In some areas our most recent settled storm snow is now sitting on surface hoar 5-8mm that was buried 3/3. The 3/3 buried surface hoar has been found to exist on northerly aspects between the elevations of 2-6000 feet and be 1-2 feet deep. The most likely area to encounter this problem on the road corridor would be north of Thompson Pass on the south side of the road. Below 2000′ a rain crust previously existed that prevented substantial SH growth 3/1-3/2.
This layer has been found to be reactive to skiers as recently as 3/10. Buried surface hoar is infamous for remaining reactive for long periods of time. Especially, with additional large storms or incremental snowfall. With the latter being the situation we may currently be in.
Surface hoar can give false stable results in snow pits depending on depth and slab character. Digging a snowpit and identifying the weak layer should be enough to indicate that human triggered avalanches could occur on slopes of 30° and steeper.
The 3/3 BSH layer appears to be more spotty in the maritime region. Although, there remains uncertainty with its preservation and distribution in this zone. Leave a public observation if you are able to identify or see signs of this layer being reactive.
D3 hard slab avalanche on Billy Mitchell ~4000’/ North aspect that occured on 2/18
Weak faceted snow (November facets) exists at the base of our snowpack. Full profile snow pits as recently as 3/10, have continued to show poor structure in our lower snowpack although stability results have become stubborn. This layer will be difficult to affect because it is so deep, however with the poor structure of the snowpack, the risk remains.
This is a low probability very high consequence situation. This variety of avalanche problem is very difficult to asses and impossible to manage if initiated. This variety of avalanche will not fail at your feet, but rather once you are well onto the slab, skiing or riding off a slab of this size would be extremely unlikely. This issue should be in the back of our minds when we choose terrain. We can avoid a lot of risk by avoiding steep, rocky or complex terrain and avoiding steep slopes in the Continental region. These are the places where trigger points will exist closer to the surface.
Natural activity was limited at this layer with the latest storm, although a few outliers were observed. One concerning outlier was observed by a local snowmachiner on 3/7 that was moving through Marshall Pass. The observed slide occured near the toe of the Schwan glacier on a north aspect and ran into the Tasnuna river valley. Avalanche failed at the ground with a crown depth estimated at over 10 feet deep, D3-D4. The other outliers were mostly in a continental area west of our forecast zone.
It will be possible to encounter places where pockets of sensitive wind slab still exist. These may exist on a variety of aspects due to recently changing wind directions. These will generally be shallow (~1 foot deep). Northerly aspects that have wind slab overlying buried surface hoar will be the most sensitive areas.
Wind slabs will give us visual clues of their presence, pillowed surfaces on leeward slopes and shooting cracks where they are reactive. Keep in mind that older wind slabs have the potential to fail behind us making them more difficult to manage.
3/7- More skier triggered avalanches, mostly D1-D2’s failing at the 3/3 BSH.
A local snowmachiner that was traveling through Marshall Pass reported a very notable natural deep hard slab that failed at the November facets. Avalanche occured on a North aspect between the Schwan and Woodworth glaciers failed at the ground and ran into the Tasnuna river valley. Avalanche was estimated as D3-D4 with a crown depth over 10 feet.
Another deep hard slab released naturaly on a high south aspect ~5500′ behind Averys.
3/6- Numerous skier triggered D1-D2 avalanches occured failing at the new snow/old snow interface on surface hoar buried 3/3. Ski cuts were reported to be very productive with sensitivity ranging from touchy to very touchy. Most of these avalanches occured further back from the road corridor. Although, one notable skier triggers D2.5 occured on Cracked Ice on a north aspect at ~4000′ that appeared to be 1000 + feet wide. D1 naturals occured on 40.5 mile.
3/5- Numerous D1-D2 natural avalanches occured within the storms now 1-2 feet deep. These occured mostly on northern half of the compass. Including Little and big oddesssey, Gully 1, Mt Dimond moraine and Iguana Backs. A couple of slides were also noted on the southern half of the compass D2.5’s on Hippie ridge and Three Pigs.
2/28- Numerous wet loose running at low elevations with some reported gauging to the ground above town.
2/23- Full depth hard slab avalanche in steep rocky terrain. East facing side of RFS draining into Cascade Creek.
HS-N-R2-D2-O/G Steep Camp Couloir 2
2/17-18- A Significant avalanche cycle occurred during this time period. Most of the activity failed on deep persistent weak layers. These were the 1/24 facet-crust combo and the November facets. Numerous hard slab avalanches were observed that failed near the ground.
Deep hard slab activity included: Billy Mitchell, Happiness, 40.5 Mile Peak, NE Crudbusters Multiple spots around the Tonsina Glacier, West side of Iguana backs (really wrong place), Multiple spots in the Tsaina valley, Girl Mountain, Cracked Ice, Python, Buttress west of Nicks (this is has slid multiple times this year), North Oddessey shoulder. This is only a portion of the activity that occured.
Most of the activity occured around 4000′, although there were outliers at upper elevations.
Iguana Backs (Really Wrong Place)
North Oddessey Shoulder
2/17 – Keystone Canyon was reported to have many size 1-2 loose avalanches on the steep canyon walls. Crowns with depths of 10-15″ have been reported as well on the ice climbs Simple twist, Bridal Veil and Green Steps. Photo approach to Simple Twist
2/15- A large deep persistent avalanche occurred on “Back It In” near Mt Dimond. The trigger is unknown, but was most likely triggered remotely by a helicopter landing on a recon mission. It appears that a cornice fall triggered a shallow slab over rocks which then stepped down creating a deep slab ~500 feet wide that entrained the entire snowpack. Several other deep slabs failed sympathetically below.
2/13 – Meteorite ramp was reported to have released full path failing at the bedrock.
2/9 & 2/10- Numerous natural avalanches occurred during this time period.
Mt tiekel (50 mile) and 38 mile ran naturally, with 38 mile depositing a small amount of debris on the road.
The entire Python Buttress failed naturally close to the ground with a crown line approximately 1/4 mile in length. Numerous avalanches in the gully to the east occured as well. Debris from both areas extended ~200 meters across flat terrain.
Gully 2 and Nicks had significant slides run into their fans.
Snowslide Gulch ran naturally and hit the road.
DOT mitigation efforts produced activity at Three Pigs and Snowslide Gulch.
Natural activity was more extensive than noted. Snowfall continued after the event refilling crowns and preventing a good look at the extent of natural activity.
1/30-Several natural persistent slab avalanches were observed in the intermountain and continental zone.
Natural D3 Persistent slab avalanche/ Shovel/ northeast aspect/~5000′.
South aspect hogback ridge/~3000′
1/29- Observed numerous D2 avalanches on Billy Mitchell (cry babies area) and one D3 on Happiness. These were all northerly aspects. On Billy, slides originated between 3-4000 feet and on Happiness ~5000′.
1/28- During brief break in the clouds, observed a Natural D3 avalanche on Catchers Mitt. It is likely this slide failed on a persistent weak layer, as the crown was deep (3-4) feet and ran a considerable distance.
1/22-1/24- A D3 natural avalanche was observed on 1/22 in snow slide gulch that ran to just below the summer trail.
On 1/26 2-D3 naturals were seen on the east face of Mt Tiekel (beyond forecast zone) that ran half way through their aprons. These likely occured between the 1/22-1/24 time period.
Clouds prevented observation of where these slides originated
1/22- Clouds made observing avalanche activity difficult, although numerous large wet loose slides were observed on south aspects of Town Mountain in the Port of Valdez.
1/13- Multiple large natural avalanches were noted following the snowfall on 1/13. Most were near high elevation ridge lines, although mid elevation storm slabs were noted on north aspect of Catchers Mitt and south aspect of Mile high. Other avalanche not shown in photos include Goodwills north aspect and Oddeyssey north aspect.
1/1-1/4- The new years day wind event created an avalanche cycle that was difficult to document due to crowns being rapidly reloaded by 80 mph winds. Below are photos of a couple very large slides that were still visible in the Hippie ridge area. Naturals were also noted on Three Pigs, 40.5 Mile, Crudbusters, Python Buttress.
12/29- Multiple natural wet loose D1-D2’s were observed in the Port of Valdez with no step downs noted.
12/23- Berlin Wall north face ~5000′ HS-N-R3-D2-O. It is possible this occurred on 12/21, although it was not observed until 12/24.
12/21- Numerous natural avalanches observed all along the north side of Thompson Pass, as a result of strong NE wind event along with a couple inches of new snow and rising temperatures. Observed naturals on all aspects except windward slopes with crowns originating from 1000 feet to 5500 feet in elevation. Most of these were hard slab avalanches. Crown depths were difficult to discern due to reloading, although some crowns looked to be up to 2 meters in depth.
12/19- D 2.5 natural avalanches were observed on the north facing buttress west of Gully 1 and Schoolbus.
12/14- Several natural avalanches were observed although poor visibility prevented a full view of the action. The most notable natural was observed in Nicks Happy Valley on a NW aspect ~4000′. Crown depth was not visible. Debris ran down the valley and piled up at the typical snowmachine pickup.
12/8- Large remote trigger/ sympathetic avalanche event occurred 12/8 with avalanches extending from Gully 1 to Nicks. Avalanches were soft slabs that ranged in size from D1-D3. Over 10 separate avalanches were counted with crown depths averaging 2-3′. One avalanche had a crown length of half a mile while another was triggered over a mile away from the point of collapse. See observation section for full report and more photos.
12/7- Only a few natural avalanches were noted during the last storm. It is likely there were more during the storm, but crowns may have been filled in by subsequent wind and snow.
D2’s on Town mountain was observed ~3000′
A couple of D2’s were noted in N. Oddessey gully and Big Oddessey.
D2 on 40.5 mile peak ~5500′.
12/2-12/3- Several natural D2 avalanches were noted on south aspects of Three pigs, Hippie Ridge and Averys. These windslab avalanches originated between 4000-5500 feet elevation.
NWS Watches and Warnings
Point forecast for Thompson Pass
DATE FRIDAY 03/11 SATURDAY 03/12
TIME (LT) 06 12 18 00 06 12 18 00 06
CLOUD COVER OV OV OV OV OV OV OV OV OV
CLOUD COVER (%) 85 80 75 75 80 85 90 90 90
TEMPERATURE 28 30 26 23 24 28 21 15 14
MAX/MIN TEMP 30 22 28 13
WIND DIR SE S S S SE S N NE N
WIND (MPH) 9 6 6 5 3 3 5 18 19
WIND GUST (MPH) 26 51 41
PRECIP PROB (%) 60 50 50 50 60 70 60 40 40
PRECIP TYPE S S S S S S S S S
12 HOUR QPF 0.09 0.07 0.18 0.13
12 HOUR SNOW 0.5 0.2 1.7 0.8
SNOW LEVEL (KFT)0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
All snowfall measurements are expressed in inches and temperature in Fahrenheit. 24 hour sample period is from 6am-6am.
* 24 hour snow water equivalent/ SWE.
** Season total snowfall measurements for 46 mile began December 1st.
Season history graphs for Thompson Pass
Click on links below to see a clear and expanded view of above Season history graphs
TP WX Nov 21
TP wx Dec 21
TP Jan 22
TP Febuary 22
TP as of 3/9
Winter weather began early this season, with valley locations receiving their first snowfall on the last day of Summer (September 21st). Following this storm, above average temperatures and wet weather occurred from late September through early November. During this time period Thompson Pass received 96 inches of snowfall by November 7th and Valdez recorded 7.73″ of rain.
After the 7th of November our region experienced a sharp weather pattern change. Temperatures dropped below seasonal norms and snowfall became infrequent. Between the time frame of November 7th- November 28th Thompson Pass only reported 19″ of snow with 1.1″ of Snow water equivalent (SWE). Temperatures remained below 0° F for most of the period. This cold/dry weather caused significant faceting of the snowpack, with poor structure the result.
Moderate snowfall returned to our area the last day of November and deposited 6-12 inches of new snow. The amount varied depending upon the locations’ proximity to the coast. As the storm exited on the 2nd of December it was quickly replaced by moderate to strong northeast winds.
On 12/5-12/6 Valdez received 2 feet of new snow with Thompson Pass reporting 16″. Blaring red flags like collapsing, shooting cracks and propagation in stability tests were immediately present. On 12/8 a significant remote/ sympathetic avalanche event occurred from Gully 1 through Nick’s Happy Valley.
Strong outflow winds began on 12/11 with periods of light snowfall. This has caused slab thicknesses to become variable in areas exposed to NE winds.
A fair amount of natural avalanche activity occurred during the 12/11 wind event mostly on southerly aspects. The week following this wind event fairly benign weather occurred which allowed the snowpack to adjust and for stability to improve although snowpack structure has remained poor.
On 12/21 our area received a couple inches of snow along with temperatures rising and strong outflow winds. This combination of weather kicked off a fairly significant natural avalanche cycle. Many of the slabs appeared to be deeper wind slabs that were created from the 12/11 wind event. These failed on faceted snow created in November. The event is yet another indicator of our poor snowpack structure and its inability to receive any major change in weather without the avalanche hazard rising in conjunction.
On 12/26-28 warm air moved in at elevation and caused light rain to fall up to ~4000′. A very thin rain crust was formed in many locations that was unable to support a persons weight.
A prolonged period of strong north winds began on new years day with wind speeds reaching 80 mph. As winds tapered to 30-40 mph on the 5th temperatures plummeted with lows exceeding -30 F in the Tsaina valley.
Snowfall returned to our area on 1/13 with a foot of snow reported on Thompson Pass. An additional ~6 inches of snow were received on 1/15 with settled storm totals of 2.5 feet above 5000′.
Moderate outflow winds kicked up on 1/16, but were short-lived and not wide spread. This was followed by two days of calm and mild weather.
Stormy weather returned to our area on 1/19 with 10 consecutive days of measurable precipitation. The Initial change in weather brought ~1 foot of dry snow which was quickly followed by a big warmup from 1/21-1/24, with snow line rising to 3000′. This caused the snowpack to go upside down at the surface which created a decent amount of natural wet/loose activity near sea level and a couple D3 slab avalanches on Snowslide Gulch and Mt.Tiekel. Observation of avalanche activity was limited due to continued storms and crowns being filled back in.
After 1/24, precipitation continued with temperatures slowly dropping and snow line returning to sea level. Precipitation ended on 1/29 with moderate northeast winds building wind slabs as skies cleared.
Snow water equivalent storm totals for 1/19-1/28 are as follows:
Thompson Pass: 4.3″ (1/19-1/26)
46 Mile: 1.93″
A period of moderate outflow winds directly followed as the late January storms cleared out.
1/30-2/3- A period of mild weather occured with clearing skies dropping temperatures and light to moderate northerly winds. A fair number of large natural persistent avalanches were observed that occured during the previous storm and as a result of outflow winds at the tail end of the storm. First human triggered persistent slab avalanche since 12/8 reported on 1/30. This was remotely triggered.
A parade of lows began on 2/4 with precipitation measured in Valdez for 9 consecutive days. On 2/9-10 south winds ramped up to 50 mph and triggered a natural avalanche cycle with debris covering and closing the highway in a couple spots. Numerous deep persistent slab avalanches were observed in the mid elevation band. Storms continued after the natural cycle preventing a thorough record of the activity.
Following the 2/9-10 natural cycle storms continued to roll through our area with moderate to heavy accumulations occurring each day. On the 17th a more significant system moved through bringing ~20 inches of snow to Valdez and Thompson Pass with 2″ of SWE. This storm sparked a widespread natural avalanche cycle creating very large hard slab avalanches on all aspects, with many failing near the ground. Even small 30° glacial rolls were reported failing down to black ice. The November facets have been reactive this year every time there has been a major change in weather and this storm was no exception.
Our area received a quick break in the weather from 2/19-20 allowing the snowpack to settle some. This reprieve was followed by a foot of snow at sea level and 2 feet at upper elevations, that arrived on the night of 2/21 accompanied by strong winds. Very little natural activity was noted when skies cleared the 23rd. The exception to this was a full depth hard slab that failed in steep rocky terrain above cascade creek (see avalanche activity).
2/24-26 saw light to moderate precipitation with temperatures going above freezing at valley locations region wide.
3/1-2- Clearing skies with very little wind formed widespread surface hoar up to 5000′
3/3-3/6- Snowfall returns with a strong storm that delivered 20-24 inches of new snow to valley locations and more above. Continental locations were warmer with less precipitation, 46 mile received .5″ of rain. Strong southeast wind accompanied this storm with gusts to 40 mph.
The avalanche hazard is Considerable above 2000′ and moderate below. Human triggered avalanches are likely 1-2 feet deep in specific locations. The most likely place to encounter instability will be on the northern half of the compass, where it is possible that buried surface hoar exists 1-2 feet deep. Although unlikely, there remains the possibility to trigger a full depth avalanche in steep rocky terrain in the intermountain and continental forecast zone.
Posted 03/11 8:00 am.
Click the + Full Forecast button below for a list of current avalanche problems, travel advice, weather resources and more.
The Valdez Avalanche Center produces forecasts Wednesday- Sunday.
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