Diving mammals

Question 1

What is the difference between a voluntary and involuntary dive?

Answer 1

Voluntary would be for things like looking for food and playing, and involuntary would be for escaping from predators

Question 2

What are the 3 things that need to be considered for determining how long an animal can dive for?

Answer 2

1. O2 available for the animal
2. Potential of the animal to adjust its cardiovascular physiology
3. Potential of the animal to adjust its metabolism to reduce oxygen requirements

Question 3

How do diving mammals control the oxygen available for diving?

Answer 3

Controlled apnea: suppression of respiratory muscle action and breathing control systems

Question 4

How are diving mammals able to reduce their lung volume while underwater?

Answer 4

The thorax is highly compressible, so the water pressure at greater depths will shove the thoracic walls in and compress the lungs

Question 5

What other adaptation do marine mammals have to lower nitrogen buildup in their blood?

Answer 5

Forced alveolar collapse

Question 6

Where do the gases go when a diving mammal does a forced alveolar collapse?

Answer 6

Away from the respiratory surfaces and into the conducting surfaces

Question 7

How does the forced alveolar collapse prevent decompression sickness in marine mammals?

Answer 7

By forcing the gases into the conducting airways, the blood isn’t as exposed to the increasing nitrogen pressure in the lungs, which stops it from building up in the blood and tissues

Question 8

How much of the alveolar collapse occurs in a mammal diving at moderate depths?

Answer 8

Incomplete collapse

Question 9

How much of the alveolar collapse occurs in a mammal diving at deep depths?

Answer 9

Complete collapse

Question 10

Why aren’t dolphins affected by decompression sickness when they do repeated dives to moderate depths?

Answer 10

They do have nitrogen buildup in their blood, but they are adapted to the high levels that would be fatal for us

Question 11

Why are humans susceptible to decompression sickness when diving?

Answer 11

We don’t have the flexible thoracic cavity to allow lung compression, and we can’t do the forced alveolar collapse. The nitrogen just ends up in our blood and will come out in bubbles if we surface too fast

Question 12

Why do some diving mammals exhale before a long, deep dive?

Answer 12

Avoid lung collapse and decompression sickness

Question 13

What are the 3 ways oxygen is stored?

Answer 13

Lungs, in the blood attached to Hb, and in myoglobin

Question 14

Where do we store most of our oxygen while diving?

Answer 14

Lungs

Question 15

How do diving mammals store oxygen?

Answer 15

Mostly in myoglobin, since they have a lot more muscle than we do. They have a higher O2 carrying capacity and blood volume, so can also store a lot in their blood

Question 16

How does the oxygen carrying capacity of the blood of marine mammals compare to ours?

Answer 16

Higher in marine mammals

Question 17

How do the oxygen stores of mammals that make short and shallow dives compare to humans?

Answer 17

Is higher, but not much

Question 18

How do the oxygen stores of mammals that make longer and deeper dives compare to humans?

Answer 18

Much higher

Question 19

What is hypoperfusion?

Answer 19

Reduced blood flow through specific organs

Question 20

What is bradycardia?

Answer 20

Reduced heart rate

Question 21

Why wouldn’t it be good to be constantly sending blood to all organs during a dive?

Answer 21

Would quickly use up all the oxygen

Question 22

How does blood flow get decreased to less important tissues during a dive?

Answer 22

Vasoconstriction, bradycardia, splenic contractions

Question 23

What do splenic contractions do during a dive?

Answer 23

Produces more red blood cells

Question 24

What happens to blood flow during an involuntary dive?

Answer 24

Blood stays in the heart-lung-brain circuit and is constantly shunted away from everything else. Blood flows from the right heart to the lungs, lungs to left heart, left heart to brain, brain to right heart

Question 25

What happens to overall metabolism while diving?

Answer 25

Hypometabolism. Is suppressed overall and some tissues switch to anaerobic metabolism

Question 26

Can the heart and brain do anaerobic metabolism?

Answer 26

No, they constantly need aerobic blood

Question 27

Do the muscles switch over to anaerobic metabolism during a dive?

Answer 27

They will use up the oxygen stored in their myoglobin first then switch to glycolysis

Question 28

What happens when the muscles switch to glycolysis?

Answer 28

They start to buildup lactic acid, but it stays low in the blood

Question 29

What is the aerobic dive limit?

Answer 29

The longest an animal can stay underwater before lactic acid appears in the blood. Varies between animals

Question 30

What happens to the lactic acid buildup in the muscles when the animal resurfaces?

Answer 30

The muscles release it into the blood and causes the lactic acid in the blood to spike, then it drops as it gets metabolized

Question 31

What limits how long an animal can stay underwater?

Answer 31

Lactic acid buildup

Question 32

What are the 7 diving response mechanisms in diving mammals?

Answer 32

1. Apnea
2. Oxygen storage
3. Selective blood flow
4. Bradycardia
5. Splenic contraction
6. Hypometabolism
7. Anaerobic metabolism