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Date November 2019 Marks available 3 Reference code 19N.3.HL:.tz0.4
Level Higher Level Paper Paper 3 Time zone time zone 0
Command term Identify Question number 4 Adapted from N/A

Question

Define hypoxia.

[1]
a.

During a competition at altitude, a runner did not alter their normal, low-altitude hydration habits. Using the concept of fluid balance, identify reasons for the reduction in their performance at altitude.

[3]
b.

Outline altitude training.

[2]
c.

Using examples, predict the adaptations after endurance athletes have lived and trained at altitude for a month.

[2]
d.

Markscheme

a condition in which the oxygen supply to cells is insufficient ✔

a.

dehydration leads to decrease in performance ✔

ambient air at elevated altitude has lower humidity, there is a decrease in water vapour in air low humidity causes an increase in insensible water loss and dehydration✔

physical activity exacerbates this fluid loss ✔

altitude induces diuresis/increased urine production <further increasing dehydration> ✔

increased respiratory water loss ✔

increased sweat evaporation ✔

the greater need for energy increases the need for fluid intake ✔

b.

training for athletes at altitudes above 2000 m ✔

for several weeks or months <in order to gain a competitive advantage in low altitude competitions / in order to acclimatize for competition at altitude> ✔

training where the oxygen partial pressure is low so that release of the hormone erythropoietin (EPO) can be triggered <stimulating red blood cell production> ✔

Award [1 max] for physiological adaptations.

c.

Blood adaptations:

decreased plasma volume, associated with drier air / fluid loss ✔

increased hematocrit / increased hemoglobin concentration, associated with more EPO ✔

increased total number of RBC, associated with renal / kidney release of more EPO ✔

Muscle adaptations:

eg reduced lean body mass muscle fibre cross-sectional area decreases / loss of appetite ✔

eg increased capillary density in the muscle increases and increased oxidative capacity in the muscles so that more blood can be delivered to muscle fibres ✔

Cardiorespiratory adaptations:

eg increase in pulmonary ventilation both at rest and during exercise/VO2 max ✔

eg increase in pulmonary capillarization ✔

Accept other appropriate examples

d.

Examiners report

[N/A]
a.
[N/A]
b.
[N/A]
c.
[N/A]
d.

Syllabus sections

Option A: Optimizing physiological performance » A.5. Training and performance at altitude (HL only) » A.5.4. Outline the effects of altitude on fluid balance.
Option A: Optimizing physiological performance » A.5. Training and performance at altitude (HL only)
Option A: Optimizing physiological performance

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