Chapter 23

Question 1

A blood sample that has an extremely low partial pressure of CO2 is most likely from a(n)

a. fish.
b. marine animal.
c. terrestrial animal.
d. animal exchanging respiratory gas with water.
e. mammal.

Answer 1

D

Question 2

Which of the following animals use positive pressure ventilation?

a. Amphibians
b. Birds
c. Mammals
d. All of the above
e. None of the above

Answer 2

A

Question 3

Which of the following uses a tracheal system?

a. Sea star
b. Mollusc
c. Crayfish
d. Flea
e. Amphibian

Answer 3

D

Question 4

Which of the following statements regarding mammalian ventilation is false?

a. Gas exchange occurs in the respiratory bronchioles.
b. Inspiration always requires muscle contraction.
c. Expiration always requires muscle contraction.
d. There is no convective movement of gas in the alveoli.
e. Gas exchange occurs in the alveoli.

Answer 4

C

Question 5

Which morphology allows for the most efficient gas exchange?

a. Cocurrent
b. Countercurrent
c. Cross-current
d. Concurrent
e. Anticurrent

Answer 5

B

Question 6

In mammals, moving air into the lungs is achieved mainly by

a. positive pressure.
b. relaxing the abdominals.
c. contracting the diaphragm.
d. relaxing the diaphragm.
e. contracting the abdominals.

Answer 6

C

Question 7

The entrance to the insect tracheal system is via

a. modified lungs.
b. modified gills.
c. air sacs.
d. the digestive system.
e. spiracles.

Answer 7

E

Question 8

The bellows action used by birds in breathing is generated by

a. contraction and relaxation of the diaphragm.
b. contraction and relaxation of intercostals.
c. expansion and compression of the abdomen.
d. expansion and compression of the air sacs.
e. expansion and compression of the parabronchi.

Answer 8

D

Question 9

The gas-exchange system in birds is

a. concurrent.
b. countercurrent.
c. cross-current.
d. anticurrent.
e. Both b and d

Answer 9

C

Question 10

In mammals, ventilation is modulated by chemosensation of

a. CO2.
b. H+.
c. O2.
d. Both a and c
e. All of the above

Answer 10

E

Question 11

Which of the following is the best definition of external respiration?

a. The bulk flow of air or water to and from the gas-exchange membrane
b. The thin layer of tissue, typically consisting of one or two epithelia, that separates the internal tissues of the animal from the environment
c. The process by which O2 is transported from the environment to the gas-exchange membrane and CO2 is transported from the membrane to the environment
d. The use of O2 at the mitochondria, along with the production of CO2, during aerobic metabolism
e. None of the above provides a good definition of external respiration.

Answer 11

C

Question 12

Within the molluscs, a lung modified from the mantle cavity to allow respiration of air on land is seen in which group?

a. Snails
b. Bivalves
c. Cephalopods
d. Decapod crustaceans
e. Sea stars

Answer 12

A

Question 13

Carbon dioxide excretion in the bullfrog is

a. highest across the lungs only in the adult stage.
b. highest across the skin at all stages.
c. not possible across the thick skin.
d. highest across the gills during the tadpole stage.
e. highest across the gills during the adult stage only.

Answer 13

B

Question 14

The major stimulus for increased ventilation in fish is

a. decreased O2.
b. increased exercise.
c. decreased temperature.
d. Both a and b
e. All of the above

Answer 14

D

Question 15

The partial pressure of O2 in the blood leaving the breathing organ depends on the

a. flow of blood.
b. flow of air or water at the interface.
c. difference between the initial partial pressure of O2 in the blood and the air (or water).
d. Both a and c
e. All of the above

Answer 15

E

Question 16

The substance responsible for the prevention of alveolar collapse is

a. surfactant.
b. mucous.
c. water.
d. alveoli.
e. anticohesive.

Answer 16

A

Question 17

The protective external flap that covers the gills on a fish’s head is called the

a. operculum.
b. secondary lamellae.
c. gill arches.
d. gill slits.
e. arc skeleton.

Answer 17

A

Question 18

Which animal group tends to have the thinnest gas-exchange membrane?

a. Mammals
b. Birds
c. Nonavian reptiles
d. Amphibians
e. Fish

Answer 18

B

Question 19

The maximal possible tidal volume is called the

a. inspiratory reserve volume.
b. vital capacity.
c. expiratory reserve volume.
d. tidal volume.
e. residual volume.

Answer 19

B

Question 20

In insects, oxygen moves through the tracheal system by

a. diffusion.
b. rhythmic tracheal compression.
c. convection.
d. Both a and c
e. All of the above

Answer 20

E

Question 21

Minute, gas-filled, blind-ended channels that branch off from the principal respiratory tubules, the parabronchi, within the lungs of a bird and that act as the primary sites of respiratory gas exchange between the air and blood?

Answer 21

air capillaries

Question 22

In the lungs of an animal, the sum total of the conducting airways; that is, that portion of the lungs that does not participate in the exchange of respiratory gases between air and blood?

Answer 22

anatomical dead space

Question 23

The absence of breathing.

Answer 23

apnea

Question 24

Relating to gills.

Answer 24

branchial

Question 25

The development of positive pressure within the buccal cavity of a vertebrate, used to force air into lungs or water across gills.

Answer 25

buccal pressure pump

Question 26

In the lungs of an animal, the airways that do not participate in the exchange of respiratory gases between air and blood, but rather simply conduct air from one place to another.

Answer 26

conducting airways

Question 27

The development of negative pressure within the thorax of an air-breathing vertebrate by action of the costal muscles between the ribs, used to suck air into the lungs.

Answer 27

costal suction pump

Question 28

A sheet of muscular and connective tissue that completely separates the thoracic and abdominal cavities, found only in mammals.

Answer 28

diaphragm

Question 29

An animal that simultaneously possesses the ability to breathe from air and from water. Also called bimodal breather.

Answer 29

dual breather

Question 30

Breathing is known as

Answer 30

external respiration

Question 31

In the most general sense used by physiologists, structures specialized for external respiration that project from the body into the ambient medium and are thereby surrounded by the environmental medium. Contrast with lungs

Answer 31

gills

Question 32

Sheetlike muscles that run between adjacent ribs, the contraction of which expands or contracts the volume of the rib cage.

Answer 32

intercostal muscles

Question 33

Breathing in which breaths or sets of breaths are regularly interrupted by extended periods of apnea.

Answer 33

intermittent breathing

Question 34

In the most general sense used by physiologists, structures specialized for external respiration that are invaginated into the body and thereby contain the environmental medium. Contrast with gills.

Answer 34

lungs

Question 35

In molluscs, an external body cavity formed where a sheetlike outfolding of the dorsal body wall, the mantle, overhangs or surrounds all or part of the rest of the body. The gills typically are suspended in the mantle cavity.

Answer 35

mantle cavity

Question 36

(1) In breathing, the fraction (or percentage) of the total O2 in respired air or water that is removed by the breathing process. (2) In circulation, the fraction of the total O2 carried by blood that is removed from the blood as it passes around the body

Answer 36

oxygen utilization coefficient

Question 37

The smallest-diameter tubes in the lungs of a bird. They are numerous and collectively constitute most of the lung tissue. Air capillaries—the sites of O2 and CO2 exchange—connect to the lumens of the parabronchi.

Answer 37

parabronchi

Question 38

Related to the lungs.

Answer 38

pumonary

Question 39

A type of gill ventilation observed in certain types of fish (e.g., tunas) in which the fish holds its mouth open as it swims forward, thereby using its swimming motions to drive water over its gills.

Answer 39

ram ventilation

Question 40

Generation of a rhythm. Usually refers to rhythm generation by neurons or sets of neurons, such as the sets of neurons that rhythmically originate nerve impulses that stimulate the breathing muscles to contract.

Answer 40

rhytmogenesis

Question 41

In fish gills, the microscopically fine folds of tissue on the surfaces of the gill filaments that serve as the primary sites of exchange of respiratory gases between the ambient water and blood.

Answer 41

secondary lamellae

Question 42

In an animal that exhibits tidal breathing, the amount of air inhaled and exhaled per breath.

Answer 42

tidal volume

Question 43

Forced flow (convection) of air or water into and out of structures used for external respiration or over body surfaces used for external respiration.

Answer 43

Ventilation

Question 44

who has well developed circulatory system have no lungs or gills and can breathe entirely through their skin

Answer 44

Amphibians

Question 45

what pattern of blood and water flow occurs in the gills of fish?

Answer 45

countercurrent

Question 46

Our lungs are homologous with the swim bladder of __

Answer 46

fish

Question 47

A pump inflating a tire is analogous to the breathing mechanism of____

Answer 47

frog

Question 48

An adult bullfrog uses its ___ for oxygen uptake and ___ for removal of co2.

Answer 48

lungs, skin

Question 49

In amniotes, air enters the lungs under ____ (relative to ambient temp) pressure and leaves the lungs ____

Answer 49

negative, positive

Question 50

Pulmonary surfactant prevents alveolar ____ by reducing alveolar____

Answer 50

collapse, surface tension

Question 51

It takes ____ breaths (in and out) to completely exchange the air in your lungs.

Answer 51

6+(indefinite)

Question 52

How many breaths does a bird take to move a parcel of air through its entire ventilatory system?

Answer 52

2

Question 53

Oxygen reach insects through ?

Answer 53

air

Question 54

Air breathing in frogs occurs through__________ which generates __________ pressure (relative to ambient pressure) to bring air into the lungs, while in nonavian reptiles, breathing occurs through__________ which generates __________ pressure to bring air into the lungs.

Answer 54

buccal pumping…positive…aspiration…negative

Question 55

Air flows in only one direction through the _______ of the avian respiratory system, with blood flowing _________.

Answer 55

parabronchi…cross-current

Question 56

If you flattened active respiratory surface area of your lungs (i.e. the alveoli), it would be most comparable to the size of __________.

Answer 56

the floor of an 80 student classroom

Question 57

In a tidal gas exchange system, the oxygen partial pressure of the alveoli is ________ that of atmospheric oxygen partial pressure.

Answer 57

lower than

Question 58

In humans, __________ gas exchange occurs in __________ lungs, while in birds, __________ gas exchange occurs in __________ lungs.

Answer 58

tidal…flexible…cross-current…rigid

Question 59

what systems is used by invertebrates to breathe?

Answer 59

tracheal system
gills
diffusion

Question 60

The rate of gas transport is

Answer 60

the product of concentration and flow rate

Question 61

T/F ??? It is easier for air-breathers to get rid of CO2 than for water-breathers.

Answer 61

FALSE; Since CO2 is so soluble in water (as HCO3-), water-breathers can get rid of it much easier than air-breathers.

Question 62

Which form of gas exchange has the highest oxygen extraction coefficient?

Answer 62

countercurrent

Question 63

Animals has the most gas exchange occurring through its skin?

Answer 63

hellbender

Question 64

Tuna must swim continously to ventilate their gills using?

Answer 64

ram ventilation

Question 65

Gas exchange occurs across a __ ____ ____, of one or more ___ cells. Oxygen always crosses the gas exchange membrane by ____,down its partial pressure gradient. ONLY if oxygen partial pressure on the outside of the gas exchange membrane is ___ than on the inside.

Answer 65

gas exchange membrane, epithelial, diffusion, higher

Question 66

Carbon dioxide diffuses but ___ may be pumped outwards.

Answer 66

Bicarbonate

Question 67

___ are evaginated, convoluted structures, operate primarily
in water, and may be external or internal (enclosed in a
chamber).

Answer 67

gills

Question 68

___ are invaginated, convoluted structures and operate in

air.

Answer 68

lungs

Question 69

_____ is forced flow of environmental medium (water or
air) past the gas exchange membranes, in a tidal,
unidirectional, or nondirectional manner.

Answer 69

ventilation

Question 70

Ventilation is categorized as active if an animal generates the flow using ____ ____.

Answer 70

metabolic energy

Question 71

lungs are____ used for breathing air, and gills are ____ used for breathing water. Both typically have ____surfaces.

Answer 71

Invagination, evagination, convoluted

Question 72

The oxygen utilization coefficient during breathing is the ____ of the O2 in ____ medium that an animal removes before ____ the medium.

Answer 72

percentage, inhaled, exhaling

Question 73

The four major types of gas exchange that can occur during directional ventilation can be ranked in terms of their inherent ability to establish a high O2 partial pressure in blood exiting the breathing organ.

Answer 73

Countercurrent gas exchange ranks highest. Cross-current gas exchange ranks second. Cocurrent and tidal gas exchange rank third.

Question 74

Because of the different capacitance coefficients of air and water, air breathers typically ___ the CO2 partial pressure in air they breathe to roughly the same extent as they ___ the O2 partial pressure.

Water breathers, however, do not elevate the CO2 partial pressure in water they breathe to any great extent. Air breathers consequently tend to have much ____ blood CO2 partial pressures than water breathers.

Answer 74

raise, lower, higher

Question 75

Air is pumped into and out of a blind chamber, and gases

diffuse across epithelia into or out of the blood by what type of ventilation?

Answer 75

Tidal ventilation

Question 76

In _____ gas exchange, the partial pressure gradient
starts very high, and decreases to approach equilibrium between blood and air/water. Partial pressure of O2 in blood is lower than excurrent air/water.

Answer 76

concurrent

Question 77

In_____ gas exchange, the partial pressure gradient remains the same and blood and air/water never reach
equilibrium. Partial pressure of O2 in blood is higher than excurrent air/water.

Answer 77

countercurrent

Question 78

In ____ gas exchange, the partial pressure gradient remains the same, with no equilibrium between blood and air/water. Partial pressure of O2 in blood is higher than excurrent air/water, but not as high as in countercurrent.

Answer 78

cross-current

Question 79

T/F: The gill surface area of most fish of a given body size is similar to the lung surface area of amphibians and nonavian reptiles of the same size. Compared with the latter groups, mammals and birds have much more lung surface area—helping to meet their far higher needs for gas exchange. The barrier between the blood and the air or water in the breathing organs is notably thin in mammals and thinnest in birds.

Answer 79

T

Question 80

The skin can account for 25% or more of gas exchange in some ___ ___ __, and up to 100% in some ____. The skin is a minor contributor to gas exchange, however, in ___ ___.

Answer 80

fish, turtles, nonavian reptile,
amphibians
mammals and birds

Question 81

The breathing muscles of vertebrates are skeletal muscles activated by motor nerve impulses. The breathing rhythm originates in a ____ ___ ___ in the _____.

Answer 81

central pattern generator , brainstem

Question 82

The percentage of oxygen removed from a volume of

environmental medium is the ____ ____ ___ , 100(CI-CE)/CI.

Answer 82

oxygen extraction coefficient

Question 83

Countercurrent and cross-current gas exchange yield highest partial pressure of oxygen in blood, ____ than the exhaled medium

Answer 83

higher

Question 84

Tidal and concurrent gas exchange yield partial pressures

in the blood that are ____ than the exhaled medium

Answer 84

lower

Question 85

Air breathers have much ___ blood CO2 levels than water breathers, partly because CO2 is so soluble in water.

Answer 85

higher

Question 86

CO2 partial pressure of blood is much higher in land

animals than aquatic animals. why?

Answer 86

CO2 is much more soluble than O2 in water. Animals can

excrete CO2 more easily in water than in air.

Question 87

Mammals and birds have ___ lung surface area than

amphibians and reptiles, relative to body mass, yet the lungs are ____.

Answer 87

greater, smaller

Question 88

T/F: Gill surface area in most fish is similar to lung surface area in reptiles and amphibians.

Answer 88

T

Question 89

Birds and mammals (and tuna) have the ___ gas exchange membranes among vertebrates. Birds: 0.2 micrometers.

Answer 89

thinnest

Question 90

Terrestrial vertebrates rely less on the skin for gas exchange than aquatic animals. Some salamanders have no lungs and rely exclusively on _____ gas exchange.

Answer 90

cutaneous

Question 91

Breathing can be _____, as in frogs, or ____ as in mammals and birds.

Answer 91

intermittent, continuous,

Question 92

Breathing is controlled by ___ ___ ___ in the brainstem.

Answer 92

central pattern generators (CPGs),

Question 93

Gas exchange membrane thickness is nearly ___ across body sizes, but thinnest in ____ species, especially so in birds.

Answer 93

constant, active

Question 94

The ____ lamellae are the principal sites of gas exchange in fish gills. _____ gas exchange occurs in the lamellae.

Answer 94

secondary, Countercurrent

Question 95

Water flow across the gills is essentially ______. It is driven by a ____ ___ ____ and an _____ ____ pump that act in an integrated rhythm, so that the buccal pump drives water across the gills when the opercular pump is being emptied of water and the opercular pump sucks water across the gills while the buccal pump is being refilled with water.

Answer 95

unidirectional, buccal pressure pump, opercular suction

Question 96

Some fish turn to ___ ventilation when swimming fast enough. Others, such as tunas, are ___ ram ventilators and must swim all the time to avoid suffocation.

Answer 96

ram, obligate

Question 97

A ___ O2 partial pressure in the blood is a more potent stimulus for increased ventilation in fish than an ____ CO2 partial pressure.

Answer 97

lowered, elevated

Question 98

Most of the 400 or so species of air-breathing fish have an air-breathing organ that is derived from the_____ ____,___ ___,___,____. —or one that originates as an outpocketing of the foregut (e.g., swim bladder).

Answer 98

buccal cavity, opercular cavity, stomach, or intestines

Question 99

Larval fish rely on ____, until their circulatory system

develops

Answer 99

diffusion

Question 100

Gills membranes are supported on gill arches and contain??

Answer 100

vascularized gill filaments and secondary lamellae

Question 101

Water flows into mouth and out gill slits, either by ___ or____

Answer 101

buccalopercular pumping or ram ventilation

Question 102

Blood flows _____ to water flow across ____.

Answer 102

countercurrent , lamellae

Question 103

Air breathing has evolved many times among fish, involving a variety of structures derived from the ___ ___ or ___.

Answer 103

buccal cavity or gut.

Question 104

Lungs of tetrapods are homologous to the lungs of ____ and the ___ of other fish.

Answer 104

lungfish, swim bladders

Question 105

Oxygen partial pressure in blood controls _____ ___

Answer 105

ventilation rate.

Question 106

Water flows in ____..

…and ___ gill slits

Answer 106

in, out

Question 107

____-____ pumping of water across gills in fish.

Answer 107

Buccal-opercular

Question 108

Buccal chamber _____ water across gills, opercular chamber ____ water across gills.

Answer 108

pushes, pulls

Question 109

T/F: Air-breathing is ancestral in lungfish and

some species rely on it to survive.

Answer 109

T

Question 110

Breathing in Amphibians

Larvae breathe with ___ gills, which become covered in ____.

Answer 110

external, tadpoles

Question 111

Breathing in Amphibians
Lungs develop in larval life as ____ sacs which are filled periodically in _____ breathing. Air is held in the lungs between breaths.

Answer 111

vascularized, intermittent

Question 112

Breathing in Amphibians
Lungs are filled by a _____ pump, which forces air into the lungs under ____ pressure. Lung emptying is by passive recoil and some body wall muscular contraction.

Answer 112

buccopharyngeal, positive

Question 113

Breathing in Amphibians
_____ gas exchange accounts for a large percentage of O2 and CO2 exchange in ____, and some adult ____. The skin is also used for most CO2 _____ in adults.

Answer 113

Cutaneous,larvae, salamanders, elimination

Question 114

Breathing in Amphibians

__, ___, and ___ may all be used simultaneously for gas exchange in aquatic amphibians.

Answer 114

Gills, lungs, skin

Question 115

Lung ventilation in frogs:

Answer 115

1. Buccal cavity fills.
2. Air in lungs is exhaled.
3. Air is pumped from buccal cavity into lungs.

Question 116

Breathing in Mammals

Lungs are intricately divided into ____ and saclike ____

Answer 116

bronchii, alveoli.

Question 117

Breathing in Mammals

____ are primary site of gas exchange, are __ mm in diameter, and number up to ___ million in an adult human.

Answer 117

Alveoli, 0.25, 300

Question 118

Breathing in Mammals
The ___ ____ of air left in the lungs after forced expiration dilutes the incoming air of the next breath, ___ the partial pressure of O2 in the alveoli.

Answer 118

residual volume, lowering

Question 119

Breathing in Mammals

The diaphragm and intercostal muscles power ___ which is active. While ____ is passive, at rest.

Answer 119

inspiration, expiration

Question 120

Breathing in Mammals

Air is drawn into lungs via ____ under_____ pressure.

Answer 120

aspiration, negative

Question 121

Breathing in Mammals
Ventilation rate (VT x f) is controlled by blood CO2 and H+, (but also by blood O2) which is sensed by \_\_\_\_ bodies and \_\_\_\_\_ bodies on arteries. Hyperventilation can cause “shallow water blackout.”

Answer 121

carotid, aortic

Question 122

Breathing in Mammals
_____ ____ coats alveoli and prevents collapse by
reducing surface tension at small volume. Present in all vertebrate
lungs

Answer 122

Pulmonary surfactant

Question 123

Airways in mammalian lungs branch up to ___ times from the ____ , ending in ____ ____ that contain many _____

Answer 123

23,trachea,alveolar sacs, alveoli

Question 124

Air in alveoli is ___ and ___ in O2 than atmospheric air. Alveoli are small (0.25 mm) and numerous (300,000,000). Because air in alveoli is stationary,gases must ___ to the membrane

Answer 124

motionless, lower,diffuse

Question 125

The residual volume of the lung ___ the partial pressure of O2 in lung.

Answer 125

lowers

Question 126

Breathing in Birds
Fresh air is moved through ___ during both
inhalation and exhalation as air sacs ___ and___.

Answer 126

parabronchi , expand, contract

Question 127

Breathing in Birds
Air sacs outside the lungs ___ air that has already been
through the parabronchi and ___ __ waiting to go through.

Answer 127

store , fresh air

Question 128

Breathing in Birds

Lungs are ___ and do not change ___.

Answer 128

rigid, volume

Question 129

Breathing in Birds
Divergent lung morphology and function: _____
airflow through the respiratory _____.

Answer 129

unidirectional, parabronchi

Question 130

Breathing in Birds

Gas exchange is ____; blood flows at ___ to air flow.

Answer 130

crosscurrent, 90 deg

Question 131

Breathing in Birds

T/F: How air is directed along its elaborate path is not fully understood. There are no valves.

Answer 131

T

Question 132

Breathing in Birds

____ and ___ flow are present in all birds.

Answer 132

Parabronchi and unidirectional

Question 133

Breathing in Birds

T/F: How the avian lung may be superior to mammalian lung is a subject of current controversy

Answer 133

t

Question 134

Unidirectional flow in the avian lung.
1. Fresh air to PAS
and parabronchi,
used air to AAS.
2. Fresh air to
parabronchi,
PAS and AAS
deflate.

Answer 134

1. inhalation

2. exhalation

Question 135

Each parabronchus is surrounded by ?

Answer 135

air and blood capillaries.

Question 136

Air and blood flow _____ to one another.

Answer 136

crosscurrent

Question 137

Breathing in invertebrates

Small species rely on ___, and have no ____ ___

Answer 137

diffusion, circulatory system

Question 138

Breathing in invertebrates
Gills are common in aquatic invertebrates, derived from
many structures like?

Answer 138

limbs, integument, feeding structures).

Question 139

Breathing in invertebrates

Echinoderm water vascular system exchanges gases with the ?

Answer 139

environment by diffusion

Question 140

Breathing in invertebrates
____ house gills in the mantle cavity if aquatic, and use the ___ ____ as a lung if terrestrial. It is ventilated by ___ ___ or ____

Answer 140

Molluscs, mantle cavity, ciliary action or pumping

Question 141

Breathing in invertebrates
Insects and some other arthropods breathe using a ____ system of air-filled tubes that serve every part of the body. Air can be pumped in and out of the trachea through ____.

Answer 141

tracheal, spiracles

Question 142

The _____ _____ houses the gills in
aquatic molluscs and is often pumped to ventilate it.

In terrestrial molluscs, it is the ___

Answer 142

mantle cavity, lung

Question 143

Insects breathe with elaborate system of airways,
____, that branch throughout the body. Flight muscle
cells have ____ that line the ____!

Answer 143

trachea, invagination, myofibrils

Question 144

Air can be moved through the trachea by pumping ___ ___ that store air, or the ____ themselves.

Answer 144

air sacs, trachea

Question 145

Air enters and leaves the tracheal system through a series of ___. Which can be opened to ____
ventilation, or closed to limit water loss.

Answer 145

spiracles, increase