Avalanche

From TheBestLinks.com

This article refers to the natural event known as an avalanche. For other uses, see below:

• Chevrolet has produced a car named Avalanche
• The Avalanches is an Australian dance music group
• An Avalanche diode is an electronic device

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An avalanche is caused when a build up of snow is released down a slope, and is one of the major dangers faced in the mountains in Winter. An avalanche is an example of a gravity current consisting of granular material.

DEFENITION OF AN AVALANCHE: Lots of material or mixtures of diffrent types of material falling or sliding rapidly under the force of gravity. Avalanches are often classified by what they are made of, for example snow, ice, rock or soil avalanches. A mixture of these would be called debris avalanche.

Table of contents

1 Causes 2 Contributory factors 2.1 Snow 2.2 Terrain 2.3 Weather 3 Avalanche avoidance 3.1 The group 4 Human survival 4.1 Equipment 5 European avalanche risk table 6 See also 7 External links

Causes

Avalanches occur naturally when the weight of snow becomes so heavy that a layer of snow loses its bond with the layer beneath. However most avalanches that involve humans are caused when the additional weight or the action of the equipment (e.g. skis) of the traveller causes the loss of bond.

Contributory factors

There are very many factors that cause a snow slope to be avalanche prone:

Snow

• New snow - has not had time to bond with the layers below, especially if it is light and powdery.

• Snow depth - snow that is above the layer of boulders and plants on the slope has none of these natural objects to help anchor it to the slope, and is therefore more dangerous. Naturally this is just the type of snow needed for snowsports such as skiing.

• Snow crystal shape - small ball-shaped snow crystals act as ball bearings and are potentially dangerous, while crystals that interlock are more stable.

• Snow compaction - compacted snow is less likely to move than light powdery layers.

Terrain

• Steepness - slopes under 25 degrees and over 60 degrees have a low avalanche risk. Slopes in the danger zone are unfortunately ideal for skiing.

• Direction - slopes facing south are most dangerous in the sun and during the spring. In mid winter, the north facing slopes can be more dangerous.

• Profile - convex slopes are more likely to avalanche than concave.

• Shelter - slopes sheltered from the wind are more dangerous, since snow settles there to a greater depth.

• Surface - base avalanches are more common on slopes covered with grass surface than slopes with dwarf pine.

Weather

• Temperature - if the temperature is warm enough for gentle freeze-thaw cycles to take place, the melting and re-freezing of water in the snow stabilizes the snow crystals. Temperatures rising significantly over freezing point may cause the whole slope to avalanche, especially in spring. Persistent low temperatures means the snow does not gain stability from the freeze-thaw action.

• Wind - anything more than a gentle wind can both contribute to rapid build up of snow on sheltered slopes, while the wind pressure can also destabilize slopes.

• Heavy snowfalls - cause instability, both through the additional weight, and because the snow has insufficient time to bond.

• Rain - also causes instability

Avalanche avoidance

Due to the complexity of the subject, winter travelling in the backcountry (off-piste) is never 100% safe. Risks can best be minimised by employing the service of a local qualified mountain guide, by carrying the right equipment and knowing how to use it properly, and by minimising the number of people on the avalanche prone slope to ensure that, should an avalanche occur, immediate help is available.

The group

• Traversing - is to be avoided to minimise the 'cut' made across the slope.

• Risk exposure - minimise the number of people on the slope. Ideally one person should pass over the slope into an avalanche protected area before the next leaves protective cover.

• Group size - the party should be large enough to perform a rescue, but additional people will increase the disturbance to the slope.

Human survival

Even small avalanches are a serious danger to life, even with properly trained and equipped companions who avoid the avalanche.

Research carried out in Italy based on 422 buried skiers indicates how the chances of survival drop

• very rapidly from 92% within 15 minutes to only 30% after 35 minutes (victims die of suffocation)
• and near zero after two hours (victims die of hypothermia)

- Nature vol 368 p21. Consequently it is vital that everyone surviving an avalanche is used in an immediate search and rescue operation, rather than sending for help.

(Historically, the chances of survival were estimated at 85% within 15 minutes, :50% within 30 minutes, 20% within one hour).

Equipment

Chances of being found and rescued are increased by using standard avalanche equipment.

• Beacons - known as ARVAs, avalanche transceivers or under trade names including Ortovox (http://www.ortovox.com/) and Pieps are essential for every member of the party. They emit a 457kHz radio signal in normal use, but can be switched to receive mode to locate a buried victim. To be effective, beacons require significant amount of practice.

• Probes - can be extended to probe into the snow to locate the exact location of a victim at several yards / metres in depth.

• Shovels - essential for digging through the snow to the victim.

Other rescue devices are proposed, developed and used, such as Avalanche Ball (http://www.lawinenball.at/), Avalung vest (http://www.avalung.com) and avalanche airbags.

European avalanche risk table

In Europe, the avalanche risk is widely rated on the following scale.

Risk Level	Snow Stability	Avalance Risk
1 - Low	Snow is very stable on most slopes.	Avalanches are unlikely except when heavy loads are applied on a few steep slopes. Any spontaneous avalances will be small.
2 - Limited	On some steep slopes the snow is only moderately stable. Elshewhere it is very stable.	Avalanches may occur especially on a few generally identified steep slopes when heavy loads are applied. Large spontaneous avalanches are not expected.
3 - Medium	On many slopes the snow is only moderately or weakly stable.	Avalanches are possible on many slopes even if only light loads are applied. On some slopes, medium or even fairly large spontaneous avalanches may occur.
4 - High	On most steep slopes the snow is not very stable.	Avalanches are likely on many slopes even if only light loads are applied. In some places, many medium or fairly large spontaneous avalanches are likely.
5 - Very High	The snow is generally unstable.	Even on gentle slopes, many large spontaneous avalanches are likely to occur.

See also

• Cornices
• Crevasses

• Mountaineering
• Skiing and Ski Topics

• Landslide
• Pyroclastic flow

External links

• Avalanche.Org (http://www.avalanche.org)
• Cyberspace Snow and Avalanche Center (http://www.csac.org/News/)
• Avalanche Avoidance and Route Planning (http://www.pistehors.com/articles/avalanche/avoidance/)

da:Lavine de:Lawine eo:Lavango fr:Avalanche nl:Lawine ja:雪崩 pl:Lawina

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