|
|
|
|
Latitude |
|
Continentality |
|
Altitude |
|
Topography |
|
Terrain dimensions |
|
Relief |
|
Slope and aspect |
|
|
|
|
Net radiation and temperature decrease as
latitude increases |
|
Elevation of treeline/snowline decreases
poleward |
|
Belt of alpine vegetation and permanent snow and
ice are lower on mountains at high latitude versus the tropics |
|
|
|
|
|
|
|
|
|
|
|
Arises from differences in heat capacity and
heat conduction of soils vs. water |
|
Water able to store more heat |
|
Soils less |
|
Degree of continentality expressed by annual
range of mean monthly temperature |
|
|
|
|
|
|
|
|
Distribution of state variables (p,r,T,u)
depends strongly on height in free atmosphere and as function of terrain
height |
|
Vapor pressure of water and radiation also vary
strongly with height |
|
|
|
|
dp/dz = - rg |
|
p= rRT |
|
ln(pB/pT )=RgTave
(zT – zB ) |
|
|
|
|
|
|
|
|
|
Vapor pressure (e)- partial pressure of water
vapor |
|
Absolute measure of water content in atmosphere |
|
Saturation vapor pressure (es)-
saturation vapor pressure |
|
Maximum amount of water vapor atmosphere can
hold for given temperature |
|
|
|
|
|
|
|
Higher vapor pressure reduces transmission of IR |
|
Refracts/absorbs solar radiation |
|
Flux of water vapor proportional to (es
–e); so, for given temperature, lower vapor pressure increases evaporation |
|
Compared to free air, vapor pressure is higher
usually near mountain |
|
Reduces transmission of IR, which may increase
temperature |
|
Lowers condensation level |
|
lowers drying power, i.e., ability to transfer
water from clothing/plants into atmosphere |
|
|
|
|
|
|
|
|
|
|
|
Proportion of Oxygen in atmosphere- 21% |
|
Partial pressure of Oxygen decreases with height
in proportion to other gases |
|
Lungs saturated with water vapor; reduces
available oxygen |
|
Oxygen in lungs: (ambient pressure – saturation
water vapor pressure at body temp (37C) (63 mb)) * .21 |
|
Sea level (1013 – 63 ) * .21 = 200 mb; 5000 m
(540 – 63 ) * .21 = 100 mb |
|
Hypoxia- intolerance to oxygen deficiency |
|
Humans can tolerate half sea level value
indefinitely |
|
Symptoms significant above 3000 m (133 mb) |
|
Standard Atmosphere varies with latitude (4000 m
roughly 630 mb equatorward of 30o; 593 mb (winter)-616 mb
(summer) at 60o |
|
Cyclone could drop pressure 10-20 mb; equivalent
to several hundred meters in elevation |
|
Grover (1974); Man living at high altitudes.
Arctic and Alpine Environments. |
|
|
|
|
|
Notes