Lecture 7

Question 1

How do whales communicate?

Answer 1

very specific song patterns

different dialects

Question 2

If blue whales are found in pairs they may be several…?

Answer 2

kilometers apart.

Question 3

Does sound travel faster in water or air?

Answer 3

Sound travels up to 5 times faster in water than in air.

Question 4

What is the breadth of blue whale calls?

Answer 4

Whales can produce calls as low as 14 Hz and as loud as 180 dB

Question 5

Due to noise pollution what has happened to the hearing ability of blue whales?

Answer 5

they can only hear 100 miles away as oppose to 1000 miles away in 1940
Male songs have dropped in pitch by 30% since 1960s.

Question 6

Right whales now communication at frequencies ______________ higher than they did a century ago.

Answer 6

2/3 of an octave

Question 7

What do blue whales do when they find food?

Answer 7

tend to emit mid-frequency calls and communicate with conspecifics in the area

Question 8

What study did Goldbogen conduct?

Answer 8

Performed a series of studies on the disruptive effect of mid-frequency sonar on blue whales

Question 9

what sound does military sonar emit?

Answer 9

emits sounds between 1-10 KHz

Question 10

What has military sonar frequencies been linked to?

Answer 10

mass strandings and large scale mortality, especially in beaked whales

Question 11

The mid frequencies are ________ than the most sensitive auditory perceptive range in most toothed whales.

Answer 11

lower

Question 12

the mid frequencies are _______ that the long distance calling frequencies.

Answer 12

higher

Question 13

What kind of effect did military sonar have on whales that surface fed?

Answer 13

they showed little to no change in behavior pattern

Question 14

What kind of effect did military sonar have on whales that deep dive fed?

Answer 14

suddenly terminated feeding
switched to mid water dive
increased swimming speed
swan away from sonar emission

Question 15

what gender produces loud songs and why?

Answer 15

only male blue whales sing loud songs to find mates

Question 16

Two types of hearing:

Answer 16

particle detector

pressure detector

Question 17

how do particle detectors work?

Answer 17

long thin organs that move when barraged by many particles

–only work in near field

Question 18

Give an example of an animal with a particle detector

Answer 18

fruit fly

–courtship dance of male flies that females can detect and monitor near filed signals with an arista

Question 19

What is an example of particle detector in male mosquitos?

Answer 19

Plumose antennae are used to detect the species specific wing beat of females.

Question 20

What’s an example of a particle detector in roaches and crickets?

Answer 20

Very fine hairs at the tips of their abdomens
• Variations in the lengths of these hairs is correlated with the particular near field sound frequencies to which each hair is sensitive

Question 21

how do particle detectors provide mechanical advantage to an animal?

Answer 21

long hairs and antennae that attach to the cuticle of the animal.
–small force distributed over the axis of hair is sent to sensory cells as small displacement but one of great force.

Question 22

What are some other advantages of particle detectors

Answer 22

very weak sound field can be detected by these types of receivers
mosquito antenna are one of the most sensitive auditory receptors among anthropods.

Question 23

What are some cons of particle detectors?

Answer 23

signal amplitude and direction are confounded

dipolar near fields dont produce particle movements whose axis points at the source

Question 24

What are the characteristics of particle detectors?

Answer 24

• lower frequencies
• Dynamic ranges and temporal tracking …
• slowly varying waveforms well
• Provide relatively undistorted signals to sensory cells • Inherently directional
• Use is limited to near fields

Question 25

describe a pressure detector?

Answer 25

Tympanum couples sound to the medium, relies on pressure differences on each side of membrane.

Question 26

What happens if there’s unequal pressure?

Answer 26

the membrane is bent away from the side of higher pressure. This bending can be coupled to sensor cells to produce neural impulses

Question 27

Pressure detectors consists of…?

Answer 27

consists of a tympanum stretched over a closed cavity

Question 28

how do pressure detectors work?

Answer 28

• As air pressure changes on one side of the tympanum it will bulge and bend to accommodate these changes causing vibrations along the membrane
• These vibrations can then be coded and transmitted to sensory cells

Question 29

What is the equation for pressure detectors?

Answer 29

The force (F) on a tympanum is equal to the product of sound pressure (P) and membrane area (A); F=PA

Question 30

large thing membranes are…?

Answer 30

very efficient ways to trap incident sound energy

Question 31

the thinness of the membrane and restorative factors..?

Answer 31

created by compression of a closed cavity volume also help to track changes in incident waveforms rapidly

Question 32

Tympana can be thin so their…?

Answer 32

so their acoustic impedance is close to that of air

Question 33

Most of the sound energy carried in air will be…?

Answer 33

reflected at the ears

Question 34

Terrestrial organisms consist of…?

Answer 34

water and solids

Question 35

Pressure detectors lack…?

Answer 35

Intrinsic ability to detect direction

Question 36

what is the sound shadow effect?

Answer 36

region of reduced amplitude of a sound because it is obstructed by the head.

Question 37

what is the interaural intensity difference?

Answer 37

sound coming from a source located to one side of the head will have a higher intensity, or be louder, at the ear nearest the sound source

Question 38

what is the interaural time difference

Answer 38

difference in arrival time of a sound between two ears. It is important in the localization of sounds, as it provides a cue to the direction or angle of the sound source from the head.

Question 39

what is the max detectable delay for pressure detectors on humans?

Answer 39

.5msec

Question 40

for animals with only 1 cm seperating its ears what is the detectable delay?

Answer 40

.03msec

Question 41

describe the cochlea

Answer 41

Fluid filled structure that contains Basilar Membrane and the Organ of Corti

Question 42

describe place theory

Answer 42

theory of hearing which states that our perception of sound depends on where each component frequency produces vibrations along the basilar membrane.

Question 43

what is volley principle

Answer 43

groups of neurons of the auditory system respond to a sound by firing action potentials slightly out of phase with one another so that when combined, a greater frequency of sound can be encoded and sent to the brain to be analyzed.

Question 44

describe anuran calls

Answer 44

simple and stereotypes, used to attract mates and warn off competitiors

Question 45

the anuran air sac helps with what?

Answer 45

sound amplification

Question 46

what happens if you puncture anuran air sac?

Answer 46

results in a decrease in sound pressure level by a factor of 5.

Question 47

How is anuran larynx similar to that of a reptile?

Answer 47

Cricotracheal cartilage attached to the arytenoid cartilages

• Lacks thyroid cartilage

Question 48

Are anuran male larynx bigger than that of females?

Answer 48

male larynx is heavier and larger than females though females are larger than males

Question 49

in anuran calls, vocal cords are responsible for what?

Answer 49

tonal quality of the signal generated.

Question 50

what is the primary center for the production of advertisement calls.

Answer 50

preoptic nucleus

Question 51

Males show significantly __________ neuronal response in this area than females.

Answer 51

stronger

Question 52

How are these anuran calls conducted?

Answer 52

Males cluster within an area and wait for females to arrive
• While waiting, some males call while others remain silent
• Depending on the density of males in the area, there can be a lot of calling competition

Question 53

Because males need to detect relatively noise free opportunities to call, they need to asses background noise in 3 domains:

Answer 53

overall intensity
signal duration
signal bandwidth (frequency)

Question 54

Because females need to identify and locate preferred males in a noisy environment, they need to asses calls how?

Answer 54

Localize potentially relevant signals
discriminate between conspecifics and heterospecifics
use calls to find males of high genetic quality

Question 55

Describe the ear mechanisms of anurans.

Answer 55

don’t have external ears

• -two middle ear symptoms with a tympanum, middle ear cavity and stapes.
• -opercularis system
• -connected directly with the oral cavity

Question 56

What is the opercularis system?

Answer 56

specialized for highly directional soundlocalization

• Auditory signals make contact with the ear drum from both sides

Question 57

Anuran inner ears consists of 2 spatially separated organs:

Answer 57

amphibian papilla

basilar papilla, intraspecific differences based on sex and size.

Question 58

in coqui frogs, males produce a two note ad call:

Answer 58

co: male-male competition, lower frequency
qui: attract mates, produced 100msec later, higher frequency

Question 59

t/f: the excitatory frequencies of the amphibian papilla are the same for males and females

Answer 59

true

Question 60

in coqui frogs, males have a greater number of what?

Answer 60

cells in the basilar papilla tuned to the “CO” note than do females

Question 61

in coqui frogs, females have a larger number of what?

Answer 61

cells within the basilar papilla that are tuned to the “QUI” note

Question 62

t/f:Best excitatory frequency of the basilar papilla is tuned to a lower frequency in males than in females

Answer 62

false, tuned to a higher frequency

Question 63

Anurans are _________ so temp affects their behavior directly

Answer 63

ectothermic

Question 64

Changes in temperature effect best excitatory frequencies in the ________ papilla but not for the _________ papilla

Answer 64

amphibian, basilar

Question 65

in coqui frogs, the auditory nerve…?

Answer 65

is capable of temporal integration varying as a function of frequency

Question 66

What are the frequency ranges of coqui frogs and the length of the integration times?

Answer 66

Frequencies below 500 Hz had the longest integration times
• Frequencies between 500-1200 Hz have the shortest integration times
• Frequencies above 1200 Hz have intermediate integration times

Question 67

What are some characteristics of the coqui frog?

Answer 67

Differences in integration times allows for brief periods of silence between the “CO” and “QUI” notes
• Males minimize acoustic jamming
• Females receive an opportunity to more readily evaluate the signals of individual males

Question 68

coqui frogs possess a _________ _______ _____ surrounding lung cavity

Answer 68

sound receiving mechanism,

Question 69

The sound receiving mechanism in coqui frogs are most sensitive to…?

Answer 69

signals in the 1300-2600Hz range

Question 70

The sensitivity of the _______ ______ of the body to sound vibration may provide females of this species with a highly refined mechanism for locating appropriate mates

Answer 70

lateral protion