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RegisterFeb 19th, 2020–Feb 20th, 2020
Purcells.
Intense solar radiation can rapidly change conditions. Avoid slopes that are threatened by large cornices overhead during the heat of the day. Falling cornices may trigger very large avalanches.
WEDNESDAY NIGHT: Clear, light southwest wind, alpine temperature -15 C, freezing level below valley bottom.
THURSDAY: Sunny, light southwest wind, alpine temperature -4 C, freezing level 1000 m.
FRIDAY: Sunny, light southwest wind, alpine temperature -4 C, freezing level 1200 m.
SATURDAY: Cloudy with flurries (0-3 cm), light to moderate southwest wind, alpine temperature -5 C, freezing level 1100 m.
A couple naturally triggered size 2 and several skier triggered size 1 wind slabs were reported on easterly aspects at treeline and above on Tuesday.
There have also been a few sporadic large avalanches over the past week. Most recently, a large (size 3) deep persistent slab avalanche was remotely triggered on Sunday just outside the forecast region near Mt. Seven. Photos in the Mountain Information Network report show this avalanche was initiated by a skier causing a whumpf on a ridge that released a small wind slab on an east-facing alpine slope which then stepped down to the facets at the bottom of the snowpack. Another size 2.5 deep persistent slab avalanche was observed on a southwest aspect in steep and rocky alpine terrain near Golden on Thursday (see MIN report). Additionally, a large snowmobile triggered avalanche was reported on a convex roll at treeline in Quartz Creek on Wednesday (see MIN report). These isolated, but large avalanches suggest that the Purcells region is currrently in a low probability, high consequence scenario that requires careful snowpack and terrain evaluation.
Sunny weather could weaken cornices and the upper snowpack on steep south-facing slopes. Surface conditions are a mix of low density snow in sheltered terrain, sun crusts on solar aspects, and isolated wind slabs at higher elevations. At lower elevations (below 1600-2000 m) 20-40 cm of snow sits above a hard rain crust. The middle of the snowpack is strong, but the base of the snowpack contains basal facets that have resulted in sporadic, large deep persistent slab avalanches, especially in shallow rocky start zones.