Fogs are classified into several types based on the process that formed them.
Radiation fog is formed by the cooling of Earth's surface and lower atmosphere after sunset, in clear and calm conditions. The ground reradiates heat absorbed during the day, cooling due to heat loss. The cooling ground then cools adjacent air by
conduction, causing the air temperature to fall and be cooler than the air immediately above it, a condition known as an
inversion. When the air underneath the inversion layer is sufficiently humid and reaches the
dew point, fog will form. Moderate to strong wind tends to prevent fog formation by circulating the air and preventing the cooling effect. Extensive fog is most likely to form in a slight breeze, as
turbulence can spread the cooled surface air. This can produce a layer of fog several hundred feet in depth, above which the air remains warm. Radiation fog most often occurs over swampy terrain and in valleys where cold air flows in and collects at the bottom. Radiation fog can persist all day in the winter months especially in areas bounded by high ground. An example of radiation fog is
tule fog. .
Ground fog is fog that obscures less than 60% of the sky and does not extend to the base of any overhead clouds. However, the term is usually a synonym for shallow radiation fog; in some cases the depth of the fog is on the order of tens of centimetres over certain kinds of terrain with the absence of wind. with the
Golden Gate Bridge and skyline in the background and the
Sydney Opera House, Australia
Advection fog occurs when moist air passes over a cool surface by
advection (wind) and is cooled. It is common as a
warm front passes over an area with significant snow-pack. It is most common at sea when moist air encounters cooler waters, including areas of cold water
upwelling, such as
along the California coast. A strong enough temperature difference over water or bare ground can also cause advection fog. Although strong winds often mix the air and can disperse, fragment, or prevent many kinds of fog, markedly warmer and humid air blowing over a snowpack can continue to generate advection fog at elevated velocities up to or more – this fog will be in a turbulent, rapidly moving, and comparatively shallow layer, observed as a few centimetres/inches in depth over flat farm fields, flat urban terrain and the like, and/or form more complex forms where the terrain is different such as rotating areas in the lee of hills or large buildings and so on. Fog formed by advection along the California coastline is propelled onto land by one of several processes. A cold front can push the marine layer coast-ward, an occurrence most typical in the spring or late fall. During the summer months, a low-pressure trough produced by intense heating inland creates a strong pressure gradient, drawing in the dense marine layer. Also, during the summer, strong high pressure aloft over the desert southwest, usually in connection with the summer
monsoon, produces a south to southeasterly flow which can drive the offshore marine layer up the coastline; a phenomenon known as a "southerly surge", typically following a coastal heat spell. However, if the monsoonal flow is sufficiently turbulent, it might instead break up the marine layer and any fog it may contain. Moderate turbulence will typically transform a fog bank, lifting it and breaking it up into shallow convective clouds called
stratocumulus.
Frontal fog forms in much the same way as stratus cloud near a front when raindrops, falling from relatively warm air above a frontal surface, evaporate into cooler air close to the Earth's surface and cause it to become saturated. The water vapor cools and at the dewpoint it condenses and fog forms. This type of fog can be the result of a very low frontal stratus cloud subsiding to surface level in the absence of any lifting agent after the front passes.
Hail fog sometimes occurs in the vicinity of significant
hail accumulations due to decreased temperature and increased moisture leading to saturation in a very shallow layer near the surface. It most often occurs when there is a warm, humid layer atop the hail and when wind is light. This ground fog tends to be localized but can be extremely dense and abrupt. It may form shortly after the hail falls; when the hail has had time to cool the air and as it
absorbs heat when melting and evaporating.
Freezing conditions '''''' occurs when liquid fog droplets freeze to surfaces, forming white soft or hard
rime ice. This is very common on mountain tops which are exposed to low clouds. It is equivalent to
freezing rain and essentially the same as the ice that forms inside a freezer which is not of the "frostless" or "frost-free" type. The term "freezing fog" may also refer to fog where water vapor is
super-cooled, filling the air with small ice crystals similar to very light snow. It seems to make the fog "tangible", as if one could "grab a handful". of freezing fog in the
Okanagan Highlands In the
western United States, freezing fog may be referred to as
pogonip. It occurs commonly during cold winter spells, usually in deep mountain valleys. The word pogonip is derived from the
Shoshone word
paγi̵nappi̵h, which means "cloud". In ''
The Old Farmer's Almanac,
in the calendar for December, the phrase "Beware the Pogonip" regularly appears. In his anthology Smoke Bellew'',
Jack London describes a pogonip which surrounded the main characters, killing one of them. The phenomenon is common in the inland areas of the Pacific Northwest, with temperatures in the range. The
Columbia Plateau experiences this phenomenon most years during
temperature inversions, sometimes lasting for as long as three weeks. The fog typically begins forming around the area of the
Columbia River and expands, sometimes covering the land to distances as far away as
La Pine, Oregon, almost due south of the river and into south central Washington.
Frozen fog (also known as
ice fog) is any kind of fog where the droplets have frozen into extremely tiny crystals of ice in midair. Generally, this requires temperatures at or below , making it common only in and near the
Arctic and
Antarctic regions. It is most often seen in urban areas where it is created by the freezing of water vapor present in automobile exhaust and combustion products from heating and power generation. Urban ice fog can become extremely dense and will persist day and night until the temperature rises. It can be associated with the
diamond dust form of precipitation, in which very small crystals of ice form and slowly fall. This often occurs during blue sky conditions, which can cause many types of halos and other results of refraction of sunlight by the airborne crystals. Ice fog often leads to the visual phenomenon of
light pillars. File:PostcardVirginiaCityNVPogonipCirca1907.jpg|Pogonip fog in
Virginia City, Nevada, from an early 20th-century postcard File:Tree in field during extreme cold with frozen fog.png|A tree in a field during extreme cold with frozen fog File:Näsijärvi, Tampere, Finland. January 2019.jpg|Ice fog on
Pyhäjärvi,
Tampere during sunset.
Topographical influences Up-slope fog or
hill fog forms when winds blow air up a
slope (called
orographic lift),
adiabatically cooling it as it rises and causing the moisture in it to condense. This often causes freezing fog on mountaintops, where the
cloud ceiling would not otherwise be low enough.
Valley fog is a special case of radiation fog that forms in
valleys. Pooling of cold air into valleys means fog can form more quickly and last longer, compared to over flat terrain. During winter, some valleys or basins will see fog lasting for several days in calm conditions. In California's
Central Valley, valley fog is often referred to as
tule fog.
tule fog Sea and coastal areas Sea fog (also known as
haar or
fret) is heavily influenced by the presence of
sea spray and microscopic airborne salt crystals. Clouds of all types require minute
hygroscopic particles upon which water vapor can condense. Over the ocean surface, the most common particles are salt from salt spray produced by breaking waves. Except in areas of storminess, the most common areas of breaking waves are located near coastlines, hence the greatest densities of airborne salt particles are there. Condensation on salt particles has been observed to occur at humidities as low as 70%, thus fog can occur even in relatively dry air in suitable locations such as the California coast. Typically, such lower humidity fog is preceded by a transparent mistiness along the coastline as condensation competes with evaporation, a phenomenon that is typically noticeable by beachgoers in the afternoon. Another recently discovered source of condensation nuclei for coastal fog is
kelp seaweed. Researchers have found that under stress (intense sunlight, strong evaporation, etc.), kelp releases particles of
iodine which in turn become nuclei for condensation of water vapor, causing fog that diffuses direct sunlight.
Sea smoke, also called
steam fog or
evaporation fog, is created by cold air passing over warmer water or moist land. It may cause freezing fog or sometimes
hoar frost. This situation can also lead to the formation of
steam devils, which look like their
dust counterparts. Lake-effect fog is of this type, sometimes in combination with other causes like radiation fog. It tends to differ from most advective fog formed over land in that it is (like
lake-effect snow) a convective phenomenon, resulting in fog that can be very dense and deep and looks fluffy from above.
Arctic sea smoke is similar to sea smoke but occurs when the air is very cold. Instead of condensing into water droplets, columns of freezing, rising, and condensing water vapor is formed. The water vapor produces the
sea smoke fog and is usually misty and smoke-like.
Garúa fog near the coast of
Chile and
Peru occurs when typical fog produced by the sea travels inland but suddenly meets an area of hot air. This causes the water particles of fog to shrink by evaporation, producing a "transparent mist". Garua fog is nearly invisible, yet it still forces drivers to use windshield wipers because of condensation onto cooler hard surfaces.
Camanchaca is a similar dense fog. File:Seattle Columbia Pano2.jpg|Fog rolls into
Seattle from the sea File:Sea fog encroaching on Brighton pier.jpg|Sea fog or "fret" encroaching on
Brighton Pier File:MS Europa vor der Insel Jan Mayen im Nebel - 2011.png|Sea fog in the
Arctic Ocean near the island of
Jan Mayen == Effects ==