Avalanche Forecast
Issued: Mar 8th, 2020 5:00PM
The alpine rating is Persistent Slabs, Wind Slabs and Loose Wet.
, the treeline rating is , and the below treeline rating is Known problems includeIntense sun may make recent snow and cornices more sensitive to failure. Adjust travel to give steep, sun-exposed slopes and cornices a wide berth. A buried weak layer warrants a conservative mindset and terrain use strategy, particularly in the south of the region.
Summary
Confidence
Moderate - Uncertainty is due to extremely variable snowpack conditions reported through the region.
Weather Forecast
Sunday night: Mostly clear, light west winds, alpine temperature -18 C.
Monday: Mostly clear, light southwest winds, alpine high temperature -5 C, freezing level 1000 m.
Tuesday: Increasing cloud, 5-15 cm of snow, strong south winds, alpine high temperature -4 C, freezing level 1300 m.
Wednesday: Mostly cloudy, 5-10 cm of snow overnight, alpine high temperature -4 C, freezing level 1000 m.
Avalanche Summary
Many large to very large avalanches (size 2-3) releasing on the February 22 surface hoar have been observed over the past week. These avalanches primarily occurred on north, northeast, and east aspects between 1400-2100 m and in the southern part of the region. These avalanches propagated widely across terrain features, warranting conservative terrain margins. This MIN from a large, snowmobile-triggered avalanche on Friday is a helpful example.Â
In the aftermath of last week's storms, a natural cycle of large to very large (size 2-3) avalanches were observed on wind-loaded aspects (northeast, east, and southeast) above 1800 m. Several were triggered by large cornices failures. If triggered, wind slabs and cornices could step down to the buried surface hoar layer, forming large avalanches. Use added caution on sun-exposed slopes during intense solar radiation, as rapidly warming snow and weakening cornices could trigger loose or slab avalanches.
Snowpack Summary
Incremental snowfall and wind formed wind slabs in the alpine and open areas at treeline that may remain possible to human trigger. Cornices are large and looming after a week of successive storms. Intense solar radiation is rapidly destabilizing recent snow on steep, sun-exposed slopes and weakening cornices.
A weak layer of surface hoar may be found 50-100 cm deep. Reports indicate that this layer may be absent in the northern tip of the region (check out this MIN from Sugarbowl). However, observers have identified the layer in snow profiles ranging from Barkerville to Valemount (see this MIN from Mt Greenbury, this MIN from the Trophy Mountains, and this MIN from Allan Creek). Sheltered north, northeast, and east facing slopes near treeline are the most suspect.
This persistent slab problem is transitioning into a low probability/high consequence scenario. Snowfall, wind, temperatures, and solar radiation have increased the depth and slab properties of the snow above the weak layer, making it more difficult to trigger and masking obvious clues that the problem is present (i.e. cracking, whumpfing). However, if triggered, avalanches will likely be larger in size and getting caught could have more serious consequences. Managing this problem requires a patient and diligent mindset, implemented by avoiding suspect slopes and maintaining conservative terrain margins. This persistent weak layer will likely pose the threat of a low probability/high consequence avalanche until there is a substantial change in the snowpack. Read more about surface hoar on our forecaster blog.
Terrain and Travel
- Stay off recently wind loaded slopes until they have had a chance to stabilize.
- Surface hoar distribution is highly variable. Avoid generalizing your observations.
- Carefully assess open slopes and convex rolls where buried surface hoar may be preserved.
- Minimize exposure to steep, sun exposed slopes, especially when the solar radiation is strong.
Problems
Persistent Slabs
A weak layer of surface hoar may be found 50-100 cm deep, within the prime range for human-triggering. Over the past week, large (size 2-3) natural and human-triggered avalanches have released on this layer. Observations are concentrated to north, northeast, and east aspects near treeline. This problem has been observed in all but the northern tip of the region, where there is uncertainty around the distribution of this layer.
Aspects: All aspects.
Elevations: All elevations.
Likelihood
Expected Size
Wind Slabs
Incremental snowfall with wind has formed wind slabs in the alpine and open areas at treeline.This problem overlaps with where cornices may be reaching their breaking point. If triggered, wind slabs and cornices could step down to the buried surface hoar layer, forming large avalanches. Periods of intense sun may make these problems more susceptible to failure.
Aspects: North, North East, East, South East, North West.
Elevations: Alpine, Treeline.
Likelihood
Expected Size
Loose Wet
Intense solar radiation is expected to initiate wet loose avalanches. This activity will likely be confined to steep slopes that face south through west. Minimize exposure to sun-exposed slopes during periods of strong solar radiation.
Aspects: South East, South, South West, West.
Elevations: All elevations.
Likelihood
Expected Size
Valid until: Mar 9th, 2020 4:00PM