Avalanche Forecast
Regions: Cascades - North West.
As the storm cycle draws to a close, turn your attention to wind affected snow and features where you are more likely to trigger an avalanche. When you see signs the wind drifted the snow into slightly firmer slabs, steer around convex rollovers, very steep rocky slopes, and complex terrain.
Discussion
The storm cycle should wind down Sunday night and early Monday morning, with one last small shot of snow. This final storm doesnât seem very impactful for the West North region, allowing the avalanche danger to slowly decrease. This storm cycle left 1- 2 feet of settled snow over the 2/13 interface in most areas. Snowpack tests may highlight several subtle inter-storm layers, but these seem to have gained strength leaving a generally right-side-up upper snowpack.Â
With such stormy conditions recently, itâs been a while since anyone traveled up into the alpine. If you use the clearing weather to head up high, recognize that we have a greater degree of uncertainty in these areas. Ease into the terrain by starting with lower consequence slopes to make observations and test the forecast.
Snowpack Discussion
February 13, 2020 (The regional synopsis is updated every Thursday @ 6 pm)
Heart of Winter
The action has been non-stop so far in 2020 with several widespread natural avalanche cycles and a few recent close calls. The active weather pattern has kept us all on our toes, especially Januaryâs barrage of storms bringing seemingly endless precipitation and dramatic snowpack growth. Ongoing snow, wind, and rain continued into February, and a not-so-ordinary atmospheric river event recently left its mark on the region. The second week of February brought the first stretch of high pressure in weeks, allowing the snowpack to gain strength and the avalanche danger to ease between storms. Now, in the heart of winter, we have a deep and healthy snowpack with snow depths throughout the Cascades and Olympics near 100% of normal. Looking ahead, each day brings new changes to the upper snowpack, and a dynamic pattern with direct action events (storm-driven avalanche danger) will likely be par for the course.
Atmospheric River AftermathÂ
Model simulation for February 5-6th, 2020 showing an Atmospheric River (AR) with a less than common northwest-southeast orientation as it impacts the region. This orientation allowed for strong westerly winds and more favorable upslope flow than a more typical AR approaching from the southwest. Image courtesy of the Center for Western Weather and Water Extremes, UC San Diego. (Link)
An atmospheric river impacted the region on February 5th-8th, causing a string of notable events. This storm favored the Central Cascades and Stevens Pass in particular, which experienced continuous heavy snow and rain for 86 hours, amounting to almost 70in of snow with about 7.5in of water equivalent. Not surprisingly, atmospheric rivers often go hand in hand with avalanche warnings, which were issued for 3 consecutive days at Stevens Pass from February 5th-7th, along with high danger in all other zones. Heavy rain fell at low elevations and even caused a significant mudslide on SR 410 between Enumclaw and Crystal Mountain, closing the road for 4 days and knocking out communications to 9 mountain weather stations for a week. As the AR exited the Northwest, and natural avalanche activity tapered off, conditions still remained touchy to human traffic on February 8th and 9th. Several triggered avalanches were reported that weekend, most notable of which was a close call near Mt. Baker Ski Area:
On February 8th, a skier was fully buried in an avalanche adjacent to Mt. Baker Ski Area. The avalanche was triggered by a traveler from a different party. Mt. Baker Ski Patrol was on the scene immediately, located the victim quickly, dug them out, and cleared the airway. The individual survived and reported no injuries. The avalanche was about 1ft deep and eventually broke up to 500ft wide. NNW aspect 5500ft. Photo: Mt. Baker Ski Patrol
Clear skies on Sunday, February 9th gave observers a chance to document the widespread avalanche cycle in the Stevens Pass zone that occurred February 5th-8th, including this view of crowns from large natural avalanches in the Berne Camp Chutes with Glacier Peak in the background. Photo: Matt Primomo
High Pressure before Presidentâs Day Weekend
The week of February 10th brought the longest stretch of dry weather so far in 2020. A notable northwest wind event redistributed snow throughout the region and drove an isolated wind slab problem in most zones. Generally, it was the quietest few days avalanche-wise in weeks. However, a significant human-triggered avalanche occurred near White Pass on February 12th. Fortunately, no one was caught or injured. The incident provided a good reminder that even during periods of lower avalanche danger when avalanches are unlikely, outlier events can and do happen. The winter snowpack will always pose some level of uncertainty, and big triggers like cornice fall can produce surprising results.  Â
The crown of a human-triggered avalanche on a northeast aspect at 6700ft in the Hogsback area near White Pass. Two travelers unintentionally triggered a cornice, which dropped onto the slope below and triggered a very large avalanche. 2/12/20 Photo: White Pass Ski Patrol
Avalanche Problems
Wind Slabs
Recent observations around the West North zone indicate the most reactive snow lay in wind-affected areas. This should be the same on Monday. Keep your eyes open for signs the wind drifted snow into slightly firmer slabs such as fresh cornices, uneven snow surfaces, and large pillow-like drifts. A few inches of snow Sunday night and Monday morning could make seeing these visual clues harder than normal. As a result, carefully evaluate steep lines for any sign of wind loading. If you suspect the wind affected the snow, steer around convex rollovers, very steep slopes, and areas directly below cornices where you could be more likely to trigger a wind slab. As you ascend in elevation, avalanches could be larger, reaching depths of 3 or more feet thick.
Cornices during this period grew large and overhanging. Many travelers reported sensitive cornices along ridgelines this weekend. Give these sleeping giants a wide berth. If the sun comes out you could see cornices fail naturally and impact the slopes below as a very large trigger. This same sunshine could also drive a natural loose avalanche cycle from very steep and rocky slopes. Don’t let these natural cornice collapses and loose wet avalanches catch you lingering on slopes below.
Release of a cohesive layer of snow (a slab) formed by the wind. Wind typically transports snow from the upwind sides of terrain features and deposits snow on the downwind side. Wind slabs are often smooth and rounded and sometimes sound hollow, and can range from soft to hard. Wind slabs that form over a persistent weak layer (surface hoar, depth hoar, or near-surface facets) may be termed Persistent Slabs or may develop into Persistent Slabs.
Wind Slabs form in specific areas, and are confined to lee and cross-loaded terrain features. They can be avoided by sticking to sheltered or wind-scoured areas..
Wind Slab avalanche. Winds blew from left to right. The area above the ridge has been scoured, and the snow drifted into a wind slab on the slope below.
Wind slabs can take up to a week to stabilize. They are confined to lee and cross-loaded terrain features and can be avoided by sticking to sheltered or wind scoured areas.
Aspects: All aspects.
Elevations: Alpine, Treeline.
Likelihood: Possible
Expected Size: 1 - 1