Wednesday, April 18, 2012

Backside Climatology

In an earlier post, we discussed some of the remarkable weather contrasts that existed between the Cottonwood Canyons and the Wasatch Back during the day on Sunday.  This included a pronounced cloud shadow that formed over the Wasatch Back and Park City Mountain Resort (PCMR), as well as the occasional spillover of precipitation across the Wasatch Crest.  Also, it was readily apparent that the snowpack at PCMR was substantially thinner than that found in the Cottonwood Canyons.

Dorothy, we're not in Little Cottonwood anymore.
Although the lack of snow at the base of PCMR on Sunday is partly related to elevation (the area pictured lies between 7000 and 8400 ft) and aspect (east to northeast), even on elevations and aspects similar to those at the resorts in Little and Big Cottonwood Canyon, the snowpack was markedly thinner.  This is confirmed by SNOTEL observations from Sunday at Snowbird in Little Cottonwood Canyon (31.5" SWE and 78" snow depth @ 9640 ft) and Thaynes Canyon in PCMR (14.5" SWE and 44" snow depth @ 9200 ft).

Why this contrast?  To begin, it's helpful to first take a detailed look at the topography of the Wasatch Mountains.  Although the Wasatch Mountains are a fairly narrow range that run roughly north-south, the central Wasatch Mountains (large box below), which encompass Big Cottonwood Canyon (BCC), Little Cottonwood Canyon (LCC), and the Park City Ridgeline, is unique in two important ways.  First, the central Wasatch are broader than the rest of the Wasatch Mountains, such as the area around Snowbasin (small box).  Second, although the Park City ridgeline forms the hydrologic divide, the highest terrain is located to the west along the three west-east oriented ridges that rise above Big Cottonwood Canyon and Little Cottonwood Canyon.  Collectively, this forms an "island of high topography" that is the broadest and most substantial in the Wasatch Mountains (a couple peaks reach higher to the south, but they lack the width of the central Wasatch).  Thus, the highest terrain is actually upstream of the Park City ridgeline during many storm periods.


Although there can be storm periods during which the flow is southerly, southeasterly, or easterly and the Park City resorts benefit from temporarily being on the windward side of the Wasatch Mountains, during most storm periods, they are on the leeward side.  Thus, the mean annual snowfall is about 33–40% lower at PCMR than found at comparable elevations in Little Cottonwood Canyon.

Estimated mean annual snowfall as a function of elevation in Little
Cottonwood Canyon (LCC, blue) and Park City Mountain Resort (red).
Derived with clever wizardry using PRISM precipitation analyses
and data available from the Western Region Climate Center.    
This is consistent with snowpack SWE observations from the Snowbird and Thaynes Canyon SNOTEL stations, respectively, which peak at an average of about 42" and 25", respectively (a difference of about 40%).

The height and breadth of the central Wasatch topography contributes to this contrast.  Where the Wasatch are narrower, such as around Snowbasin, more precipitation generated on the windward side of the mountains spills over into the lee.  This is one reason why the average snowfall and snow depth at Snowbasin is greater than found in the Park City area.  

Making all this even more remarkable is the snowfall contrast between Alta and Park City occurs over a distance of less than 15 km.  

6 comments:

  1. hmmm, very interesting! Although not as large of a rain shadow as is found in some of Washington's or Oregon's mountains (for example, the contrast between Bonneville Dam and The Dalles stations along the Columbia River Gorge, Oregon), this is still pretty substantial.
    Alta's weather station listed at the WRCC says it receives 531 inches of snow annually at 8700' elevation. This looks like more than you have listed. Is this for a different part of the canyon? Thanks for the interesting post!

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  2. Ben:

    WIth regards to the numbers on that graph, they are based on a digital snowfall analysis that I created in house at about 800-m grid spacing. That analysis produces just over 500 inches at the Alta coop site, so it's fairly close, but that's one of the snowiest places in LCC. I eyeballed the data in the Little Cottonwood Canyon area and in the PCMR area for the graph, so the graph won't perfectly match the coop data. The 531" figure you quote is a bit higher than the 509" mean reported at http://www.wrcc.dri.edu/cgi-bin/cliMAIN.pl?ut0072. The time periods used and methods used to replace missing data all contribute to uncertainties. There is no truth in meteorology! Nevertheless, the graph should be in the ballpark.

    Jim

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  3. are there any mountains in the slc area that receive more snow then LCC? i.e. where should I build a new ski resort?

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  4. More? Probably not. The best snow option outside of LCC is probably Ben Lomond Peak northeast of Ogden. The data is sketchy, but the evidence suggests that it snows about as much there as it does in LCC, but, it is a feast or famine climate (they get creamed in southwesterly flow) and a very windy location. Additionally, I like to backcountry ski tour there, so build your ski area elsewhere :-).

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  5. What about the mountains west of salt lake valley? The ones u see as u drive towards the airport. They look about 30 miles west. R those ever skied? Why no resorts there?

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  6. Fascinating, the very steep gradient of snowfall by elevation. On either side. I had seen 160" mentioned for the base of PCMR but for obvious reasons that number doesn't see much press. Just looked up Kamas to see how much further it drops off in the shadow of the Wasatch and it's 87".

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