During the most recent inversion event, fog developed over the Great Salt Lake, eventually expanding to cover most of the lake and environs. Below is a series of images from the NASA Terra satellite, which flys over roughly mid morning on December 4th, 6th, and 8th, the latter being yesterday (Sunday).
It was on the 4th that fog first became evident, with a couple of regions of fog extending westward from near Antelope Island over the southern bay of the lake.
By the 6th, fog covered most of the lake.
And finally, by yesterday (Sunday, 8 December), the lake was nearly entirely covered and spread into populated areas that included the northern Salt Lake Valley and portions of Davis County.
Given the limited lowland snow cover in this instance, it is likely that the evaporation of water from the lake played an essential role in fog formation in this event, leading to fog development and persistence mainly over and near the lake.
I often tell students not to conflate the inversion with the pollution or the fog layer. In part, this is because the stratified nature of the atmosphere during inversion events is such that neither the fog nor the pollution are perfectly colocated with the inversion. Instead they are embedded in it or trapped beneath it. The former was the case yesterday.
Temperatures in the morning sounding from the airport yesterday increased with height from the surface to 817 mb, or 6010 feet.
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Source: SPC |
However, the fog was much shallower than that. In fact, one was above it at about 5200 feet elevation in the Avenues foothills.
And at times the LDS office building and other tall buildings downtown rose above it.
There was also evidence of pollution above the fog layer. This might be inferred from the photos above but is better illustrated by one taken towards the sun and University of Utah. In it you can see the fog, as well as complex layering of aerosols (i.e., pollution) in the atmosphere.
During inversion events, the atmosphere is often highly stable and "inverted" through a layer that is much deeper than either the fog or pollution layer. Emissions and the transport of pollution by atmospheric flows and turbulence often occur within or beneath the inversion. In these instances, the atmosphere is often quite stable (and often "inverted") even above the fog or pollution. Variations in the timing and location of emissions, and the transport of them by atmospheric flows and turbulence, yield layers of "haze". Natural emissions of water vapor from the lake are also trapped at low levels, resulting in fog formation over and near the lake, but not necessarily through the same depth as the pollution.
In this most recent event, we ended up with a highly stratified atmosphere with fog and pollution layers.
Thankfully, we had something to drive more mixing in the atmosphere yesteday and last night, and that was increasing flow and the decrease of temperatures aloft which were associated with an approaching trough. Ultimately this mixed out the atmosphere, to everyone's great relief.
Breathe easy.