EN: InfoTooltip

EN Gültigkeit-Tooltip

Publication times and validity

Winter and spring

As a general rule, the avalanche bulletin is published daily at 5 pm and consists of the following parts:

  • Forecast of the avalanche danger (hazard map and danger description) for the period until 5 pm the next day (in four languages).
  • Description of the snowpack and weather in German, valid until 5 pm the next day. The translations (into French, Italian and English) are available by 6 pm at the latest.

In the winter months in particular, the avalanche danger forecast is updated at 8 am (in four languages) when the evening bulletin indicates danger level 3 (considerable) or higher anywhere in Switzerland. If the highest forecast danger level was 2 (moderate), the publication of a morning update depends on the actual situation. Morning bulletins are usually announced in the previous evening’s bulletin.

In principle, an assessment of the avalanche danger can also be issued at other times and without prior notice, but this happens only on rare occasions.

Summer and autumn

From early summer until autumn, avalanche bulletins are published in case of heavy snowfall, and in late autumn at other times as well if the snow cover warrants it. As in this period the volume of on-site data available is less than in mid-winter, these bulletins are less detailed and shorter.
The criteria for the publication of a summer avalanche bulletin are met if the forecast depth of fresh-fallen snow per precipitation occurrence (normally 1 – 3 days) reaches one of the following values:

  • 40 cm at 2500 m
  • 60 cm at 3000 m
  • 80 cm at 3500 m

These values are only intended as a guideline. Whether a bulletin is actually published also depends on the wind, the temperature and the spread and characteristics of the existing snowpack. Furthermore, the snowfall event must affect at least one whole massif; local snow flurries caused for example by individual thunderstorm cells do not count towards this.

 

EN Gefahrenstufen Tooltip

Danger levels

The SLF uses the five-level European avalanche danger scale to denote the avalanche danger. However, in reality the avalanche danger changes gradually. This means there is a range within each level.  The subdivisions allow the unfolding danger situation to be tracked more accurately. The avalanche warning service communicates with it where within the range it assesses the current danger.

Avalanche danger scale

Short version

Danger level

Characteristics

Recommendations for backcountry recreationists

5

very high

Extraordinary avalanche situation

Numerous very large and extremely large natural avalanches can be expected. These can reach roads and settlements in the valley.

You are advised not to engage in winter sports beyond open ski runs and trails.

Very rarely forecast.

Around 1 % of avalanche fatalities.

4

high

Very critical avalanche situation

Natural and often very large avalanches are likely. Avalanches can easily be triggered on many steep slopes. Remote triggering is typical. Whumpf sounds and shooting cracks occur frequently.

Stay on moderately steep terrain. Heed runout zones of large avalanches. Unexperienced persons should remain on open ski runs and trails.

Forecast only on a few days throughout the winter.

Around 10 % of avalanche fatalities.

3

considerable

Critical avalanche situation

Whumpf sounds and shooting cracks are typical. Avalanches can easily be triggered, particularly on steep slopes with the aspect and elevation indicated in the avalanche bulletin. Natural avalanches and remote triggering can occur.

The most critical situation for backcountry recreationists. Select best possible route and take action to reduce risks. Avoid very steep slopes with the aspect and elevation indicated in the avalanche bulletin. Unexperienced persons are advised to remain on open ski runs and trails.

Forecast for around 30 % of the winter season.

Around 50 % of avalanche fatalities.

2

moderate

Mostly favourable avalanche situation

Warning signs can occur in isolated cases. Avalanches can be triggered in particular on very steep slopes with the aspect and elevation indicated in the avalanche bulletin. Relatively large natural avalanches are not to be expected.

Routes should be selected carefully, especially on slopes with the aspect and elevation indicated in the avalanche bulletin. Travel very steep slopes one person at a time. Pay attention to unfavourable snowpack structure (persistent weak layers, old snow problem).

Forecast for around 50 % of the winter season.

Around 30 % of avalanche fatalities.

1

low

Generally favourable avalanche situation

No warning signs present. Avalanches can only be triggered in isolated cases, in particular on extremely steep slopes.

Travel extremely steep slopes one person at a time and be alert to the danger of falling.

Forecast for around 20 % of the winter season.

Around 5 % of avalanche fatalities.

Full description of the European avalanche danger scale

This scale, introduced by the European Avalanche Warning Services on winter 1993/94, defines the danger level based on the snowpack stability and the avalanche triggering probability. The full description of the scale also includes other columns that have not been internationally agreed relating to typical characteristics, recommendations and consequences.

European Danger Scale with recommendations and additions (.pdf)

Subdivisions

When there is a moderate or higher danger of dry-snow avalanches (starting from level 2), the SLF subdivides the points on the European avalanche danger scale. These subdivisions indicate whether the danger is estimated to be towards the bottom end (-), more or less in the middle (=) or towards the top end (+) of the forecast level.

Danger levels – a simplified picture of reality

The avalanche danger does not increase in linear fashion from one level to another, but disproportionately. As the danger level increases,

  • snowpack stability, and therefore the additional load required to trigger an avalanche, decreases.
  • the frequency of avalanche prone locations increases. In other words, there are more places where avalanches can release naturally or be triggered.
  • avalanche size increases as well, in particular when the danger level is at the higher end of the scale.

If the additional load required to trigger an avalanche decreases and there are also more locations where avalanches can be triggered, the avalanche triggering probability increases. This is also shown by the stability distribution in the chart below.

In a typical case, all these influencing variables change as indicated above. This means that in the case of 'low' avalanche danger, usually only small avalanches are triggered in just a few locations and mostly only due to a high additional load, while in the case of 'high' avalanche danger, a lot of avalanches, some of them very large, are triggered or are released naturally (without human influence).

However, there are also atypical situations that do not fit into this picture. These are detailed in the next section.

Various characteristics of avalanche danger

Also in the case of less typical avalanche situations the danger level is a measure of the order of magnitude of the avalanche danger. These situations are detailed below along with information about their assessment by the avalanche warning service. As these are atypical situations, no list can ever be exhaustive. In atypical situations deviations from the danger level definition are inevitable. These are set out as far as possible in the avalanche bulletin's danger description.

Faceted-crystal snowpack

In the case of low avalanche danger (level 1) the snowpack is normally well bonded and stable. However, after long periods of fine weather with shallow snow, another form of snow occurring in mid-winter which makes slab avalanches virtually impossible is the whole snowpack being loose and transformed into faceted crystals. The snowpack is then very weak and there are also weak layers, but the bonded layer on top (the 'slab') is lacking. With no bonded layer a fracture cannot be propagated, meaning that there is no possibility of a slab avalanche forming. This means there is a low avalanche danger (level 1), despite or precisely because of the very loose snowpack. 'Stable snowpack' means 'not liable to trigger slab avalanches' and does not refer to the hardness of the layers.

This situation is not a good omen for the immediate future, given that as soon as it is snowed on, the fresh-fallen snow and fresh snowdrift result in the creation of a 'slab' where one did not exist before. Underneath this is the loose old snowpack in the form of a substantial weak layer. The avalanche danger will increase significantly, generally resulting in a long-lasting old-snow problem.

Small, easily triggered snowdrift accumulations

Fresh snowdrift accumulations can often be triggered by individual winter sports enthusiasts. The size of the snowdrift accumulations depends not only on the wind but also on the supply of fresh and old snow which can be transported. For only little snow which can be transported, the snowdrift accumulations are usually so small that getting buried by them is unlikely. In this case, level 2 (moderate) is often used despite the high probability of an avalanche release. In such situations the snowdrift accumulations can usually be seen in good visibility by the trained eye. They need to be avoided especially on terrain where there is a danger of falling.

Old-snow problem with a significant weak layer deep down in the snowpack

The more thickly a weak layer is covered, the more difficult it becomes for a fracture to form there. This is most likely to occur in locations where the snow is relatively shallow or in transitions from shallow to deep snow. In the case of an old-snow problem with a significant weak layer deep down in the snowpack, avalanche prone locations are usually relatively rare. However, avalanches often reach large size, and are therefore particularly dangerous for winter sports enthusiasts. Therefore, the avalanche danger in the case of an old snow problem can sometimes be considerable (level 3) even if the avalanche prone locations are fairly rare. An aggravating factor is that the avalanche prone locations are barely recognisable in old snow situations, even to the trained eye. In the case of weak old snow, more fatalities can be expected than in the case of the other avalanche problems (at the same danger level).

'Skier high'

If numerous large and, in many cases, very large-sized natural avalanches can be expected, the avalanche danger is classified as ‘high’ (level 4). In these circumstances, exposed objects (mostly sections of transportation routes, but also buildings in isolated cases) can be endangered. Alongside this classic ‘road high’ situation there is a further variant of this danger level when, even though very large avalanches are unlikely to occur, there are a lot of places where people can very easily trigger medium and large-sized avalanches. In many such cases, avalanches are released naturally as well. When this ‘skier high’ situation exists, those engaging in winter sports beyond the boundaries of marked and secured pistes are in acute danger. Transportation routes, in contrast, are either unaffected or affected only in isolated cases. When ‘skier high’ applies, the danger is usually described with the subdivision 4- or 4=; in the case of ‘road high’, any of the subdivisions can be used.

Avalanche activity in case of wet and gliding snow

Wet-snow avalanches are seldom triggered by people, and in the case of gliding avalanches this is virtually impossible. Therefore, natural triggering is the main cause of such avalanche types even in the when lower danger levels prevail. The maximum possible naturally triggered avalanche activity, based on the defined danger level, relates mainly to wet-snow and gliding-snow conditions and less to conditions involving dry avalanches. In this context large natural avalanches are possible when there is a moderate danger of wet-snow or gliding avalanches. In the case of a situation with dry-snow avalanches, such naturally triggered avalanche activity normally corresponds to a considerable avalanche danger, as then avalanches are also expected to be triggered by individuals.

Change in the avalanche danger as the day progresses

The avalanche danger changes over time and may not reach or overshoot the boundary between one danger level and another within the period of validity of the avalanche bulletin. Ordinarily the danger increases, for example because snowfall or wind, significantly faster than it recedes again.

If the danger level is likely to change during the day, the level published in the avalanche bulletin and the danger description normally show the situation in the morning. The change (often an increase) is indicated in the danger description. Here are some examples:

  • "The avalanche danger will increase and reach level 3 (considerable) in the afternoon." In this case, level 2 (moderate) is marked on the hazard map.
  • "Danger level 4 (high) will be reached during the morning." In this case, level 4 (high) is marked on the hazard map.
  • "As a consequence of daytime warming and solar radiation, wet-snow avalanches can be expected as the day progresses below approximately 2400 m."

If the avalanche danger is assessed to be level 4 (high) or even level 5 (very high) at night, and then one level lower during the day, the morning rule is deviated from. As when transport routes are endangered, the avalanche danger is also significant at night, the higher avalanche level that applies during the night is given in the evening edition. In the morning edition this is then reduced to the level applying in the morning.

Double map

In typical springtime conditions, the danger of wet-snow avalanches along with daytime warming and solar radiation will increase significantly as the day progresses. During the day the danger of dry-snow avalanches will usually only change slightly in these conditions. Thus, while in the morning dry-snow avalanches are the main danger, in the afternoon the main danger is posed by wet-snow avalanches. In this situation, two maps show both the more favourable morning situation and the unfavourable situation in the afternoon. The transition from one map to another cannot be pinned down to a specific time. It depends on the conditions and the altitude and also in particular the aspect. Whereas on east-facing slopes the danger of wet-snow avalanches will already increase during the morning, this usually occurs only later on west-facing slopes.

Additional information

Avalanche danger and risk

The avalanche bulletin describes the avalanche danger, i.e. the likelihood of a release, the expected number and the possible size of avalanches in a specific region, but the exact timing of an avalanche being triggered and the actual length of its starting zone and fracture depth cannot be determined.

An avalanche danger only becomes a risk (i.e. a probability that damage will occur) if endangered individuals, animals, forest, infrastructure etc. are in the area of the potential avalanche. In the avalanche bulletin, the avalanche danger is assessed regardless of the presence of endangered individuals or objects, i.e. on weekends with fine weather and weekdays with poor weather alike, and for populated areas and outlying terrain alike.

If an avalanche is released somewhere on a glacier during a snowstorm, there would obviously be an avalanche danger, but there would be no risk if there were no people in the surrounding area. If the same avalanche is released on a popular touring route on a sunny weekend, the risk would be much greater. The danger given in the avalanche bulletin may be the same in both cases, but the risk will be different.

Avalanches are a very special natural hazard, since unlike flash floods or earthquakes the 'perilous process' of an avalanche can be initiated by human activity. If anyone comes onto a dangerous slope, the artificial additional load can trigger an avalanche. In the case of more than 90% of the snow sports enthusiasts buried by a slab avalanche, they triggered the avalanche themselves or it was triggered by another member of their group.

Frequency of danger levels

Danger level 2 (moderate) is forecast in the Alps on two out of five days in each warning region. It is the most frequently cited danger level and describes days on which the avalanche danger is about “average”. Level 3 (considerable) is forecast on around one in three days. Danger level 4 (high) applies on just 2.2% of winter days on average, and level 5 (very high) is forecast only extremely seldom. In the Jura, the lower danger levels apply more frequently.


EN Wetter Rückblick Tooltip

Division into regions

For the purposes of the avalanche bulletin, the Swiss Alps are divided in alignment with the warning regions used by the other federal natural hazard agencies (MeteoSwiss, Federal Office for the Environment (FOEN), Swiss Seismological Service (SED)). Groups consisting of several warning regions are formed, generally by applying climatological or political criteria, yielding overarching region names (see the maps below).

Great care is required when interpreting references in the context of backcountry tours in regional border areas. For example, the Jungfrau region is usually accessed from the north (northern flank of the Alps or Bernese Oberland), but the backcountry touring area mostly lies in Valais.

Marginal areas

There are no clearly defined boundaries between two regions with different danger assessments (e.g. different danger levels or different frequencies of avalanche prone locations) but instead transitional areas which in many cases cannot be clearly assigned to either avalanche situation. This means that in a marginal area several kilometres wide, it can be assumed that either the more or the less favourite situation may apply.

Those undertaking backcountry ski or snowshoe hiking tours in such areas should therefore consult the avalanche bulletin for both regions in question.

Warning regions (the 149 smallest units)

Northern and southern flanks of the Alps, and the Jura

Main Alpine Ridge, Northern Alpine Ridge and Inneralpine Regions

The Main Alpine Ridge extends from Val Ferret via the Great St Bernard, Monte Rosa, Simplon, Gotthard, Lukmanier, San Bernardino, Maloja and Bernina passes to beyond Val Müstair.

The Northern Alpine Ridge covers a belt running from the Dent du Midi via the Wildstrubel and Jungfrau regions and Gotthard, Tödi and Vorab to Liechtenstein.

The Inneralpine Regions encompass the regions between the Main Alpine Ridge and the Northern Alpine Ridge, namely those of Central Valais, and parts of Northern and Central Grisons and Engadine.

Major political regions

The Grisons southern valleys consist of Val Mesolcina and Val Calanca (collectively Moesano), Val Bregaglia, Val Poschiavo and Val Müstair.

Political subregions 1

Political subregions 2

The Gotthard region consists of Obergoms, the Grimsel region, Urseren, Tavetsch, the Upper Valle Leventina and Val Bedretto.