OverallHigh pressure predominates with normal to above average temperatures. Natural and human triggered wet avalanche activity is possible, especially on sun affected slopes.
Evening temperatures have not consistently dropped below freezing at 11,500' the last week, resulting in increased instability due to snowpack saturation, thus increasing potential for wet avalanches and point releases on all aspects. This trend will continue until cooler evenings thoroughly freeze the snowpack, though the outlook for the next two weeks indicates above average temperatures.
There is ample snow on northerly and shaded aspects above 9500' for spring touring.
This Summary wraps up our 2016-2017 season of reporting. New precipitation and wind loading will increase avalanche hazard, especially above treeline.
SPECIAL THANKS TO: TROY MARINO- KPAC Web guru; avalanche course instructor; Snow Summary author and active backcountry evaluator. DAVID LOVEJOY- Education Director for KPAC; veteran lead avalanche instructor; Heart and Soul of KPAC:) JAMES FOULKS- KPAC Treasurer; visionary; avalanche instructor and backcountry evaluator. BLAIR FOUST- KPAC Secretary; moral compass and excellent positive force. DERIK SPICE- KPAC President; avalanche instructor; advocate and collaborator. Snow Summary author and editor.
Near and Above TreelineThe current melt freeze cycle continues into the next week, with more melt than freeze in the forecast. Time your travels to avoid saturated conditions and monitor the depth and duration of evening freezing. Some north and higher elevation aspects retain abundant coverage of 2+ meters, thus the rugged basalt boulder substrate which helps anchor the snowpack is well buried and not as effective in preventing wet avalanche activity, especially if the snowpack is saturated.
If cooler weather returns, crampons and ice axes may increase security on steep hard snow and ice that may be encountered at high elevations. Mixed conditions exist above treeline, ski with caution!
Below TreelineNatural and human triggered avalanches are unlikely other than small wet loose avalanches after warming. Unstable wet snow may develop on isolated terrain features.
Southerly and westerly aspects below 10,000' are quickly losing snow coverage as springtime warming continues. Rocks and logs are emerging just under the surface and may be hidden.
Warm temperatures may produce deep slush, snowballing, pinwheels, and small wet slides indicate the potential for larger wet loose avalanches or wet slab releases. Refer to the Agassiz Weather Station which is near treeline at 11,500' for temperature trends. If overnight temperatures do not drop below freezing then wet avalanche hazard will increase near treeline.
Quick warming after new snow can cause wet avalanches. Rain on snow can cause wet avalanches as well. Careful terrain choice relative to elevation and aspect, along with time of day will help in wet snow avalanche evaluation.
Snowpack saturation, water percolation, and/or the late March dirty snow layers exacerbate wet slide potential.
Liquid water from snowmelt or rain-on-snow, moves through the layers of the snowpack at different rates. Wet Slab avalanches happen when a weak layer or interface becomes moist, wet, or saturated. The wet snow loses strength resulting in an avalanche.
KPAC thanks you for your participation in this remarkable season. This was a very productive year for avalanche education, with 73 Level 1 Avalanche Course students; and 5 Level II Avalanche Course students. KPAC awarded $2400 in scholarships to help promote avalanche education. Thank you for your ongoing support!
MANY THANKS TO OUR ADVISORS, EDUCATORS AND COLLEAGUES: NATE MOODY; BJ BOYLE; ARIZONA SNOWBOWL; ARIZONA SNOWBOWL SKI PATROL; USFS COCONINO NATIONAL FOREST; CITY OF FLAGSTAFF; COCONINO COUNTY SAR; RIC STANIONIS; JON MILLER; TANNER PORTER; CHRISTY BOLOGNANI; HAILEY HAGERTY AND AVA; HUMPHREYS SUMMIT; SKI HAUS; PAY N TAKE; ASPEN SPORTS; BUZZ MCELWAIN; MATHIEU BROWN; PHIL STRAUB; ALYSSA YOUNG; PRESCOTT COLLEGE; NORTHERN ARIZONA UNIVERSITY; OUR NUMEROUS SPONSORS; AND THE AMAZING SKI COMMUNITY HERE ON THE KACHINA PEAKS...THANKYOU! SAFE TRAVELS THIS SUMMER.
As always, please treat this summary with appropriately guarded skepticism, make your own assessments, and contribute to our body of knowledge by reporting your observations.
Sunny, breezy and above average temperatures are forecast for the next week. High pressure is forecasted to build. There are currently no storm systems in the 10 day outlook.
The Inner Basin SNOTEL site (Snowslide) reported a snow depth of 45 inches (114 cm) at 9700'. Arizona Snowbowl reported 86 inches (218 cm) at 10800'. Since April 9, SNOTEL temperatures ranged between 20° and 59° F. Agassiz station reports temperatures between 22 and 47 degrees F.
Season snowfall to date is 328" (8.30 meters) at AZ Snowbowl, 10800'.
The avalanche problem/character describes part of the current avalanche danger. However because we only realease a summary once a week, the current avalanche problem will likely change.
Understanding avalanche problems is essential, because it allows you to determine your approach and strategies to risk treatment. Below are brief descriptions of avalanche problems/characters, and links to detailed information on the problem, formation, patterns, recognition, and avoidance strategies.
Avalanche Problems Explained Also see the North American Danger Scale.
Release of dry unconsolidated snow. These avalanches typically occur within layers of soft snow near the surface of the snowpack. Loose-dry 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. Loose-dry avalanches can trigger slab avalanches that break into deeper snow layers.
Loose Dry avalanches are usually relatively harmless to people. They can be hazardous if you are caught and carried into or over a terrain trap (e.g. gully, rocks, dense timber, cliff, crevasse) or down a long slope. Avoid traveling in or above terrain traps when Loose Dry avalanches are likely.
Release of a soft cohesive layer (a slab) of new snow that breaks within the storm snow or on the old snow surface. Storm-slab problems typically last between a few hours and few days. Storm-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.
You can reduce your risk from Storm Slabs by waiting a day or two after a storm before venturing into steep terrain. Storm slabs are most dangerous on slopes with terrain traps, such as timber, gullies, over cliffs, or terrain features that make it difficult for a rider to escape off the side.
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.
Wind Slabs form in specific areas, and are confined to lee and cross-loaded terrain features.
They can be avoided by sticking to sheltered or wind-scoured areas.
Release of a cohesive layer of soft to hard snow (a slab) in the middle to upper snowpack, when the bond to an underlying persistent weak layer breaks. Persistent layers include: surface hoar, depth hoar, near-surface facets, or faceted snow.
Persistent weak layers can continue to produce avalanches for days, weeks or even months, making them especially dangerous and tricky. As additional snow and wind events build a thicker slab on top of the persistent weak layer, this avalanche problem may develop into a Deep Persistent Slab.
The best ways to manage the risk from Persistent Slabs is to make conservative terrain choices.
They can be triggered by light loads and weeks after the last storm.
The slabs often propagate in surprising and unpredictable ways.
This makes this problem difficult to predict and manage and requires a wide safety buffer to handle the uncertainty.
Deep Persistent Slab
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 or near the ground.
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.
They commonly develop when Persistent Slabs become more deeply buried over time.
Deep Persistent Slabs are destructive and deadly events that can take months to stabilize.
You can trigger them from well down in the avalanche path, and after dozens of tracks have crossed the slope.
Release of wet unconsolidated snow or slush. These avalanches typically occur within layers of wet snow near the surface of the snowpack, but they may quickly gouge into lower snowpack layers.
Like Loose Dry Avalanches, they start at a point and entrain snow as they move downhill, forming a fan-shaped avalanche. They generally move slowly, but can contain enough mass to cause significant damage to trees, cars or buildings. Other names for loose-wet avalanches include point-release avalanches or sluffs. Loose Wet avalanches can trigger slab avalanches that break into deeper snow layers.
Travel when the snow surface is colder and stronger. Plan your trips to avoid crossing on or under very steep slopes in the afternoon. Move to colder, shadier slopes once the snow surface turns slushly. Avoid steep, sunlit slopes above terrain traps, cliffs areas and long sustained steep pitches.
Release of a cohesive layer of snow (a slab) that is generally moist or wet when the flow of liquid water weakens the bond between the slab and the surface below (snow or ground). They often occur during prolonged warming events and/or rain-on-snow events. Wet Slabs can be very destructive.
Avoid terrain where and when you suspect Wet Slab avalanche activity. Give yourself a wide safety buffer to handle the uncertainty.
Cornice Fall is the release of an overhanging mass of snow that forms as the wind moves snow over a sharp terrain feature, such as a ridge, and deposits snow on the downwind (leeward) side.
Cornices range in size from small wind lips of soft snow to large overhangs of hard snow that are 30 feet (10 meters) or taller. They can break off the terrain suddenly and pull back onto the ridge top and catch people by surprise even on the flat ground above the slope. Even small cornices can have enough mass to be destructive and deadly. Cornice Fall can entrain loose surface snow or trigger slab avalanches.
Cornices can never be trusted and avoiding them is necessary for safe backcountry travel. Stay well back from ridge line areas with cornices. They often overhang the ridge edge can be triggered remotely. Avoid areas underneath cornices. Even small Cornice Fall can trigger a larger avalanche and large Cornice Fall can easily crush a human. Periods of significant temperature warm-up are times to be particularly aware.
Large cornices are generally rare in Arizona, but they have been observed during very snowy winters.
Release of the entire snow cover as a result of gliding over the ground. Glide avalanches can be composed of wet, moist, or almost entirely dry snow. They typically occur in very specific paths, where the slope is steep enough and the ground surface is relatively smooth. The are often proceeded by full depth cracks (glide cracks), though the time between the appearance of a crack and an avalanche can vary between seconds and months. Glide avalanches are unlikely to be triggered by a person, are nearly impossible to forecast, and thus pose a hazard that is extremely difficult to manage.
Predicting the release of Glide Avalanches is very challenging. Because Glide Avalanches only occur on very specific slopes, safe travel relies on identifying and avoiding those slopes. Glide cracks are a significant indicator, as are recent Glide Avalanches.
Glide avalanches are very uncommon in Arizona.
Snowpack Summary Disclaimer
The summaries on this site were written by Kachina Peaks Avalanche Center Board Members. They are based on a broad spectrum of data collected from weather stations, National Weather Service point forecasts and field observation by qualified individuals.
The summaries are not intended to substitute for good knowledge and decision making skills in avalanche terrain. If you have any doubt of stable conditions, please stay away from avalanche terrain. You can usually find good places to go that are not prone to avalanches, such as on low angle slopes away from avalanche run-out zones. If you have any questions about where to find such places, you should consider further avalanche educational opportunities, such as those listed on our education page.
Snowpack Summary – Format and Limitations Statement
Starting in 2012 Kachina Peaks Avalanche Center (KPAC) has publish a weekly Snowpack Summary on our website.
These summaries are currently issued on Friday afternoons. On occasion, we will give storm updates or warnings of rapidly increasing avalanche hazard at more frequent intervals.
Our objective is to reach weekend recreationist, informing this user group of prevailing conditions, but particularly warning of avalanche hazards whenever they are present.
Many people have asked us why we use the format we do, but do not include a danger rating or a hazard/stability rose as many other avalanche centers do around the west.
The National Avalanche Center (NAC) advises small operations like KPAC, who do not issue daily bulletins to not use danger ratings in our snowpack summaries due to the regular but intermittent nature of their field observations and the length of time between issuance of snowpack summaries.
A primary concern is for how conditions can change in the time between publications, potentially giving the public misleading information. At this point, we simply do not have resources to monitor the snowpack at the level necessary to accurately produce more frequent bulletins.
While we understand the benefits of a danger rating using the North American Danger Scale, we also feel that our format encourages people to dig in a little deeper, and spend some time reading what our forecasters are saying. Although the area that we forecast is relatively small, the variability has proven quite large.
Inner Basin conditions are often surprisingly different from those on the more wind-affected western side on the Peaks.
We hope the information that we provide in summaries helps give you a good overview of what is going on out there, and what avalanche problems you should be attentive to, but if there is any uncertainty, then we encourage you to ask questions via Facebook or firstname.lastname@example.org.