Barometric pressures were measured on Mt. Everest from altitudes of 5,400 (base camp) to 8,848 m (summit) during the American Medical Research Expedition to Everest. Measurements at 5,400 m were made with a mercury barometer, and above this most of the pressures were obtained with an accurate crystal-sensor barometer. The mean daily pressures were 400.4 +/- 2.7 (SD) Torr (n = 35) at 5,400 m, 351.0 +/- 1.0 Torr (n = 16) at 6,300 m, 283.6 +/- 1.5 Torr (n = 6) at 8,050 m, and 253.0 Torr (n = 1) at 8,848 m. All these pressures are considerably higher than those predicted from the ICAO Standard Atmosphere. The chief reason is that pressures at altitudes between 2 and 16 km are latitude dependent, being higher near the equator because of the large mass of cold air in the stratosphere of that region. Data from weather balloons show that the pressure at the altitude of the summit of Mt. Everest varies considerably with season, being about 11.5 Torr higher in midsummer than in midwinter. Although the mountain has been climbed without supplementary O2, the very low O2 partial pressure at the summit means that it is at the limit of man's tolerance, and even day-by-day variations in barometric pressure apparently affect maximal O2 uptake.
[1]
P. Cerretelli.
Limiting factors to oxygen transport on Mount Everest.
,
1976,
Journal of applied physiology.
[2]
L. Pugh,et al.
MUSCULAR EXERCISE AT GREAT ALTITUDES.
,
1964,
Journal of applied physiology.
[3]
L. Pugh.
Resting ventilation and alveolar air on Mount Everest: with remarks on the relation of barometric pressure to altitude in mountains
,
1957,
The Journal of physiology.
[4]
J. West,et al.
Predicted gas exchange on the summit of Mt. Everest.
,
1980,
Respiration physiology.