Haines Avalanche Center

Forecast Expired - 03/28/2021

Above 2,500ftModerate

1,500 to 2,500ftModerate

Below 1,500ftModerate

Degrees of Avalanche Danger

Avalanche Problems

Problem 1

Wind Slab:

Confidence: High.     Distribution: Specific to wind loaded aspects (E-SE-S-SW).

 

On Wednesday we had a strong NW wind event that caused new wind slabs to build on lee aspects above treeline. Since then, it has snowed a few inches and winds switched around to the SE. Keep in mind the possible loading patterns from NW winds, and look/listen for slabby snow underfoot. If you venture into avalanche terrain, reduce your exposure by traveling one-at-a-time across suspect slopes, and be mindful of any terrain traps below you where all this new snow can pile up extremely deep.

 

Any slides in the upper snowpack are likely to step down to deeper weak layers in the midpack. See the Deep Slab problem below…

 

 

Likelihood:

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

Size:

  • Historic
  • Very Large
  • Large
  • Small

Trend

  • Increasing
  • Steady
  • Decreasing

Problem 2

Deep Slab:

Confidence:  Low.     Distribution: Widespread.       Reactiveness: Stubborn.

 

We still have known weak layers in the mid pack and below. Though triggering is getting slightly harder as time goes on, it is still possible, especially with smaller avalanches stepping down.

  • Identify and avoid suspect wind loaded slopes
  • Most likely to trigger a slab from a shallow part of the slope
  • Look at the full avalanche path, identify starting zones
  • Surface instabilities are over deeper buried PWL‘s
  • Increased wind slab hazard adds overall complexity
  • Use extra caution traveling below run-out zones

 

We currently have three buried persistent weak layers:

  • Near-surface facets (NSF) & surface hoar down 70-90cm from March 11th
  • Buried surface hoar & melt-freeze crust / facet combo down 130cm from February 28th
  • Melt-freeze crust or facet combo down 160cm from February 21st

 

Persistent weak layers below wind slab closer to the surface will be reactive or touchy for human triggered avalanches. Persistent layers in the mid-pack likely are to behave stubbornly, or unreactive.

 

  • The location of these weak layers are difficult to map and highly elevation and aspect dependent.
  • Glacier effect and valley effect are two contributing factors to where surface hoar has developed
  • Freezing levels have shaped where hard crusts and facets combinations have formed.
  • Sheltered terrain = protected areas where weak layers are buried.
  • Solar aspects are warming in the spring sun and have especially poor structure.
  • Consider underlying terrain such as alder, trees, rocks, and cliffs as suspect trigger points.
  • Bigger triggers such as cornice collapse, snowmachine drops, or accessing thin areas of the slab.
  • Sunlight weakens surrounding snow and those are areas you more likely could trigger an avalanche from.

 

Again, remember your tool box to reduce risk and travel safely:

  • Slope angle is as important as ever when traveling through avalanche terrain, as well as slope failure consequences like terrain traps or group spacing.
  • Only expose one person to a slope at a time and carefully identify run-out zones, starting zones, defined paths and non-defined paths.
  • Beware of the familiarity heuristics “this slope never slides” as the snowpack is not giving us positive feedback for getting lucky.
  • Expect avalanches to break wider and run longer than expected, keep your safety margins very wide.
  • Stick to slopes that are below 30 degrees without steeper slopes connected above, or where tree spacing and anchoring are tight enough to anchor a slab.

 

Image and wisdom is from IFMGA Guide Joe Stock’s Website https://www.stockalpine.com/posts/.

 

The layers seen in the image below are all now buried beneath 50-80cm of new storm snow.

 

Finally, we have Two DEEP persistent weak layers:

  1. MLK day facet crust/combo down ~200cm+ buried on 1/18 is widespread on terrain near and below 3000′.
  2. November depth hoar down ~400cm in specific very steep, exposed, high alpine terrain.

 

Deep Slabs require either a heavy trigger, like cornice falls and snowmachine drops. Or an avalanche in the upper layers of the snowpack that steps-down. You are also more likely to initiate a fracture from the thinnest part of the slope into a much thicker part. Think about how wind distributes snow to thin and fat zones.

 

These deepest weak layers have been unreactive, or very stubborn but do exist in the landscape. Continued load such as settlement, wind, new snow, rain, or rapid temperatures changes will increase the hazard. Any slabs that break this deep are likely to be deadly. South aspects are known to have poor structure and are getting baked by strong solar radiation when the sun comes out, which weakens the snowpack. Upper persistent slab avalanches could step down, release sympathetically, or remotely trigger deeper layers (see Persistent Slab above).

 

We are in the most deadly time of year in Haines. Early March has historically brought tragic accidents with large avalanches that break much wider than expected.

Likelihood:

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

Size:

  • Historic
  • Very Large
  • Large
  • Small

Trend

  • Increasing
  • Steady
  • Decreasing

Avalanche Activity

 

March 22nd – an impressive D3 natural slide in the Transitional Zone, on a steep unsupported S/SE aspect at about 4500ft. Occurred with direct solar radiation on the slope. This is an indication of the wide propagation potential and deep slab nature of our tricky persistent slab problem. South aspects should be considered highly suspect during times of solar radiation. Other aspects will likely also get into the action as temperatures warm up this spring.

 

  • March 9th – Whumphing drainage wide collapse over alders E-Aspect below 1500′. Transitional Zone.
  • March 6th – Recent D2 naturals N-Aspect 1500′, E-Aspect 1500′ & NE-Aspect 3200′. Transitional Zone.

Weather

This week was relatively calm (except for a NW wind event on Wednesday) with little precipitation and cool weather.  Snow showers on Friday will be slowly decreasing, leading to clearing on Sunday.

 Snow Depth [in] Last 24-hr Snow/SWE [in] Last 3-days Snow/SWE [in]  Today’s Freezing Level [ft]  Today’s Winds Next 24-hr Snow/SWE
Mount Ripinsky @ treeline   130″+*  1″ / 0.10*  2″ / 0.20*   0′  mod, NW  0″ /0.00*
Flower Mountain @ treeline  106″  1″ / 0.10  3″ / 0.30   0′  mod, NW  0″ /0.00*
Chilkat Pass @ 3,100ft  61″  4″ / 0.20  4″ / 0.20   0′  mod, NW  0″ /0.00*

( *star means meteorological estimate )

—The Mt. Ripinsky weather station is completely buried and no longer reporting.—

Additional Information

Practice like you play. Make sure all your rescue gear it is fully functional and your beacon has full batteries. Make sure 1) everyone in the group has a functioning beacon, shovel and probe 2) knows how to use them and 3) has trained in companion rescue in the last year. Keep your skills fresh. If you head into the hills, watch out for red flag avalanche conditions, natural avalanches, whoomphing or collapsing, and shooting cracks.

 

Education Video Links:

Announcements

Click the + Full Forecast link below for each zone to read more. Keep an eye out for weather-related surprises this weekend. Anywhere with more new snow or wind than expected may have elevated danger.