Mon, January 22, 2018 Turnagain Pass Avalanche Forecast

Mon, January 22nd, 2018

Alpine

Above 2,500'

2 - Moderate

Treeline

1,000'-2,500'

1 - Low

Below Treeline

Below 1,000'

1 - Low

0 - No Rating

1 - Low

2 - Moderate

3 - Considerable

4 - High

5 - Extreme


Travel Advice	Generally safe avalanche conditions. Watch for unstable snow on isolated terrain features.	Heightened avalanche conditions on specific terrain features. Evaluate snow and terrain carefully; identify features of concern.	Dangerous avalanche conditions. Dangerous avalanche conditions.	Very dangerous avalanche conditions. Travel in avalanche terrain not recommended.	Extraordinarily dangerous avalanche conditions. Avoid all avalanche terrain.
Likelihood of Avalanches	Natural and human-triggered avalanches unlikely.	Natural avalanches unlikely; human-triggered avalanches possible.	Natural avalanches possible; human-triggered avalanches likely.	Natural avalanches likely; human-triggered avalanches very likely.	Natural and human-triggered avalanches certain.
Avalanche Size and Distribution	Small avalanches in isolated areas or extreme terrain.	Small avalanches in specific areas; or large avalanches in isolated areas.	Small avalanches in many areas; or large avalanches in specific areas; or very large avalanches in isolated areas.	Large avalanches in many areas; or very large avalanches in specific areas.	Very large avalanches in many areas.

Avalanche Problem 1

Deep Persistent Slabs
Certain

Very Likely

Likely

Possible

Unlikely

Likelihood
Historic (D4-5)

Very Large (D3)

Large (D2)

Small (D1)

Size

Deep Persistent Slabs

Deep Persistent Slab avalanches are the release of a thick cohesive layer of hard snow (a slab), when the bond breaks between the slab and an underlying persistent weak layer deep in the snowpack. The most common persistent weak layers involved in deep, persistent slabs are depth hoar or facets surrounding a deeply buried crust. Deep Persistent Slabs are typically hard to trigger, are very destructive and dangerous due to the large mass of snow involved, and can persist for months once developed. They are often triggered from areas where the snow is shallow and weak, and are particularly difficult to forecast for and manage.

Likelihood of Avalanches

Terms such as "unlikely", "likely", and "certain" are used to define the scale, with the chance of triggering or observing avalanches increasing as we move up the scale. For our purposes, "Unlikely" means that few avalanches could be triggered in avalanche terrain and natural avalanches are not expected. "Certain" means that humans will be able to trigger avalanches on many slopes, and natural avalanches are expected.

Size of Avalanches

Avalanche size is defined by the largest potential avalanche, or expected range of sizes related to the problem in question. Assigned size is a qualitative estimate based on the destructive classification system and requires specialists to estimate the harm avalanches may cause to hypothetical objects located in the avalanche track (AAA 2016, CAA 2014). Under this schema, "Small" avalanches are not large enough to bury humans and are relatively harmless unless they carry people over cliffs or through trees or rocks. Moving up the scale, avalanches become "Large" enough to bury, injure, or kill people. "Very Large" avalanches may bury or destroy vehicles or houses, and "Historic" avalanches are massive events capable of altering the landscape.

Signal Word	Size (D scale)	Simple Descriptor
Small	1	Unlikely to bury a person
Large	2	Can bury a person
Very Large	3	Can destroy a house
Historic	4 & 5	Can destroy part or all of a village

More info at Avalanche.org

Last night a cold moist air mass brought a several inch refresh to the Girdwood and Portage Valleys (4-6″), yet only an inch or two for Turnagain Pass. Water weight was only in the .25 – .1″ range, but most of us will take what we can get to cover the crusts at the lower elevations! With that said, until we see more weather, snow, rain, etc, our avalanche problems on the surface remain on the small side (see below) and our main concern still lies with a much larger, but stubborn avalanche problem.

Deep persistent slab avalanches remain our primary concern, which exist in the high elevation terrain above 3,000′. On these upper elevation slopes, there is a dense hard slab sitting on a variety of weak layers in the mid pack (buried surface hoar) and old November facets near the ground. Triggering a deep slab is becoming more and more difficult, but still possible. The most likely trigger spots are thin areas in the snow cover, often near rocks, or where the slope rolls over. High peaks, that see wind, can also be thinner and more likely to find a deep slab.

Again, here are a few points that keep sending home with our current snowpack set up:

– We have a ‘low probability, high consequence’ situation at the upper elevations for deep slab avalanches
– Obvious signs of instability are not likely to been seen before a deep slab is triggered (such as whumpfing and cracking)
– Remote triggering is possible
– Last, this issue can simply be avoided by sticking to terrain below 3000’ (which is a good portion of terrain at Turnagain) or choosing low-consequence terrain in the alpine

Photos of old avalanche debris from the Seattle Headwall area. Last week’s warm storm initiated very large avalanches on many slopes, yet many still remain intact and did not avalanche.

–

Avalanche Problem 2

Wind Slabs
Certain

Very Likely

Likely

Possible

Unlikely

Likelihood
Historic (D4-5)

Very Large (D3)

Large (D2)

Small (D1)

Size

Wind Slabs

Wind Slab avalanches are the 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.

Likelihood of Avalanches

Size of Avalanches

Signal Word	Size (D scale)	Simple Descriptor
Small	1	Unlikely to bury a person
Large	2	Can bury a person
Very Large	3	Can destroy a house
Historic	4 & 5	Can destroy part or all of a village

More info at Avalanche.org

Ridgetop winds bumped up slightly last night into the 10-15mph range from a generally Easterly direction. This isn’t much for wind, but with such loose surface snow existing right now, it could be enough to form shallow wind slabs along ridgelines. Watch for recent wind texturing on the snow surface and feel for stiffer wind packed snow over softer snow or a crust. If you happen to find a fresh wind slab, expect it to be quite touchy.

Additional Concern

Dry Loose

Dry Loose

Dry Loose avalanches are the release of dry unconsolidated snow and typically occur within layers of soft snow near the surface of the snowpack. These avalanches start at a point and entrain snow as they move downhill, forming a fan-shaped avalanche. Other names for loose-dry avalanches include point-release avalanches or sluffs.

More info at Avalanche.org

Again, the loose surface snow is quick to sluff and has been running far on steep slopes. Hence, watch your sluff on the steeper slopes. Any additional new snow from overnight will add to the volume of these and could catch a person by surprise.

Photo of loose surface snow (near surface facets) over a stout crust in the mid-elevations. Another crop of surface hoar (on the top of the snow in photo below) grew last weekend and now sits under the little bit of new snow from last night.

–

Weather

Mon, January 22nd, 2018

Mostly cloudy skies filled the area yesterday with a few snow flurries region wide. Snowfall increased overnight and the Girdwood and Portage Valley areas picked up 4-6″ at the mid-upper elevations while Turnagain Pass looks to have seen only around an inch. Ridgetop winds from the East, Northeast bumped up slightly overnight, blowing 10-15mph with gusts into the 20’smph. Temperatures have warmed at the high elevations into the low 20’sF, while valley bottoms remain around 10-15F this morning.

Today, mostly cloudy skies are expected with a snow flurry or two (little to no accumulation). Ridgetop winds are slated to remain light from an Easterly direction, 5-10mph. Temperatures should warm to the mid-upper 20’sF in valley bottoms and remain near 20F along ridgetops.

For tonigh night into Tuesday morning there is another chance for a few inches of snow to sea level, possibly up to 6″ in favored areas. Winds look to remain light to moderate with this pulse of moisture and temperatures look to remain in the teens to 20’sF. Stay tuned.

*Seattle Ridge anemometer is rimed over and not able to collect wind data.

PRECIPITATION 24-hour data (6am – 6am)

	Temp Avg (F)	Snow (in)	Water (in)	Snow Depth (in)
Center Ridge (1880′)	11	1	0.1	54
Summit Lake (1400′)	7	0	0	15
Alyeska Mid (1700′)	12	4	0.23	47

RIDGETOP 24-hour data (6am – 6am)

	Temp Avg (F)	Wind Dir	Wind Avg (mph)	Wind Gust (mph)
Sunburst (3812′)	19	NE	7	21
Seattle Ridge (2400′)	15	*n/a	*n/a	*n/a

Observations

Recent Observations for Turnagain Pass

Date	Region	Location	Observer
11/16/23	Turnagain	Observation: Tincan Common	William Finley
11/14/23	Turnagain	Observation: Sunburst/Magnum	Adrian Beebee
11/14/23	Turnagain	Observation: Seattle Ridge	Schauer/ Creighton/ Ellis Forecaster
11/13/23	Turnagain	Avalanche: Tincan Trees	Eeva Latosuo
11/12/23	Turnagain	Observation: Sunburst	Schauer/ Creighton/ Nave Forecaster
11/12/23	Turnagain	Avalanche: Goldpan – avalanche	Mike Records
11/11/23	Turnagain	Observation: Tincan Common	Andy Moderow
11/11/23	Turnagain	Observation: Taylor Pass – Sunburst	Wadsworth / Stwertka
11/10/23	Turnagain	Observation: Tincan	Andrew Schauer Forecaster
11/10/23	Turnagain	Observation: Tincan Trees	Michael Kerst

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