1. Clouds ATS351 Lecture 5

2. Outline Review CCN Fog Clouds Types Use of Satellite in Cloud Identification

3. Cloud Condensation Nuclei Aerosols may become CN; and CN may become CCN – But not all CN are CCN – Larger concentrations over land Cloud droplets can form on both insoluble and soluble particles A particle that will serve as CCN is called hygroscopic or hydrophilic – condensation may occur at RH <100% A particle that will not serve as a CCN is called hydrophobic. – condensation may occur at RH >100% CCN Sources may include: – dust, volcanoes, factory smoke, forest fires, sea salt

4. Cloud Condensation Nuclei Described by the size of the particle

5. Haze Dry haze – Just the small particles themselves, maybe a little bit of condensation Wet haze – Begins at RH ~ 75% – Much more light scattering than dry (3x) ‏

6. Fog Going above 70% RH to 100% Condensation on less active nuclei Essentially, a thick wet haze on the ground or a low cloud Called fog when visibility is less than 1 km 4 Main Types – Radiation – Advection – Upslope – Evaporation/Mixing

7. Fog Type of CN affects fog Over the ocean – Fewer, larger drops Over urban areas – More, smaller drops – Lower visibility – London Fog Chemical reactions can cause fog to become acidic If temperatures drop below freezing, freezing fog may result

8. Radiation/Ground Fog Surface radiatively cools Light breeze helps more air contact cold surface Common in the fall and winter (associated with ridges) ‏ Common in low-lying areas – River valleys Form upward from the ground – Deepest around sunrise – May intensify after sunrise (dew evaporation) ‏ “Burns Off” with more insolation – Dissipates from bottom up – Dissipates easily around edges (thin, mixing) ‏

9. Advection Fog Warm air moves over a cold surface. Breeze required Pacific Coast Cold Current Gulf Stream and British Isles May combine with radiation fog

10. Upslope Fog Moist air rises up the side of a mountain Just like a cloud forming, but touching the surface Would be seen on western slopes (not around Fort Collins as much except in the case of easterly winds and associated upslope) ‏ Can last for days under the right conditions

11. Evaporation (Mixing) Fog Just like breathing out when it’s cold Cold air over warm water (steam fog) ‏ – Seen over a pool or spa Increased moisture raises the dew point – Maintained through vapor pressure difference and mixing Steam devils on a lake Precipitation Fog

12. Foggy Weather Annual number of days with fog in the US

13. Clouds Clouds result when saturation occurs Properties: – Variety of sizes – Contain water drops and/or ice crystals – Various heights – Stratospheric clouds rare, but important for creation of the ozone hole

14. Cloud Classification

16. Cirriform Clouds Usually exist above 16,000 feet Generally thin, sometimes partially translucent Comprised of ice crystals Absorb longwave radiation, but highly reflective of visible radiation (high albedo) ‏ Rarely precipitate – Virga Examples:

17. Cirrus (Ci): Called “mares tails” Wispy

18. Cirrostratus (Cs): Usually present when halos around the sun are observed Halo

19. Cirrocumulus (Cc): Called “fish scales” or “mackerel sky”

20. Stratiform clouds Characterized by a horizontally uniform base (Layered) ‏ May or may not precipitate May exist at any level

21. Stratus (St): Uniform and gray, maybe lifted fog

22. Stratocumulus (Sc): Small “empty” spaces, large coverage

23. Nimbostratus (Ns): Patchier and rainier than regular stratus

24. Marine stratus

25. Cumuloform clouds Large vertical extent May or may not precipitate Result from vertical motion Cumulus (Cu) Examples:

26. Cumulus Humilis: “Fair weather”

27. Cumulus Congestus: Towering Cumulus

28. Cumulus Congestus

29. Cumulonimbus: Anvil Cloud

31. Other cloud types

32. Mammatus clouds Precipitation evaporates out of anvil Evaporation cools the air and it sinks If drops are large, mammatus will be long lived

33. Fractus Clouds Also known as scud clouds Low, detached clouds caught in the outflow of a thunderstorm Can also be seen below stratus clouds.

34. Pyrocumulus Caused by fire, volcano or industry Caused by intense heating of moist air Only forms in Calm wind situations

35. Condensed exhaust from jet aircraft Important when considering climate effects of clouds Contrails

36. Cloud Formations Lenticular Kelvin-Helmholtz waves Cloud streets Wall Clouds Shelf Clouds

37. Lenticular Clouds Stationary, lens-shaped clouds over mountains at high altitude Stable, moist air flows over mountain, creating a large scale standing wave Indicates region of turbulence

38. Kelvin-Helmholtz Waves Form when two parallel layers of air are moving at different speeds and in different directions Upper layer is usually faster Very short lived

39. Cloud Streets Form due to horizontal rolls in the atmosphere Also due to uneven surface heating Clouds form over updrafts in rolls Occurs more frequently over the ocean

40. Shelf and Roll Clouds Low, horizontal, wedge-like cloud Shelf: Attached to Parent Storm Roll: Removed from Parent Storm Formation is due to gust front from thunderstorms

41. Wall Cloud Associated with severe thunderstorms Indicates area of strongest updraft The strongest tornados form here

42. Really High Clouds Nacreous Clouds (mother of pearl) ‏ – Form in stratosphere – Seen best at polar latitudes in winter – Composition not well known Noctilucent Clouds – Sometimes seen in the mesosphere – Stars shine through them – Made of tiny ice crystals

43. Nacreous Clouds

45. Noctilucent Clouds From Space From Surface

46. Satellite Imagery Visible imagery: essentially a black and white camera on a satellite. Measures brightness in the visible spectrum. Infrared imagery: measures infrared radiance from the surface it is pointed at. From blackbody theory, the temperature of the surface can be found; since temperature changes with height, the cloud-top height can then be estimated.

47. Visible Satellite Pros - good at showing low clouds and fog - available in high spatial resolution Cons - only works in daylight - clouds can be confused with reflective features like snow - optically thin clouds like cirrus don’t show as well

48. IR Satellite Pros - available at all hours - provides an estimate of cloud-top height Cons - lower spatial resolution - low clouds don’t show because their temperatures are close to the surface temperature Color enhancement table often applied to bring out important temperatures Raw Enhanced

49. Clouds and Satellite Imagery The bright, puffy areas in the visible image on the right are cumulus and cumulonimbus clouds (the cumulonimbus are fuzzier around the edges). Notice how the cloud tops over the Front Range are cold in the IR imagery

50. Cirrus in visible vs. IR Because cirrus are cold and optically thin (meaning the sun can be seen through the cloud), they are more easily seen in the IR than the visible

51. Low clouds/fog in visible vs. IR Because low clouds are bright and warm, they are easily seen in the visible, but not the IR