Adaptations for Diving

Question 1

What types of technology can be used to measure parameters during natural dives of mammals & birds?

Answer 1

• Time-depth recorder & logger
• GPS & satellite tags
• Automates blood sampling catheters
• PO2 electrodes/thermistors
• More recent devices allow recording of 3D dive profiles

Question 2

Names 6 problems that can affect human diving

Answer 2

1. Oxygen supply
2. The bends
3. Nitrogen narcosis
4. Oxygen toxicity
5. Direct effects of high pressure
6. Squeeze

Question 3

Give an example of an adaptation to diving in mammals + example species
Clue - RBC

Answer 3

• Elephant seals
• RBC increase
• Haematocrit increases from 38% to 80%

Question 4

Give an example of an adaptation to diving in mammals + example species
Clue - blood vessels

Answer 4

• Dolphins
• Vasoconstriction peripheral blood vessels & reduce blood flow to muscles, digestive system, kidneys & other non-essential organs
• Weddell seals maintain blood flow to brain, retina & spinal cord - which are important in navigation & motor control
• Blood is directed to adrenal gland, which secretes cortisol, apparently important in stabilizing nerve ends and preventing High Pressure Nervous Syndrome (HPNS)
• In gentoo penguins, femoral blood flow decreased to about 25% that of birds swimming on surface, suggesting vasoconstriction is also important in conserving O2

Question 5

Give an example of an adaptation to diving in mammals + example species
Clue - heart rate

Answer 5

• Bradycardia
• penguin heart rates decrease from about 227 to 80 beats min-1 and that of platypuses from 140-230 to 10-120 beats min-1

Question 6

What is the end product of anaerobic respiration?

Answer 6

Lactic acid

Question 7

Why is lactic acid an issue for diving mammals?

Answer 7

• Can upset acid-base & pH balance of blood
• Doesn’t enter bloodstream until animal surfaces & oxygen debt can be repaid as there is little circulation to muscles during diving
• Usually means a longer surface interval is needed before the animal can dive again

Question 8

What is the Aerobic Dive Limit of Weddell seals?

Answer 8

19 mins

Question 9

Why does the bends occur?

Answer 9

• N2 from air breathed is absorbed from the lungs by the blood during diving
• Blood & tissues under pressure become saturated with nitrogen and some is also absorbed by fat and fluid in the joints
• When the diver surfaces, the nitrogen comes out of solution & is returned to the lungs where it is exhaled
• If diver ascends too quickly, N2 cannot diffuse out fast enough and forms bubbles in the bloodstream & joints
• These can block capillaries & cause fatal disruption of blood flow and bubbles forming in the joints cause extreme pain (‘the bends’)
• Usually occurs in divers who breath air under pressure for long periods but can occur if the diver makes numerous repetitive dives to 10-20 m (e.g. pearl divers)

Question 10

Why do many diving mammals not experience the bends?

Answer 10

• Many load the blood & muscles with oxygen on the surface & then exhale before they dive
• Removes most of the air from the lungs so there is little N2 to enter the blood
• Lungs are collapsed by water pressure at depth & any air left in them is forced into the trachea
• The trachea is cartilaginous & not vascularised, nitrogen cannot be absorbed across it into the bloodstream

Question 11

When may gas emboli occur in diving mammals?

Answer 11

• When animals are forced to return to the surface from depth at a rate that does not allow them to manage the N2 levels
• Noise pollution (e.g. sonar and seismic testing) have been implicated in this & in mass strandings

Question 12

What is nitrogen narcosis?

Answer 12

• Some gases, including N2, absorbed under pressure have anaesthetic or narcotic effects
• This effect in humans manifests itself at different depths depending on the individual
• Nitrogen narcosis, sometimes referred to as ‘rapture of the deep’ has effects similar to alcohol intoxication
• Can result in death through impaired concentration and judgement and irrational behaviour
• Diving animals appear to avoid the problem because they don’t inhale nitrogen under pressure

Question 13

What is oxygen toxicity?

Answer 13

Pure oxygen at a partial pressure of about 2 atm (~ 10 m depth) is toxic & in humans and leads to convulsions & death

Question 14

What do divers use to reduce PO2 and PN2?

Answer 14

• Trimix (O2, N2 & helium)
• Heliox (helium & O2)

Question 15

How do diving animals avoid squeeze?

Answer 15

• Have few air sinuses in their bodies
• Exhale the air in the lungs before diving
• Rib cages are more flexible and, along with the lung, collapse at depth