Valdez

Forecast Expired - 01/01/2021

Above 3,000ftModerate

1,500 to 3,000ftModerate

Below 1,500ftModerate

Degrees of Avalanche Danger

Avalanche Problems

Problem 1

Wind Slab:

Light to moderate northeast winds are forecasted for Thompson Pass today.  Fresh wind slabs will begin to form in areas where this wind is occurring.  Use small test slopes to evaluate the extent and sensitivity of wind loading that is happening in the area that you choose to travel.  Shooting cracks that radiate out from your skis or machine are a bullseye indication of unstable snow.

12/29 Photo of shallow pocket of reactive windslab on Catchers Mitt at ~3200′ south aspect.

 

 

 

 

Likelihood:

  • Almost Certain
  • Very Likely
  • Likely
  • Possible
  • Unlikely

Size:

  • Historic
  • Very Large
  • Large
  • Small

Trend

  • Increasing
  • Steady
  • Decreasing

Problem 2

Persistent Slab:

Be aware that faceted layers in the mid snowpack exist north of Thompson Pass. Recent weather has brought incremental light to moderate snowfall which is allowing these layers to gain strength.  Human triggered avalanches up to 3 feet deep are unlikely, but would have big consequences due to their depth.  The last time reactive persistent layers were observed was 12/24.  The snowpack in the direct vicinity of Thompson Pass has been found to be more homogenous (strong).  

There is quite a bit of spatial variability present in our snowpack.  Meaning that structure of the snowpack changes quite a bit with elevation and location.  Don’t assume that since you have experienced stable riding conditions on Thompson Pass, that everywhere will be the same.  Re-assess the snowpack when traveling in new areas.   Human triggered avalanches up to a meter deep are still possible in isolated locations.  Avoid consequential terrain north of Thompson Pass below 3000′.   Be wary of thin/rocky high elevation areas where it may be possible to affect weak layers at the bottom of the snowpack and trigger very large destructive avalanches.  

 

An observer on 12/24 reported remote triggered avalanches up to 100 meters away that failed a meter deep.  

 

 

 

Likelihood:

  • Almost Certain
  • Very Likely
  • Likely
  • Possible
  • Unlikely

Size:

  • Historic
  • Very Large
  • Large
  • Small

Trend

  • Increasing
  • Steady
  • Decreasing

Avalanche Activity

12/24- Observers reported remote triggered avalanches up to 100 meters away that were a meter deep.  Tsaina trees below 3000′.

12/23- DOT mitigation work on snow slide gulch produced 3 D2.5’s that ran half of their path.

-Multiple D2-D2.5 slides on Oddessey and Little Oddessey.  NW-N aspects.  Only Little Oddessey crown was clear.  ~100 yards wide, ~4′ deep.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

-Natural D3 avalanche on Billy Mitchell NW-N aspects, originated ~5000′ stepped down to the ground around 4200′ in rocky terrain. Approximately 200 yards wide.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

-Natural D2 avalanche activity was also noted on west aspects of 40.5 mile and Iguana Backs ~3500′.  Further observations were prevented due to poor light.

12/20- A powder cloud reached the highway at the mp 42 slide path. “Three Pigs”.  No other details available

 

-Numerous small (3-4″ deep) natural avalanches were observed in the Python and Cracked Ice Buttress area.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

12/20- Multiple D1 soft slabs off Mt Cheddar Cheese Wedge (Hippie Ridge) originating from ~6500′

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

12/3- Numerous natural avalanches were observed north of Thompson Pass with many avalanches failing at the ground.  Observations were not made south of Thompson Pass.

Avalanches observed from 46 mile towards Thompson Pass:

Three Pigs: Nearly every path on the SE face ran with debris deposits stopping  in the top 1/3 of aprons, thick alders prevented slides from running full path.  These were mostly D3 avalanches.

40.5 Mile Peak: Many paths running similar to Three Pigs, with one running full path to the Tsaina river.  Mainly W-NW aspects, D3’s

Max High (Peak on the southern extent of Hippie Ridge)  had a D3 avalanche with a crown near 5500′,SW aspect.

Upper Catchers Mitt bowl E aspect, slid R4-D3 ,triggering further avalanches lower down.

The main activity noted, was on the buttresses on the east side of the pass, from Cracked Ice through North Odessey Gully.  Every buttress had significant avalanche activity originating ~4000-5000′.  Many of these failed at the ground, north – northwest aspect.   Pictures below.

School Bus and North Odyssey Gully both ran with debris in the runouts.  

 

Many other large to very large natural avalanches occurred.

 

 

 

12/2- DOT reported a natural D2.5-3 avalanche that hit the Lowe river at Snowslide Gulch.

11/30- Natural avalanche observed on 40.5 mile peak just to the South of the Shovel.  West aspect, ~4500′, crown ~200′ wide, poor light prevented further observation.  SS-N-R1-D2-U.

11/29: Natural avalanche observed on Billy Mitchell Cry babys shoulder, similar elevation as 11/16 slide but originated a couple hundred meters further west.  Released from ~4000′ with a crown length of ~ 200 meters, North aspect, ~ 37°, failed at the ground.  HS-N-R2-D2.5-G 

11/16: Natural avalanche observed on Billy Mitchell “Cry babys shoulder”.  Released from~3500′ with a crown length of ~200 meters, North aspect. This slide was triggered by recent NE wind cross loading the slope.  SS-N-R2-D2-U

11/15: Natural avalanche observed in Loveland Basin on a South aspect, down the ridge from Tones Temple.  This slide was triggered by recent NE wind loading and failed at the ground. SS-N-R1-D2-G

 

 

 

 

Weather

12/31- Clear skies with light to moderate northeast wind.

The Thompson Pass Mountain Forecast covers the mountains (above
1000 ft) surrounding Keystone Canyon through Thompson Pass to
Worthington Glacier.

This forecast is for use in snow safety activities and emergency
management.

                   Today        Tonight

Temp at 1000`      25 F         9 F

Temp at 3000`      14-21 F      15 F

Chance of precip   0%           0%

Precip amount
(above 1000 FT)    0.00 in      0.00 in

Snow amount
(above 1000 FT)    0 in         0 in

Snow level         sea level    sea level

Wind 3000` ridges  NE 9-30 mph  NE 10-30 mph

Remarks...None.
Date: 12/31 24 hr snow (inches) HN24W (snow water equivalent inches) High Temp (F) Low Temp (F) Weekly SWE Inches (Monday-Sunday) December snowfall Season snowfall HS (snowpack depth inches)
Valdez 0 0 31 22 .35 53 96 43
Thompson Pass 0 0 28 18 .2 128 246 62
46 Mile 0 0 18 1 ~ 45 74 31

Thompson Pass weather history 20/21.  Click on links above the images to see full size view

 

November 2020

TP as of 12/29

 

 

 

 

 

 

 

 

 

 

 

 

Additional Information

12/24-12/31- Generally benign weather with light snowfall and light to moderate winds has allowed our snowpack to gain strength.  Last reported avalanche activity was 12/24.

12/21-12/23-  Major winter storm brings strong winds, increasing temperatures and 36″ of snow and 3.35″ of SWE to Thompson Pass at road level.

12/19-12/20- Continued stormy weather incrementally deposits ~12 inches of low density snow.  Top 3-4 inches doesn’t bond well to underlying snow and is reactive on 12/20 in multiple locations.

12/17-12/18- Significant north winds along with light snow has built wind slabs on lee aspects.  These slabs may be sitting on persistent grains such as near surface facets in some locations.

12/13-12/16-  Light snow has been falling and has landed on surface hoar below 3000′.  This layer exists north and possibly south of Thompson Pass.  On Thompson Pass proper, buried surface hoar is unlikely due to wind.  So far there is an insignificant amount of snow to overload these layers and create dangerous conditions.  This will be a layer to watch below 3000′ once more snow accumulates, possibly by this weekend.  If you have observed surface hoar in the Port of Valdez area leave an observation.

12/8-12/12- Clear cold and calm was the theme during this period.  With this, surface hoar has begun to form below 3000′.  On 12/12 surface hoar was found to exist up to 1.5 cm in length on flat benches.  On slopes the size was 2-4 mm.  SH has not been observed in high elevation start zones.  If conditions remain calm before the next snowfall this will form a sensitive layer in our snowpack in our low and mid elevation bands.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

12/5-12/7- Thompson Pass received 23 inches of snow with 2.23″ of SWE.  Temperatures and freezing line rose mid storm bringing rain to the coast.  

 

 

NE winds began 12/4 and have redistributed the storm snow onto lee aspects.  This wind event has not been widespread and appears to be concentrated to areas in close proximity to Thompson Pass.

 

November was mostly dominated by clear, cold and windy weather.  On 11/25 a major wx pattern shift occurred which produced 8 days of consecutive storms that delivered 10 inches of water and 90″ of snow to Thompson Pass.  This storm fell on a thin snowpack with poor structure near the ground.  On 12/1-12/2 a widespread natural avalanche cycle occurred with many avalanches failing at the ground.  This event was caused by 4.6″ of SWE on Thompson Pass in a 72 hour period along with rising temperatures bringing the freezing line up to 3000′. 

 

Announcements

The avalanche hazard is Moderate at all elevations.  Triggering a wind slab up to 1 foot deep will be possible in areas that are receiving active wind loading.   Watch for signs of wind loading on cross loaded terrain features and just below ridges on lee aspects (SE-NW).  There is also the low probability of triggering a persistent slab avalanche up to 3 feet deep north of Thompson Pass where faceted layers exist in the mid snowpack.  Avoid consequential terrain north of Thompson Pass below 3000′ and slopes that are receiving active wind loading.

For more information click the (+full forecast) button below.

Submit a public observation to help create a picture of our constantly changing snowpack.  Visit our observation page to leave a comment or you can email me directly at [email protected].