Avalanche Forecast
Regions: Cascades - North East.
The avalanche danger has eased. Quiet weather with light precipitation has done little to contribute to avalanche danger. Continue to watch for old weak layers of snow on the in areas with less than 3 feet of snow on the ground and in terrain well to the east of Washington Pass.
Discussion
An observer out on Thursday found that a layer of surface hoar and surface facets were well preserved under the inch or two of new snow. He found isolated areas of soft, wind drifted snow. In sheltered areas, loose dry avalanches were running and entraining snow on steep slopes. Since the 21st, the snowpack at the Washington Pass weather station has settled down from 62" to  44.5" deep. Check the Regional Synopsis for a look back at our recent wet and wild past.Â
Snowpack Discussion
December 26, 2019 (The regional synopsis is updated every Thursday @ 6 pm)
No matter where you are in the northwest, the snowpack looks a world different than it did a week ago. A major storm, widespread avalanches, developing weak layers, and an initially thin snowpack made for a hectic week. Letâs take a look at a few large scale trends for our holiday season.Â
A very large natural avalanche (D3) on the Shuksan Arm near Mt Baker that occurred during the storm cycle. Photo: Adam U.Â
Wet and Wild
âSome of the highest precipitation rates Iâve ever seen.â âAbsolutely puking!â âRivers running in the streets.â âSnowing snow hard I canât see my hand in front of my face.â These were all statements we heard describing the wet and wild storm that impacted the Northwest from about Thursday (12/19) through Sunday night (12/22). Water totals were staggering in many locations (Table 1). For Hurricane Ridge, Mt Baker, Washington Pass, and high elevation terrain this deluge translated into significant snowfall. However, warm air in the central and southern parts of the region brought rain well into the near treeline bands. Whether your favorite spot saw rain or snow, four things are clear. 1. This was a huge loading event. 2. A widespread natural and triggered avalanche cycle (up to D3) occurred. 3. Avalanche danger spiked during and just after the storm before trending down through the week. 4. The snowpack changed dramatically.Â
Location
Precipitation 12/19-22
Hurricane Ridge
4.97â
Mt Baker Ski Area
7.35â
Washington Pass
3.53â
Stevens Pass
6.28â
Leavenworth
2.94â
Snoqualmie Pass
7.89â
Crystal Mt Ski Area
7.45â
Paradise, Mt Rainier
6.57â
Mt Hood Meadows
2.18â
Table 1: Precipitation totals for select weather station locations December 19-22. Â Â
The Emergence of Persistent Slab Avalanche Problems
Coming out of this huge loading event, there was hope that many of the early season weak layers had been destroyed. Unfortunately, this was not the case in some locations. Old weak snow layers reared their heads in areas east of the Cascade Crest and near Crystal Mountain. While the exact extent and character of these layers can differ slightly, most locations are finding a layer of weak sugary facets associated with a crust about a foot above the ground. Persistent slabs are tricky to assess. Do not solely rely on snowpits and snowpack tests to help you choose terrain. How will these layers change going forward? Only time and observations will tell.Â
You may find weak sugary facets near a crust about 12 inches above the ground similar to what you see here. Photo: Jesse Charles
Low Tide Snowpacks During the Holidays
The storm this past week definitely helped the meager early-season snowpacks in all locations. Areas like Hurricane Ridge, Mt Baker, and Washington Pass experienced a jump of 20 or more inches in their snow depths over the past week. However, even with these increases, an early season snowpack still describes most locations. Expect numerous obstacles as you travel including open creeks, rocks, and trees. With this thin snowpack, limited access, and difficult travel we still have limited observations in some regions.Â
Open, deeply incised creeks in the Alpental Valley. Photo: Dallas Glass
Lack of information leads to a higher than normal degree of uncertainty. If you travel to higher elevations or more remote trailheads, recognize you could experience different conditions than the forecast suggested. You can help us fill in the gaps by submitting your observation here.Â
Happy Holidays!Â
-Dallas Glass
Avalanche Problems
Persistent Slabs
While triggering avalanches is unlikely, there is a lingering concern in areas of shallow snow where a layer of weak facets persists. This is the most probable on slopes on the north half of the compass where you find less than three feet of snow on the ground with an underlying layer of sugar-like facets. Persistent slab avalanches can be surprising and can break widely across terrain. Specific features to avoid include steep convex rollovers, areas of variable height of snow, shallow and rocky features, and unsupported slopes.
This layer of facets, formed in late November, can be found near the bottom of the snowpack, often resting on a stout crust and sometimes capped with a thin crust. The layer is typically about 1-3 feet below the surface. It was responsible for numerous large avalanches and signs of instability during the storm and avalanche cycle around December 20th.
Release of a cohesive layer of soft to hard snow (a slab) in the middle to upper snowpack, when the bond to an underlying persistent weak layer breaks. Persistent layers include: surface hoar, depth hoar, near-surface facets, or faceted snow. Persistent weak layers can continue to produce avalanches for days, weeks or even months, making them especially dangerous and tricky. As additional snow and wind events build a thicker slab on top of the persistent weak layer, this avalanche problem may develop into a Deep Persistent Slabs.
The best ways to manage the risk from Persistent Slabs is to make conservative terrain choices. They can be triggered by light loads and weeks after the last storm. The slabs often propagate in surprising and unpredictable ways. This makes this problem difficult to predict and manage and requires a wide safety buffer to handle the uncertainty.
This Persistent Slab was triggered remotely, failed on a layer of faceted snow in the middle of the snowpack, and crossed several terrain features.
Persistent slabs can be triggered by light loads and weeks after the last storm. You can trigger them remotely and they often propagate across and beyond terrain features that would otherwise confine wind and storm slabs. Give yourself a wide safety buffer to handle the uncertainty.
Aspects: North, North East, East, West, North West.
Elevations: All elevations.
Likelihood: Unlikely
Expected Size: 1 - 1