Avalanche Forecast

Fair - Timing, track, or intensity of incoming weather system is uncertain

Unsettled conditions are expected for Wednesday before an organized system reaches the south coast on Thursday morning. This system should result in light precipitation until Friday morning. Friday is expected to be unsettled.Wednesday: A mix of sun and cloud, scattered precipitation 1-3mm, freezing level am: 1000m pm: 1500m, ridgetop wind: light SWThursday: Precipitation 5-10mm, freezing level am: 1100m pm: 1600m, ridgetop wind: light S-SWFriday: Cloudy with sunny breaks, scattered precipitation 0-2mm, freezing level am: 1200m pm: 1600m, ridgetop wind: light SE-SW

On Monday, soft slab avalanches up to size 1.5 were reported.  These slabs are typically 10-15cm thick.  Natural cornices releases were also reported.On Sunday, explosive control and ski cuts resulted in soft slab avalanches up to size 1.5 from leeward features in the alpine.

A highly variable spring snowpack exists across the region and conditions can change rapidly throughout the day. At lower elevations below-treeline, the snowpack is isothermal and melting rapidly. At mid elevations, between roughly 1500 and 2000m (and higher on sunny slopes), the snowpack is undergoing daily melt-freeze cycles. In the mornings, a refrozen surface generally means good stability. In the afternoon when the surface melts, the stability can deteriorate quickly, especially on sunny slopes. The recent storm has produced dry snow in the alpine resulting in the formation of storm slabs and wind slabs which sit on an old crust. The stability of these slabs has generally been improving but on the first really sunny day, stability is expected to deteriorate rapidly and natural avalanche activity is likely, especially on sunny slopes. Large cornices remain a concern and are expected to become reactive during periods of solar warming. The early-Feb facet/crust layer (down ~2m) and a weak basal layer are both dormant but remain a concern during periods of intense warming, especially in thinner snowpack areas, when large spring avalanches may step down to these layers.