Weakly bonded old snow and wet snow require caution.
Weak layers in the old snowpack can still be released in some places by individual winter sport participants, especially at transitions from a shallow to a deep snowpack, when entering gullies and bowls for example, as well as in little used backcountry terrain. Caution is to be exercised on steep, little used shady slopes. These avalanche prone locations are rare but are difficult to recognise. Avalanches are medium-sized. A partly overcast night: Outgoing longwave radiation during the night will be reduced in some case. As a consequence of warming during the day and solar radiation small and, in isolated cases, medium-sized wet and gliding avalanches are possible below approximately 2400 m. This applies in particular on extremely steep sunny slopes, as well as on steep, rather lightly snow-covered shady slopes below approximately 1800 m. Backcountry tours should be concluded timely.
Snowpack
dp.1: deep persistent weak layer dp.10: springtime scenario
The snowpack will be quite well bonded. Isolated avalanche prone weak layers exist in the bottom section of the snowpack, especially on shady slopes above approximately 2200 m. The surface of the snowpack will freeze to form a strong crust only at high altitudes and will already be soft in the early morning. Sunshine and high temperatures will give rise as the day progresses to gradual softening of the snowpack. This applies especially on sunny slopes below approximately 2400 m, as well as on steep, rather lightly snow-covered shady slopes below approximately 1800 m. In steep terrain there is a danger of falling on the hard snow surface. The snowpack will be subject to considerable local variations above the tree line. At low and intermediate altitudes less snow than usual is lying.
Tendency
Decrease in danger of wet avalanches as the temperature drops.
Danger level
2200m
Avalanche Problem
Persistent weak layer
2200m
Wet snow
2400m
Weakly bonded old snow and wet snow require caution.
Weak layers in the old snowpack can be released even now easily by individual winter sport participants, especially at transitions from a shallow to a deep snowpack, when entering gullies and bowls for example, as well as in little used backcountry terrain. Caution is to be exercised on steep, little used shady slopes. These avalanche prone locations are rare but are difficult to recognise. Avalanches are medium-sized. A partly overcast night: Outgoing longwave radiation during the night will be reduced in some case. As a consequence of warming during the day and solar radiation small and, in isolated cases, medium-sized wet and gliding avalanches are possible below approximately 2400 m. This applies in particular on extremely steep sunny slopes, as well as on steep, rather lightly snow-covered shady slopes below approximately 1800 m. Backcountry tours should be concluded timely.
Snowpack
dp.1: deep persistent weak layer dp.10: springtime scenario
The snowpack will be quite well bonded. Isolated avalanche prone weak layers exist in the bottom section of the snowpack, especially on shady slopes above approximately 2200 m. The surface of the snowpack will freeze to form a strong crust only at high altitudes and will already be soft in the early morning. Sunshine and high temperatures will give rise as the day progresses to gradual softening of the snowpack. This applies especially on sunny slopes below approximately 2400 m, as well as on steep, rather lightly snow-covered shady slopes below approximately 1800 m. In steep terrain there is a danger of falling on the hard snow surface. The snowpack will be subject to considerable local variations above the tree line. At low and intermediate altitudes less snow than usual is lying.
Tendency
Decrease in danger of wet avalanches as the temperature drops.
Danger level
2200m
Avalanche Problem
Persistent weak layer
2200m
Wet snow
2400m
Weakly bonded old snow and wet snow require caution.
Weak layers in the old snowpack can still be released in some places by individual winter sport participants, especially at transitions from a shallow to a deep snowpack, when entering gullies and bowls for example, as well as in little used backcountry terrain. Caution is to be exercised on steep, little used shady slopes. These avalanche prone locations are rare but are difficult to recognise. Avalanches are medium-sized. A partly overcast night: Outgoing longwave radiation during the night will be reduced in some case. As a consequence of warming during the day and solar radiation small and, in isolated cases, medium-sized wet and gliding avalanches are possible below approximately 2400 m. This applies in particular on extremely steep sunny slopes, as well as on steep, rather lightly snow-covered shady slopes below approximately 1800 m. Backcountry tours should be concluded timely.
Snowpack
dp.1: deep persistent weak layer dp.10: springtime scenario
The snowpack will be quite well bonded. Isolated avalanche prone weak layers exist in the bottom section of the snowpack, especially on shady slopes above approximately 2200 m. The surface of the snowpack will freeze to form a strong crust only at high altitudes and will already be soft in the early morning. Sunshine and high temperatures will give rise as the day progresses to gradual softening of the snowpack. This applies especially on sunny slopes below approximately 2400 m, as well as on steep, rather lightly snow-covered shady slopes below approximately 1800 m. In steep terrain there is a danger of falling on the hard snow surface. The snowpack will be subject to considerable local variations above the tree line. At low and intermediate altitudes less snow than usual is lying.
Tendency
Decrease in danger of wet avalanches as the temperature drops.
Danger level
Currently there are favourable conditions.
On very steep sunny slopes and at the base of rock walls and behind abrupt changes in the terrain individual mostly small moist avalanches are possible as a consequence of warming during the day. Individual avalanche prone locations for dry avalanches are to be found in particular on extremely steep shady slopes and at transitions from a shallow to a deep snowpack. In steep terrain there is a danger of falling on the icy crust.
Snowpack
The snowpack is favourably layered. Sunshine and high temperatures will give rise as the day progresses to moistening of the snowpack. Faceted weak layers exist in the centre of the snowpack, especially on shady slopes above approximately 2200 m. The snowpack will be subject to considerable local variations above the tree line. In all regions only a small amount of snow is lying for the time of year.
Tendency
Thursday: As a consequence of falling temperatures, the activity of small wet avalanches will decrease.
Danger level
Currently there are favourable conditions generally.
Individual avalanche prone locations for dry avalanches are to be found in particular on extremely steep shady slopes and at transitions from a shallow to a deep snowpack. These places are very rare but are difficult to recognise. On extremely steep sunny slopes individual mostly small wet avalanches are possible as a consequence of warming during the day and solar radiation, in particular below approximately 2400 m.
Snowpack
dp.1: deep persistent weak layer dp.10: springtime scenario
The snowpack is favourably layered and its surface has a crust that is strong in many cases, in particular on steep sunny slopes. The surface of the snowpack will freeze to form a strong crust only at high altitudes and will already be soft in the early morning. Sunshine and high temperatures will give rise as the day progresses to increasing moistening of the snowpack. In very isolated cases weak layers exist in the centre of the snowpack, especially on shady slopes above approximately 2200 m, and on sunny slopes at elevated altitudes. In steep terrain there is a danger of falling on the hard snow surface. The snowpack will be subject to considerable local variations above the tree line. At low and intermediate altitudes less snow than usual is lying.
Tendency
Decrease in danger of wet avalanches as the temperature drops.
Danger level
Currently there are favourable conditions generally.
Individual avalanche prone locations for dry avalanches are to be found in particular on extremely steep shady slopes and at transitions from a shallow to a deep snowpack. These places are very rare but are difficult to recognise. On extremely steep sunny slopes individual mostly small wet avalanches are possible as a consequence of warming during the day and solar radiation, in particular below approximately 2400 m.
Snowpack
dp.1: deep persistent weak layer dp.10: springtime scenario
The snowpack is favourably layered and its surface has a crust that is strong in many cases, in particular on steep sunny slopes. The surface of the snowpack will freeze to form a strong crust only at high altitudes and will already be soft in the early morning. Sunshine and high temperatures will give rise as the day progresses to increasing moistening of the snowpack. In very isolated cases weak layers exist in the centre of the snowpack, especially on shady slopes above approximately 2200 m, and on sunny slopes at elevated altitudes. In steep terrain there is a danger of falling on the hard snow surface. The snowpack will be subject to considerable local variations above the tree line. At low and intermediate altitudes less snow than usual is lying.
Tendency
Decrease in danger of wet avalanches as the temperature drops.