Valley Fog, Hoar Frost, and Inversion

Fog has settled thick in the Salt Lake Valley. Cache valley has had days of fog.

December 7th, 2017

NASA MODIS

December 12th, 2017

NASA MODIS

Freezing fog often causes hoar frost which is the thick white frost that deposits on trees. If the fog droplets are supercooled, meaning the liquid water is below freezing, it will freeze on contact to surfaces. My brother took this picture from Logan:

Photo Credit: Nathan Blaylock

Oh, and the air is getting pretty bad out there. Check out the PM 2.5 trends across northern Utah. Yuck.

airquality.utah.gov

Heber Valley Fog

Fog in Salt Lake City

Thick fog in the Salt Lake Valley this morning.

MSI Building

WBB Camera

Frontrunner Central Station

University of Utah Presidents Circle

U Met Group Web Cams. Low visibility in the valley, but clear up on the bench (at this time anyways)

Twitter

Airport Observations

UofU. Fog moving up on the benches

MesoWest Relative Humidity

Meanwhile, down in Utah County...pretty low clouds (and no snow. The rain melted it all away)

Fog in Boone North Carolina

Foggy Morning

This morning (Sunday, February 3, 2013) the Wasatch woke up to more fog. To me it seems we have had more foggy days than normal. The image from the National Weather Service shows the areas affected by fog this morning. On my way home from church I noticed ice crystals falling, which was interesting.

Fog is simply a cloud that touches the ground. It is made of tiny water droplets suspended in the air. Sometimes you can get precipitation out of fog, like the ice crystals I saw this morning.

Fog can form under several different circumstances but all types require two things: a cooling air parcel and water vapor. The main types include radiation fog, up-slope fog, advection fog, and evaporation fog.

Radiation fog is the type of fog we experienced this morning. Since yesterday was sunny, a lot of the snow melted and evaporated giving one of the ingredients for fog: water vapor. The inversion kept the moist air in the valleys overnight. The second ingredient for fog, cooling temperatures, came during the night. The lowest temperatures happen right before the sun comes up. Since cold air can't hold as much water vapor as warm air, water vapor will condense into tiny water droplets. The temperature at which water turns from a gas to a liquid (condensation) is called the dew point temperature. The dew point temperature is a function of temperature and and amount of water in the air. Relative humidity is a similar measurement. The combination of the evaporating snow and the cold night caused our fog this morning. When the sun came out it warmed the air turning the water droplets back to water vapor. This happens from the surface up, which is why it looks like the fog "lifts" when the sun shines.

(I stole this off the internet. I'm still looking for my picture.
http://digital-rainbow.com/low_clouds.html)

Up-slope fog is caused by air flowing up a mountain or hill. Rising air is subject to lower pressure. It thus expands which causes the air to cool. A moist air parcel moving up a mountain side will cool to its dew point temperature and form a cloud. I like to look for up-slope fog after a summer rain storm. The rain storm supplies water vapor to the air and winds carry it up the mountains. I'm looking for a picture I took of up-slope fog, but I haven't been able to find it. I'll post it as soon as I find it.


Advection fog is when warm, moist air moves across cold surfaces. This is common on coasts when moist ocean air moves inland over the cold land like the infamous San Francisco fog.

Evaporation fog is caused by a warm lake evaporating when the air above is cold. You might see this at Yellowstone in the winter when the hot springs evaporate water vapor into the cold air. You can also get evaporation fog over a warm lake when air temperatures are cold.