Moisture

1. Moisture

2. States of Water • 3 states of water: • Solid (Ice) -Liquid (water) -Gas (water vapor) • Transformations • To more energetic state: • Evaporation • Melting • Sublimation • To less energetic state: • Freezing • Condensation • Deposition Latent Heat Absorbed Latent Heat Released

3. Hydrosphere: The realm of water in all its forms • Most water in oceans 97.5% • Most fresh water in glaciers • Much more ground water than fresh surface water • Very little in atmosphere at any one time

4. Global Water Balance • Only a finite amount of water in Earth system • Precipitation into oceans= 380 cu km annually • Runoff from land into oceans= +40 cu km “ • Evaporation from oceans = 420 cu km “ • Precipitation onto land = 110 cu km “ • Runoff from land into oceans= - 40 cu km “ • Evaporation from land = 70 cu km “

5. Humidity • Amount of water vapor in the air • Humidity varies dramatically all over Earth • Warm air can hold much more water vapor than cold air • Specific Humidity (SH) – actual quantity of water vapor in air • SH = mass of water vapor / mass of total air

6. Saturation Specific Humidity • Saturation – when air can hold no more H2O↑ • When SH = Saturation SH • Increases geometrically with temperature

7. Dew Point Temperature • Temp at which air, when cooled, becomes saturated • Provides measure of actual moisture in air • Curve is same as for saturation specific humidity • Also, a measure of human comfort • Dew point temp > 70°F considered oppressive

9. Relative Humidity • What TV weather forecasters mean by “humidity” • H2O↑ in air compared to max H2O↑at that temp • Relative Humidity (RH) • RH = 100 X (SH / Saturation SH) • 50% RH means air has ½ max H2O↑ at that temp • RH can change by: • evaporation - condensation - change in temp.

10. What is Heat? • As air rises, it expands and cools

11. Adiabatic Process • The idea is that with a parcel of gas if no energy is added or subtracted, the temperature will rise if it is compressed, and fall if it expands • As air rises in the atmosphere, it expands and cools (since the air pressure drops) • As air falls in the atmosphere, is contracts and heats (Sana Anna winds, Chinooks)

12. Adiabatic Process Air parcels cool at predictable rate as they rise: • Unsaturated (no condensation) • Dry adiabatic lapse rate (DAR)- 10°C/1000m • At lifting condensation level, saturation occurs • Saturated (condensation occurring, heat released) • Cloud forms as parcel rises • Moist adiabatic lapse rate – 4-9°C/1000m • Use 5°C/1000m as estimate of Moist adiabatic rate

14. Precipitation Processes • Air expands & cools as it rises, but… • What makes it rise? • 4 processes help air to rise and drive precipitation • Orographic precipitation • Convective precipitation • Frontal precipitation • Convergence

15. Orographic Precipitation • Moist air forced by wind over mtns • As air is lifted, condensation & precipitation occur • Air passes mtn top & descends leeward side • This air is compressed and warms with no precipitation • The dry, leeward side is called a Rainshadow

16. Orographic Precipitation

19. Convective Precipitation • Air pockets warm at surface & rise rapidly • As they rise, they cool, first at DALR 10°C/1000m • If ELR is high, air bubble stays warmer & rises • Bubble reaches dew point temp → condensation • Condensation forms clouds, releases heat • Air cools at MALR, averaging 5°C/1000m • Bubble cooling much slower than surrounding air • Bubble pushes high into troposphere

21. Convective Precipitation Example