Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada
<p>Numerous large-scale atmosphere–ocean oscillations including the El Niño–Southern Oscillation (ENSO), the Pacific Decadal Oscillation (PDO), the Pacific North American Teleconnection Pattern (PNA), and the Arctic Oscillation (AO) are known to substantially affect winter weather patterns in...
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Copernicus Publications
2021-03-01
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| Series: | The Cryosphere |
| Online Access: | https://tc.copernicus.org/articles/15/1567/2021/tc-15-1567-2021.pdf |
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doaj-6222f05e1533489ab32530bbcb4e351f2021-03-29T08:38:12ZengCopernicus PublicationsThe Cryosphere1994-04161994-04242021-03-01151567158610.5194/tc-15-1567-2021Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western CanadaP. Haegeli0B. Shandro1B. Shandro2P. Mair3School for Resource and Environmental Management, Simon Fraser University, Burnaby, V5T 2P9, CanadaSchool for Resource and Environmental Management, Simon Fraser University, Burnaby, V5T 2P9, Canada6 Point Engineering and Avalanche Consulting, Nelson, V1L 4H5, CanadaDept. Psychology, Harvard University, Cambridge, MA 02138, USA<p>Numerous large-scale atmosphere–ocean oscillations including the El Niño–Southern Oscillation (ENSO), the Pacific Decadal Oscillation (PDO), the Pacific North American Teleconnection Pattern (PNA), and the Arctic Oscillation (AO) are known to substantially affect winter weather patterns in western Canada. Several studies have examined the effect of these oscillations on avalanche hazard using long-term avalanche activity records from highway avalanche safety programmes. We present a new approach for gaining additional insight into these relationships that uses avalanche problem information published in public avalanche bulletins during the winters of 2010 to 2019. For each avalanche problem type, we calculate seasonal prevalence values for each forecast area, elevation band, and season, which are then included in a series of beta mixed-effects regression models to explore both the overall and regional effects of the Pacific-centered oscillations (POs; including ENSO, PDO, and PNA) and AO on the nature of avalanche hazard in the study area. We find significant negative effects of PO on the prevalence of storm slab avalanche problems, wind slab avalanche problems, and dry loose avalanche problems, which agree reasonably well with the known impacts of PO on winter weather in western Canada. The analysis also reveals a positive relationship between AO and the prevalence of deep persistent slab avalanche problems, particularly in the Rocky Mountains. In addition, we find several smaller-scale patterns that highlight that the avalanche hazard response to these oscillations varies regionally. Even though our study period is short, our study shows that the forecaster judgement included in avalanche problem assessments can add considerable value for these types of analyses. Since the predictability of the most important atmosphere–ocean oscillations is continuously improving, a better understanding of their effect on avalanche hazard can contribute to the development of informative seasonal avalanche forecasts in a relatively simple way.</p>https://tc.copernicus.org/articles/15/1567/2021/tc-15-1567-2021.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
P. Haegeli B. Shandro B. Shandro P. Mair |
| spellingShingle |
P. Haegeli B. Shandro B. Shandro P. Mair Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada The Cryosphere |
| author_facet |
P. Haegeli B. Shandro B. Shandro P. Mair |
| author_sort |
P. Haegeli |
| title |
Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada |
| title_short |
Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada |
| title_full |
Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada |
| title_fullStr |
Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada |
| title_full_unstemmed |
Using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western Canada |
| title_sort |
using avalanche problems to examine the effect of large-scale atmosphere–ocean oscillations on avalanche hazard in western canada |
| publisher |
Copernicus Publications |
| series |
The Cryosphere |
| issn |
1994-0416 1994-0424 |
| publishDate |
2021-03-01 |
| description |
<p>Numerous large-scale atmosphere–ocean oscillations
including the El Niño–Southern Oscillation (ENSO), the Pacific Decadal
Oscillation (PDO), the Pacific North American Teleconnection Pattern (PNA),
and the Arctic Oscillation (AO) are known to substantially affect winter
weather patterns in western Canada. Several studies have examined the effect
of these oscillations on avalanche hazard using long-term avalanche activity
records from highway avalanche safety programmes. We present a new approach
for gaining additional insight into these relationships that uses avalanche
problem information published in public avalanche bulletins during the
winters of 2010 to 2019. For each avalanche problem type, we calculate
seasonal prevalence values for each forecast area, elevation band, and
season, which are then included in a series of beta mixed-effects regression
models to explore both the overall and regional effects of the
Pacific-centered oscillations (POs; including ENSO, PDO, and PNA) and AO on the
nature of avalanche hazard in the study area. We find significant negative
effects of PO on the prevalence of storm slab avalanche problems, wind slab avalanche problems, and dry loose avalanche problems, which agree reasonably well
with the known impacts of PO on winter weather in western Canada. The
analysis also reveals a positive relationship between AO and the prevalence
of deep persistent slab avalanche problems, particularly in the Rocky Mountains. In addition, we find several
smaller-scale patterns that highlight that the avalanche hazard response to
these oscillations varies regionally. Even though our study period is short,
our study shows that the forecaster judgement included in avalanche problem
assessments can add considerable value for these types of analyses. Since
the predictability of the most important atmosphere–ocean oscillations is
continuously improving, a better understanding of their effect on avalanche
hazard can contribute to the development of informative seasonal avalanche
forecasts in a relatively simple way.</p> |
| url |
https://tc.copernicus.org/articles/15/1567/2021/tc-15-1567-2021.pdf |
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