Avalanche Forecast

Several overlapping and dangerous avalanche problems exist in the Stevens Pass area. This is a time to rein it in. Avoid all avalanche start zones as changing weather creates changes in the avalanche hazard.

New persistent slab avalanches formed Friday and have been observed in several avalanches around the Stevens Pass area. Stay off of all open slopes greater than 30 degrees; this includes areas low on the slope and well away from higher start zones. This weak and potentially dangerous layer has been observed on most aspects near and below treeline. Persistent slabs are difficult to manage and have proven deadly in the Cascades over the last several weeks. This is time to dial it back.

You will be able to trigger wet avalanches Sunday as warm temperatures and sunny skies create wet snow conditions. Expect new roller balls, pinwheels, and loose wet avalanches. These conditions will develop first on steep rock slopes receiving direct sun and will quickly spread to all aspects as temperatures rise. As water reaches deeper weak layers in the snowpack wet slab avalanches may occur. If you see any evidence of new wet slab avalanches be ready to significantly dial back your terrain use and avoid all avalanche terrain.

You are most likely to find and trigger lingering wind slab avalanches on shaded slopes where winds deposited snow. Use  visual clues to identify and avoid slopes where wind loading has occurred.

Several older deeper persistent weak layers exist in the snowpack. This is a classic low likelihood-high consequence scenario. Just because you see tracks on a slope does not mean it is safe. While it may be very difficult to trigger these deeper layers, any avalanche failing on them will be large and destructive.

Limit your exposure to overhead cornices as you travel. They may fail without warning due to daytime heating and the sun.

Several new avalanches were reported Saturday. Most of them are thought to have occurred on the new persistent weak layer (3/8). Avalanches have occurred on most aspects near and below treeline. Many of them occurring noticeably low on the slope. Observations have found buried surface hoar (4-6mm) and small (0.5mm) facets. These weak persistent layers were found below the 12-15 inches of recent storm snow.

Sunny skies and mild temperatures effected surface snow on most slopes Saturday. On Thursday night and Friday 12-15 inches of new snow fell in the Stevens area. Moderate to strong SW winds transported the new snow including on more exposed open slopes below treeline slopes. This new snow fell on a variety of snow surfaces including surface hoar, near surface facets, and melt-freeze crusts. 

Several older persistent weak layers can still be found in the snowpack including a widespread layer of weak sugary facets (2/13) that can be found just above a very firm and thick crust (2/8). Snowpack tests continue to show that if a failure is initiated on this layer it can propagate and cause an avalanche. This layer is generally found 3-5 feet below the snow surface.

There are no other layers of concern below the 2/8 crust.

Observation

Stevens Pass Ski Patrol found buried surface hoar (3/8) below the recent storm snow on both NE and SW aspects at 5500’ Saturday.

An avalanche professional in the Stevens Pass area on Saturday reported new observed slab avalanches on both SE and N aspects. He also experienced one whumph on the 3/8 persistent layer while traveling through lower angled terrain.

NWAC professional observer Matt Primomo traveled near Tye Peak Friday. Matt reported 12-15 inch slab avalanches on Moonlight Bowl (E, 4500), Skyline Ridge (NW, 5200’) and Tye Peak (SE, 4800’). He also experienced several large whumphs while traveling a ridgeline above Tye Lake. Observations in the area found surface hoar and facets (3/8) buried below the recent storm snow. Snowpack tests on the 2/13 facet layer continue to demonstrate propagation of a potential avalanche.

An avalanche professional near Vahalla Lake Friday also found buried surface hoar 15 inches below the snow surface. He observed a rain crust up to 4300 feet below the most recent snow.

Numerous snowpack tests from the Stevens Pass area gathered over the last several weeks by multiple avalanche professionals continue to suggest that the 2/13 facet layer can produce avalanches. The most consistent test has been the Propagation Saw Test.