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Dr.A.A Buhlmann, a medical type, in is published book, "Decompression - 
Decompression Sickness," Rev.2 provides the following table in regards 
to O2 at altitude.


                            0 to 150meters  3500meters  7500meters
Ambient Pressure                1.0 Bar       .68 Bar     .38 Bar
Pressure of Inspired Oxygen     .196 Bar      .129 Bar    .066 Bar
Pressure of Inspired Nitrogen   .74 Bar       .487 Bar    .250 Bar
1 Bar = 1.01325 ATA 

The fraction of O2 can be calculated from the data provided.
                            0 to 150meters  3500meters  7500meters
Fraction of Oxygen              .196          .189        .173

If you believe Dr. Buhlmann's data then the fraction of O2 in the 
atmosphere also changes as well as the partial pressure (function of 
the O2 fraction anyway). There are other sources not close at hand 
which can provide more extensive data on atmospheric content at 
altitude. But then again as someone has already mentioned I don't think 
we are planning a dive on K2.

Mr. Carl Heinzl wrote Oct 1, 1995 to Eric Maiken:
>I appreciate your posting on this matter, however, no one has as yet 
>posted any factual physiological information on why a diver would be 
>hypoxic at altitude after a dive.

On Sept.30, I wrote:
>If you were breathing normoxic air from a tank at 33 ft @ 7,000ft you 
>would be breathing a partial pressure of oxygen of about .37 ATA O2 
>(.21 x 1.77), well above any hypoxia concerns. If you were breathing 
>the air from the tank at the surface @ 7000 ft, you would have an O2 
>partial pressure of about .16 ATA (.21 x .77) which is where you may 
>begin to experience some minor signs of hypoxia. 
Presto you are hypoxic at the end of the dive!

In this last case a Nitrox mix > 21% would keep you above the .16 ATA. 
However as soon as you took the redulator out of your mouth you drop a 
little below .16 ATAs O2 due to the reduced atmosphere and O2 fraction.
You would be hypoxia before you started the dive anyways.

However I suspect you are looking for an answer to another question 
rather than atmospheric O2 partial pressure requirements to sustain 
proper body function. I did find an interesting bit of information from 
Dr. Buhlmann. He states "The adaptation to high altitude mainly 
concerns the erythropoisesis with the development of polyglobulia, with 
which the circulatory system's capacity to transport oxygen is 
increased. The affinity of hemoglobin for oxygen decreases somewhat, 
which causes an increase in the PO2 in tissues." Go figure! 
Unfortunately Dr. Buhlmann is dead and can't comment.

Doug Chapman

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