple photoreceptors – lateral to the region of light reception

Visual processing through horizontal cells (lateral inhibition) sharpens the edges and enhances contrast in an image

Question 77

What are amacrine cells?

Answer 77

receive inputs from bipolar cells and excite ganglion cells

Question 78

How does light exposure effect bipolar cells?

Answer 78

In the light, decrease in neurotransmitter release from rods and cones results in hyperpolarization of depolarized bipolar cells and depolarization of hyperpolarized bipolar cells

Question 79

Pathway from bipolar cells to ganglion cells?

Answer 79

Signals from rods and cones move vertically from bipolar cells to ganglion cells – each ganglion cell receives signals from a defined set of photoreceptors (its receptive field)

Question 80

How many types of cones do humans have?

Answer 80

3, each containing one of three different photopigments in which retinal is combined with different opsins

blue, green, and red

Question 81

What does Light that stimulates all three receptor types equally seen as?

Answer 81

white

Question 82

What is the lateral geniculate nuclei?

Answer 82

Most axons enter the lateral geniculate nuclei in the thalamus, where they synapse with interneurons leading to the visual cortex

Question 83

What percent of the cerebral cortex in humans is devoted to visual information?

Answer 83

almost 1/3

Question 84

Where in the body is afferent neurons most concnetrated?

Answer 84

the two optic nerves

Question 85

What is another name for taste?

Answer 85

gustation

Question 86

What is another name for smell?

Answer 86

olfaction

Question 87

What forms the basis for smell and taste?

Answer 87

chemoreceptors

Question 88

What do chemoreceptors do?

Answer 88

measure the internal levels of molecules such as oxygen, carbon dioxide, and hydrogen ions

Question 89

How do insects taste?

Answer 89

In insects, taste receptors occur inside hollow sensory bristles (sensilla) on the antennae, mouthparts, or feet

􏰁 Pores in sensilla admit molecules to the chemoreceptors, which are specialized to detect sugars, salts, amino acids, or other chemicals

Question 90

Where do many female insects have chemoreceptors? function?

Answer 90

on their ovipositors, which allow them to lay eggs on food appropriate for the hatching larvae

Question 91

Where is information from taste receptors usually processed?

Answer 91

parietal lobes

Question 92

Where is information from smell receptors usually processed?

Answer 92

olfactory bulbs and temporal lobes

Question 93

How are olfactory receptors structured?

Answer 93

􏰁 One end of each olfactory receptor cell has sensory hairs that project into a mucus layer that dissolves airborne molecules

􏰁 The other end synapses with interneurons in the olfactory bulbs – olfactory receptors are the only receptor cells that make direct connections with brain interneurons

Question 94

What are papillae?

Answer 94

In humans, taste buds are embedded in outgrowths of the tongue called papillae

Question 95

What are taste buds?

Answer 95

the sensory hairs of taste receptors pass through the pore of a taste bud and project to the exterior

Question 96

Pathway taste receptors relay their signals to?

Answer 96

thalamus

From the thalamus, some signals lead to gustatory centers in the cerebral cortex, which integrate them into the perception of taste – others lead to the brain stem and limbic system

Question 97

What are the 5 basic human tastes?

Answer 97

sweet, sour, salty, bitter, and umami (savory)

Question 98

At the phylogenetic level, what does the arrays of olfactory receptor genes in vertebrate groups show?

Answer 98

appear to have changed rapidly; the changes relate to each organism’s environment

Question 99

What type of nerve endings do thermoreceptors and nociceptors have?

Answer 99

Both types of receptors consist of free nerve endings formed by dendrites of afferent neurons, with no specialized receptor structures surrounding them

Question 100

What types of thermoreceptors do mammals have?

Answer 100

Mammals have five thermoreceptor ranges, beginning at less than 8°C and extending to above 52°C – the extremes are perceived as painful

Question 101

How do invertebrates (insects) and snakes use thermoreceptors?

Answer 101

to detect warm-blooded prey

snakes use put organs to do this function

Question 102

How does the hypothalamus of mammals function as a thermoreceptors for the brain?

Answer 102

highly sensitive to shifts from normal body temperature, and trigger involuntary responses such as sweating, panting, or shivering, which restore normal body temperature

Question 103

Which division of the nervous system are nociceptors part of?

Answer 103

somatic system of the PNS

Question 104

What neurotransmitters do nociceptors pathways activate?

Answer 104

glutamate or substance P

Question 105

What do glutamate-releasing axons produce?

Answer 105

sharp, prickling sensations that can be localized to a specific body part

Question 106

Do pain receptors adapt?

Answer 106

Pain receptors adapt very little or not at all – some gradually intensify the rate at which they send out action potentials if the stimulus continues at a constant level

Question 107

How does the the CNS combat pain?

Answer 107

release endorphins that bind to receptors on substance P neurons, reducing the amount of neurotransmitter released

Question 108

What are magnetoreceptors and what animals use them? what do they use them for?

Answer 108

Migrating butterflies, beluga whales, sea turtles, homing pigeons, and foraging honeybees have magnetoreceptors that allow them to detect and use Earth’s magnetic field as a source of directional information

Question 109

What are electroreceptors and what animals use them? what do they use them for?

Answer 109

Many sharks and bony fishes, and some amphibians and mammals, have specialized electroreceptors that detect electrical fields

Electrical stimuli detected by the receptors are used to locate prey or navigate around obstacles in muddy water – or, by some fishes, to communicate

can be used to kill prey ex) electric eel

Question 110

What are the 2 types of electroreception systems?

Answer 110

Some electro reception systems are passive–they detect electric fields in the environment, not the animal’s own electric currents – passive systems are used mainly to find prey

Other electro reception systems are active–the animal emits and receives low voltage electrical signals that are generated by special electric organs