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RegisterMar 23rd, 2018–Mar 24th, 2018
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Wind slabs formed over the past few days will slowly gain strength Saturday. You will be able to trigger a wind slab avalanche steep wind loaded slopes with convex rollovers, unsupported features, or below fresh cornices. Use visual clues such as snow drifts, cornices, and firm snow with cracking to identify and avoid this wind loaded terrain. Older deep persistent slabs can still be found. You can avoid triggering a deep persistent slab by staying off of steep large open shaded slopes where these bigger avalanches may occur.
Avalanche danger will slowly decrease Saturday as new wind slabs begin to gain strength. Even though the hazard is decreasing, you can still trigger a wind slab on steep slopes near ridgeline and on cross-loaded mid-slope features. You are more likely to trigger a wind slab on convex rollovers, steep unsupported slopes, or below fresh cornices. You can use visual clues to identify and avoid wind loaded slopes greater than 35 degrees. Snow drifts, cornices, and firm snow surfaces with cracking all indicate that nearby slopes received wind deposited snow.
The strong March sun can quickly change conditions on slopes receiving direct sunshine. If the sun comes out, expect loose wet avalanches, rollerballs, and pinwheels. Be ready to move off of and avoid steep sunny slopes during periods of intense sunshine. With higher snowfall totals near Mt Baker, these loose avalanches may become large.
Older weak snow still exists deep within the snowpack. Deep persistent slab avalanches have been the culprit in several accidents and fatalities over the last month. While we have not seen any recent avalanches on this layer, professionals in the field continue to find this layer 5-6 feet below the snow surface. This is a low likelihood high consequence scenario. While it may be difficult for a traveler to trigger a deep slab, smaller avalanches or other large triggers may step down into this deep layer creating large and destructive avalanches. You can avoid being involved with a deep slab avalanche by staying off large steep open slopes on W-N-E aspects.
Around a foot of snow has fallen in the Mt Baker are as of Friday afternoon. Winds during the storm transported snow forming wind slabs near ridgelines and on cross-loaded features. Several small wind slabs were triggered by backcountry travelers in the Mt Baker area Friday.
Rain on Thursday reach around 5000’ before transitioning to snow. This formed a 1” (2-3cm) thick rain crust and created a generally good bond between the old and new snow. Below this rain line a wet and refreezing snowpack has been observed. Above the rain line, the new snow fell on a variety of old snow surfaces. On sunny aspects, firm melt-freeze crusts have formed during the recent clear weather. In shaded locations, near surface facets and soft settled snow were observed earlier in the week. This may form a new buried weak layer within the snowpack.
An old weak layer of sugary facets (2/13) can still be found in some locations just above a very firm and wide spread crust (2/8). This pronounced crust has typically been found about 5-6 feet below the snow surface in the Baker area. You are most likely to find this layer still intact on shaded aspects near and above treeline.
Observations
NWAC professional observer Lee Lazzara traveled in the Mt Baker backcountry Friday. Lee reported 1’ (30cm) of new snow over a growing melt freeze crust. He observed several small skier triggered wind slab avalanche near ridges and on cross-loaded terrain.