Avalanche Forecast

Increasing clouds Saturday with light rain and snow developing in the afternoon. Only very light amounts of precipitation if any are expected during the daylight hours Saturday.

Loose wet avalanches should be possible on solar slopes. Filtered sun and rapid daytime warming can quickly melt nighttime surface crusts and rapidly activate loose-wet snow and result in an increase in avalanche danger.  Watch for surface wet snow deeper than a few inches, pinwheels and initial small loose wet avalanches that indicate an increasing loose wet avalanche danger.

New or recent wind slabs are mainly expected in steep lee terrain above treeline, though expected to be less reactive by Saturday. NWAC stations along the Cascade crest have had moderate to very strong westerly winds on Wednesday and Thursday. So wind slabs are most likely on NW to SE aspects, but watch for firmer wind transported snow that is a sign of wind slab on other aspects in areas of varied terrain.

Cornices are still large, so give them a wide safety margin. Natural cornice releases and resulting slab avalanches are dangerous and unpredictable. Give potential cornices a wide berth if traveling along ridge-lines and avoid slopes below cornices. See a blog post regarding cornices here.

Avoid unsupported slopes with overhanging blocks of snow and smooth rock underneath. Glide avalanches are difficult to predict and can release at any time, not just during the heat of the day.

Note that this forecast applies up to the Cascade crest level and does not apply to higher elevations on the volcanoes.

A cool, snowy pattern has been seen in late April mainly for the Cascade west slopes and especially for the Mt Hood area.

Last week from Monday 4/17 to Thursday 4/20 the NWAC weather station at Mt. Baker picked up about 3 inches of water equivalent (WE) while other NWAC stations along the Cascade west slopes picked up 1 - 2 inches of WE. Much of this WE fell as snow above 5000 feet in the north, 5500 feet in the central and 6000 feet in the south Washington Cascades.

The current storm cycle began on Saturday. In the 6 days ending Friday morning most NWAC stations along the Cascade west slopes have had 1.75-2.75 WE. Much of this WE fell as snow above about 4500 feet in the north, 5000 feet in the central and 5500 feet in the south Washington Cascades.

Snow levels were even a little lower by Thursday morning. Stevens Pass had 7 inches of snow due to convergence and Paradise had 8 inches of new snow for the 24 hours ending Thursday morning.

Recent observations

NWAC observer Lee Lazzara was out on Friday 4/21 in the Baker backcountry on Ptarmigan Ridge. Lee observed numerous loose wet slides on all aspects near and below treeline. A natural cornice fall along Ptarmigan Ridge ripped out a D2.5 wind slab on a north aspect (see photo below, thanks Lee!), and other natural cornice falls were noted. Note the massive cornices in the photo! 

Photo by Lee Lazzara, 4-21-17.

The Chinook Pass DOT crew on Monday reported very touchy size 1-2 loose wet avalanches on all slopes steeper than about 30 degrees by ski tests that were largest below 5500 feet.

A little less activity was seen by the Chinook DOT crew on Tuesday and Wednesday, but stubborn loose wet avalanches were still triggered on steep solar slopes that started small and were confined to gullies but became large by the time they reached the road elevation.

NWAC observer Lee Lazzara was at Paradise on Thursday. He found wind transported snow and sudden or resistant planar easy compression tests on N-SE slopes in the near treeline. He noted that a couple small cornice chunks had triggered small wind slab avalanches. The upper snowpack on solar slopes near treeline and on all slopes below treeline consisted of crusts and consolidated rounded grains.

Lee was on Mt Rainier again Friday, 4/28. Finding sun warming surface snow above 6000 feet and clouds and light showers below 6000 feet. Shallow recent storm cycle, wind slabs of 4-6 inches were found to be reactive with compression tests helped by the solar input.