Cornice falls have been responsible for most of the avalanches reported in the past few days. Wind slabs or cornices may trigger persistent weak layers resulting in large avalanches.
Summary
Confidence
High -
Weather Forecast
Overnight: Cloud developing with moderate west winds and freezing down to 800 metres. Wednesday: Overcast with flurries and moderate southwest winds. Daytime freezing up to 1800 metres. Thursday: 3-5 cm of new snow combined with moderate southwest winds and daytime freezing up to 2000 metres. Friday: Another 3-5 cm of new snow with light southerly winds and daytime freezing up to 2000 metres.
Avalanche Summary
On Tuesday there was a natural cornice fall near Golden that did not release a slab on the slope below. On Monday there were several natural cornice falls up to size 2.5 that released storm or persistent slabs from the northerly aspect slopes below. On Sunday there was a natural cornice fall size 2.5 from extreme terrain.
Snowpack Summary
10-15 cm of recent snow now overlies temperature crusts below about 1900 metres and sun crust all the way into the alpine on solar aspects. This precipitation fell as rain below about 1600 metres. Below the new snow interface, storms over the past week brought 40-60 cm of snow to the region. Several other crusts as well as moist snow are likely to exist within this storm snow, mainly at lower elevations and on solar aspects. Moderate to strong southwest winds during and since the storm formed wind slabs on leeward slopes as well as fragile cornices along ridgelines. At higher elevations, the February crust/facet layer is now down around 130-150 cm and the deep mid-December facet layer and November rain crust both still linger near the bottom of the snowpack. These layers were active during a storm in mid-March and produced some very large avalanches. Occasional deep releases were also reported in late March and these deeply buried weaknesses remain a serious concern as solar radiation and warming temperatures begin to penetrate the snowpack at increasingly higher elevations.