Snow Tornado: A Rare Hybrid of Atmospheric Mechanics

The term "snow tornado" is not an official meteorological definition, but describes a series of extremely rare and impressive phenomena in which a rotating column of air interacts with snow. Unlike classic tornadoes associated with powerful convective thunderstorms (supercells), snow whirls form under different conditions and have a different physical nature. They can be classified into two main types.

1. Winter Tornadoes (Winter Tornadoes) – true tornadoes in snowy weather

This is the rarest and most dangerous phenomenon. It represents a real tornado (a vortex that originates from a cumulonimbus cloud and touches the ground) that occurs in winter conditions, often at temperatures around freezing or even below.

Conditions for formation: A powerful atmospheric front carrying unstable air is required. In winter, such instability occurs rarely, but it is possible when warm, moist air from the ocean (for example, from the Gulf of Mexico in the USA) collides with cold continental air. Rising currents in the front zone form thunderstorms capable of producing tornadoes. Snow or freezing rain may fall in the rear, cold part of the system, creating a paradoxical picture.

Examples:

Tornado outbreak on January 24, 1967, in the state of Wisconsin (USA). Several tornadoes were recorded during a severe blizzard and snowstorm. One of them, category F4, traveled 43 km, killing 3 and injuring 50 people, destroying homes and farms under the snow cover. This is one of the deadliest "snow" tornadoes in history.

Tornado in the UK on November 23, 1981, accompanied by snowfall and hail.

Characteristics: Such tornadoes are particularly dangerous due to poor visibility (snowfall or blizzard masks the funnel) and unexpectedness (people are not prepared for tornadoes in winter).

2. Snow whirls resembling tornadoes (Snow Devils / Snow Spouts)

This is not a tornado in the strict sense. They form not from clouds, but from the surface of the earth and by a mechanism closer to dust or sand devils. However, at sufficient intensity, they can visually resemble a small tornado.

Conditions for formation:

Cold, clear weather: Often on a sunny day with a strong frost.

Strong surface heating: A dark surface (rock, cleared land, asphalt) on the background of snow absorbs solar radiation, creating a powerful thermal ascending current above it.

Wind shift at the surface: The difference in wind speed or direction at ground level and a few meters above gives the ascending current rotation.

Snow source: The vortex captures loose, dry snow (snowmelt) from the surface, lifting it into a column. It does not lift snow from the clouds – it "sucks" it from the ground.

Characteristics: Diameter from several decimeters to 10-20 meters, height usually up to 100 m (rarely more), duration of life from several seconds to minutes. There is no connection with the cloud (there may be clear sky above the vortex).

Examples:

Antarctica and the Arctic: Ideal conditions for snow devils – flat ice surface, strong sun, and wind. Here, the largest and most frequent examples are observed.

Plains of Canada and Siberia on clear, frosty days.

Interesting fact: "Snow devils" on Mars. On the Red Planet, giant dust whirls are regularly observed. In the winter period, in polar regions, they can lift not dust, but snow from dry ice (dry ice). Images from rovers and orbiting spacecraft have recorded such phenomena.

3. Tornadoes-squalls (QSL – Quasi-Linear Convective System tornadoes) in snowy weather

This is an intermediate option. Sometimes lines of winter squalls (snow or freezing) can produce weak, short-lived vortices. They form not in a supercell, but on the front line due to a strong wind shift. These vortices are weaker than classic tornadoes, but also dangerous and can occur against the backdrop of a snowstorm.

4. Why are snow tornadoes so rare?

Deficiency of convective energy: Powerful convection is needed for true tornadoes – the rise of warm, moist air. In winter, the air at the surface is usually cold and heavy, and it tends to sink rather than rise.

Atmospheric stability: Winter air masses are often stratified (stable), which suppresses the development of strong ascending currents.

Snow as a stabilizer: The snow cover reflects solar radiation (high albedo), not allowing the surface to heat up significantly and create thermal currents for "snow devils".

5. Scientific and practical significance

Study of atmospheric dynamics: Observing winter tornadoes helps understand the boundary conditions for the occurrence of mesoscale vortices. Their analysis is important for refining prognostic models in conditions of unobvious instability.

Danger to infrastructure: Even weak vortices in conditions of a blizzard are dangerous for power grids, aviation, and can exacerbate the consequences of snowstorms, creating local areas of particularly intense snow transport.

Polar research: Snow vortices in Antarctica are an important factor in snow transport, affecting precise measurements of the mass balance of the ice sheet.

Conclusion

"Snow tornado" is a collective term for phenomena of different nature, united by the spectacular combination of rotational movement and snow mass. From true, destructive winter tornadoes born in thunderstorms to ground-based "snow devils" dancing under clear skies due to solar heat, all demonstrate the amazing diversity of atmospheric mechanics. Their rarity only emphasizes the uniqueness of the conditions necessary for their formation: a delicate balance between heat and cold, moisture and dryness, stability and fierce energy. The study of these phenomena expands our understanding of the conditions under which nature is able to produce one of its most formidable vortex manifestations, seemingly under impossible circumstances.

Постоянный адрес данной публикации: