Saturday, October 2, 2010

K2 Skis Unveils Grom Inspired Website For Young Ski Addicts

K2 Skis Unveils Grom Inspired Website For Young Ski Addicts

K2 Sports launched its youth focused, destination website today – K2Groms.com.  The website is a platform for the K2 Brand to communicate its message and goals with the future’s best of skiing and snowboarding while creating a fun, educational portal for little rippers.
K2 Sports launched its youth focused, destination website today – K2Groms.com. The website is a platform for the K2 Brand to communicate its message and goals with the future’s best of skiing and snowboarding while creating a fun, educational portal for little rippers.
SEATTLE, Wash. —  K2 Sports has launched a new youth focused website called  K2Groms.com that the company says is a platform for the K2 Brand to communicate with the future’s best of skiing and snowboarding while creating a fun, educational portal for little rippers.
The site features a gaming area with three K2 specific games, a video portal that showcases video content from all K2 brands, an online store to purchase K2 Groms gear and a membership area that enables kids to select their own K2 Groms avatar, register to become an official K2 Grom, and receive a free K2 Groms sticker pack and membership card.
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Utah long range weather forecast

Southwest U.S.
Long Range Weather Forecast for October 1st - November 30th

Includes California, Nevada, Utah, Arizona

October 2010
1st-3rd. Unsettled.
4th-7th. Gusty winds, showers.
8th-11th. Fair, chilly.
12th-15th. Milder, then showers.
16th-19th. Mostly fair.
20th-23rd. Unsettled from West Coast east.
24th-27th. Clearing, turning colder.
28th-31st. Unsettled, showery.
November 2010
1st-3rd. Pleasant most sections, except turning stormy for Utah.
4th-7th. Clearing, cold.
8th-11th. Pleasant, then unsettled with gusty winds, precipitation. Some wet snow Nevada, Utah, northern Arizona.
12th-15th. Fair.
16th-19th. Gusty winds, heavy precipitation, snow for Utah.
20th-23rd. Fair, cold.
24th-27th. Light snows for Nevada, Utah, parts of Arizona, then fair, cold.
28th-30th. Fair at first, then stormy. Snowstorm Utah, showers, thunderstorms Arizona.

Utah Snow Reports end of the 2009 / 2010 season

Utah Snow Reports for the end of the 2009 / 2010 season

Resort Name Weather New Snow Surface Open Terrain Events / Links
Alta, UT
April 25, 2010 05:44
mostly cloudy
45
Apr 24: 4" Packed Powder - Variable Conditions
Base 112" - 112"
84 of 114 trails open
1600 of 2200 acres open
3 of 11 lifts running
70% open
web cam
trail map

Beaver Mountain, UT
March 29, 2010 09:15
sunny
46


Base 53" - 53"
48 of 48 trails open
664 acres open
6 of 6 lifts running
0% open
web cam
trail map

Brighton, UT
April 18, 2010 06:40
overcast
36
Apr 14: 6" Spring Conditions
Base 109" - 109"
66 of 66 trails open
1050 acres open
7 of 7 lifts running
100% open
web cam
trail map

Deer Valley, UT
April 11, 2010 05:18
partly cloudy
34
Apr 07: 8" Packed Powder - Powder
Base 112" - 112"
100 of 100 trails open
2026 acres open
21 of 21 lifts running
100% open
web cam
trail map

Park City, UT
April 18, 2010 06:05
clear
56
Apr 14: 3" Spring Conditions - Variable Conditions
Base 64" - 90"
65 of 110 trails open
3300 acres open
8 of 16 lifts running
70% open
web cam
trail map

The Canyons, UT
April 11, 2010 07:10
partly sunny
45
Apr 07: 4" Variable Conditions - Spring Conditions
Base 78" - 98"
153 of 167 trails open
3411 of 3700 acres open
17 of 18 lifts running
92% open
web cam
trail map

Powder Mountain, UT
April 11, 2010 11:16
sunny
48

Packed Powder - Spring Conditions
Base 69" - 90"
124 of 124 trails open
5500 acres open
7 of 7 lifts running
100% open
web cam
trail map

Snowbasin, UT
April 18, 2010 05:31
sunny
62
Apr 14: 1" Spring Conditions - Variable Conditions
Base 42" - 87"
75 of 113 trails open
1700 of 3200 acres open
3 of 10 lifts running
60% open
web cam
trail map

Snowbird, UT
June 11, 2010 09:52


Spring Conditions
Base 80" - 80"
70 of 85 trails open
2500 acres open
2 of 12 lifts running
82% open
web cam
trail map

Solitude, UT
April 18, 2010 06:37
partly cloudy
55
Apr 14: 6" Spring Conditions
Base 102" - 102"
40 of 65 trails open
1200 of 1200 acres open
5 of 8 lifts running
70% open
web cam
trail map

Sundance, UT
April 05, 2010 08:17
snow
38
Apr 04: 7"
Base 67" - 67"
42 of 42 trails open
450 acres open
4 of 4 lifts running
0% open
web cam
trail map

Brian Head, UT
April 17, 2010 06:29

Apr 13: 6" Packed Powder - Powder
Base 65" - 65"
65 of 65 trails open
650 acres open
8 of 8 lifts running
100% open
web cam
trail map

Wolf Creek Utah, UT
March 18, 2010 11:51
sunny
57


Base 30" - 40"
20 of 20 trails open
0 acres open
4 of 4 lifts running
0% open
web cam
trail map

Soldier Hollow XC, UT
March 28, 2010 14:13

0


Base 0" - 0"
0 of 0 trails open
0 acres open
0 of 0 lifts running
0% open
trail map


* snow report data provided by SnoCountry.com

Winter snow prediction 2010 2011

Winter Forecast 2010-2011: Heavier Snow for Chicago, Minneapolis and Detroit, Normal Snowfall for NYC, Philly and D.C.

 

The major metropolitan areas of the mid-Atlantic that were pummeled with snow last year will get a break this winter, but that doesn't mean there will be no snow to shovel. In contrast, Chicago, Milwaukee and Minneapolis could be in the heaviest snow zone this upcoming winter.

Winter's Worst Cold and Snow
Overall, AccuWeather.com Chief Long-Range Meteorologist Joe Bastardi is predicting that the worst of winter's cold and snow will be from the Pacific Northwest into the northern Plains and western Great Lakes. That will put cities like Portland and Seattle that escaped with a very nice winter last year, colder and snowier this year. Fargo and Minneapolis to Green Bay will also receive above-normal winter snowfall.
Other cities predicted to receive above-normal winter snowfall include Chicago, Omaha, Minneapolis, Detroit, Cleveland, Seattle and Portland.
Bastardi predicts severe cold will hit Alaska and western and central Canada.
"The Canadian winter will be as harsh as last year's was gentle," Bastardi said.
Wintry Battle Zone But No Snowmageddon
In general, the East Coast will be granted a reprieve from the tremendous snowfall that caused 2009-2010's winter to be dubbed "snowmageddon."
This does not mean a free pass for the Northeast. Bastardi predicts late November and December could get winter off to a fast start in the East, with a major thaw coming for much of the country in January.
Bastardi makes the early cold connection between this year's active hurricane season and his winter forecast.
He said that years that see significant landfall, such as 1995, 2008 and 2005, usually also have cold for much of the eastern and central portions of the nation in December.
He said this year from the central Rockies to the Northeast a higher variance of temperatures will be present - "greater-than-normal swings between winter's coldest and warmest days." The conflicting warm and cold air masses contributing to these temperature fluctuations have placed this area into what Bastardi calls the "Wintry Battle Zone."
Despite the wild swings in temperatures, cities like New York, Philadelphia and Washington, D.C., will still have near-normal snowfall. To put this in perspective, New York City receives an average of 28.4 inches of snowfall during winter.
Warmer and Drier South
The South and southern Plains will escape the worst of the winter weather with warmer and drier conditions compared to last year. Dallas, which received near-record snowfall last year, will be lucky to get normal snowfall this year.
While these areas will be warmer and drier, this does not preclude the southern Plains and South from the threat of a couple of ice storms, as cold air tries to intrude southward.
The best weather this winter will be in Florida. Bastardi suggests that Florida will be a great winter destination, with warmer-than-normal temperatures all winter long. We will also see warmer weather all along the Gulf coast, which could help the beach resorts recover from the economic downturn associated with the oil spill.
Southern California May Suffer from Drought
Southern California and portions of the Southwest could be threatened by a severe drought and high danger for wildfires, as Bastardi predicts a much drier-than-normal winter season for the region.
According to AccuWeather.com Senior Meteorologist and West Coast Expert Ken Clark, strict water management for Southern California could result come next spring and summer.
However, Bastardi predicts that from San Francisco and areas to the north, there could be more precipitation.
"This may be a great winter for building the Pacific Northwest and Canada snowpack, which is opposite of last winter," said Bastardi.
Temperatures this Winter
Temperature-wise, Bastardi is forecasting slightly higher-than-normal temperatures (0.5 to 1 degree warmer) for Boston, Washington, D.C., and New York City.
Detroit, Chicago, Kansas City and Minneapolis will be a degree or so cooler than average, while much of the western part of the nation may see temperatures that dip a couple of degrees.
Bastardi said Salt Lake City could be as much as 1-3 degrees colder, while Denver will be about 2 degrees below normal and both San Francisco and Los Angeles will have temperatures about 1.5 degrees cooler.
Above-normal snowfall is predicted for the Great Basin region, the Northwest and northern Plains, while the South and Southwest will get less snow than average.
Story by Kirstie Hettinga, Carly Porter and Henry Margusity, AccuWeather.com Staff Writers.
See how AccuWeather.com Facebook Fans are reacting to the 2010-2011 Winter Forecast.

Related to the Story:
Early Southwest Winter Outlook
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forecasters say Winter could be a whopper,

Winter could be a whopper, forecasters say

The most intense La Niña conditions since 1955 are brewing near the equator, raising the odds of a wild winter in the Pacific Northwest. Meteorologists say more rain, colder temperatures and bigger snowstorms are likely.
Seattle Times science reporter
Are we in for this again?
The mere mention of snow will have many in Seattle remembering December 2008, when a series of storms over two weeks brought repeated snowfall, paralyzing the city during the holiday-shopping season. Metro Transit service was reduced by about half, and who can forget the famous scene in which two charter buses slid down a Capitol Hill street and dangled precariously over Interstate 5?
Snow this winter could bring the first significant test of Seattle's new snow- and ice-removal plan, including the use of salt, which previously was avoided because of environmental concerns.
The most intense La Niña conditions since 1955 are brewing near the equator, raising the odds of a wild winter in the Pacific Northwest.
Meteorologists say more rain, colder temperatures and bigger snowstorms are likely.
"There's the potential for whoppers — but no guarantees," Washington state Climatologist Nick Bond said Thursday at a National Weather Service briefing.
The snow that paralyzed much of the Puget Sound region during the winter of 2008-2009 is one example of what a La Niña pattern can produce.
"La Niña winters are snowy winters," said Brad Colman, National Weather Service meteorologist-in-charge for Seattle. "Skiers and departments of transportation should be paying attention."
The flip side of the more-famous El Niño pattern, La Niñas occur when the ocean near the equator becomes colder than usual. Current temperatures are the coldest for this time of year since the Eisenhower administration.
Computer models predict the pattern will continue, and possibly strengthen, throughout the season, Colman said.
Ocean temperatures affect air circulation. Those patterns in turn tweak the strength and location of the jet stream that brings the Northwest much of its weather.
Generally, La Niña winters start out wet, with fairly average temperatures, said University of Washington meteorologist Cliff Mass. By January, temperatures plunge and snowfall increases.
"We could end up with a snow-free Thanksgiving, but no one should think that means anything," Mass said. "We tend to have the big snow buildup after the new year, both in the mountains and the lowlands."
Floods are possible, particularly early in the season.
The La Niña year of 2007 brought drenching rains to southwest Washington, closing Interstate 5 for several days. But though wetter overall, the majority of La Niña years are not marked by major floods, said National Weather Service hydrologist Brent Bower. That's because the powerful storms that trigger most Northwest floods are more common during so-called neutral years — when there's neither a La Niña nor El Niño.
The risk of flooding in the Green River basin is much lower this year, thanks to improvements at Howard Hanson dam, said Larry Schick, meteorologist for the U.S. Army Corps of Engineers. Seepage from the dam raised fears last winter, but installation of a grout curtain within the weakened embankment has bolstered the structure. Improvements to a drainage tunnel that are expected to be finished by next fall should lower the risk even more, Schick said.
"We're not out of the woods completely ... , but the situation has improved."
Sandi Doughton: 206-464-2491 or sdoughton@seattletimes.com

Tuesday, August 3, 2010

Better Snowfall Forecasting

Better Snowfall Forecasting
Weather Service Adopts U of Utah Powder Prediction Method
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Feb. 22, 2010 - University of Utah scientists developed an easier way for meteorologists to predict snowfall amounts and density - fluffy powder or wet cement. The method has been adopted by the National Weather Service for use throughout Utah - and could be adjusted for use anywhere.
Based on a study of 457 winter storms during eight years at 9,644 feet in the Wasatch Range at Utah's Alta Ski Area, the researchers determined that forecasters could predict snowfall density - known as snow-to-liquid ratio (SLR) - most accurately using only two variables: temperatures and wind speeds at mountain crest level.
The American Meteorological Society is publishing the study in the February issue of its journal Weather and Forecasting.
"We've developed a formula that predicts the water content of snow as a function of temperature and wind speed," says the study's senior author, Jim Steenburgh, professor and chair of atmospheric sciences at the University of Utah.
"This is about improving snowfall amount forecasts - how much snow is going to fall," says Steenburgh. "As a nice side benefit for the ski community, this will tell you whether you're going to get powder or concrete when it snows. We are working on incorporating this into the UtahSkiWeather.com website" run by the university.
The new method "is also helpful to avalanche forecasters," says the study's first author, Trevor Alcott, a doctoral student in atmospheric sciences. "We're forecasting snow density, which is related to the stability of freshly fallen snow."

A Better Handle on Snowfall, Skiing and Avalanche Conditions
The National Weather Service (NWS) in Salt Lake City has used the method since November, says Randy Graham, the science operations officer.
"Forecasters really like it because it gives us a more realistic depiction of how snow density will vary across the Wasatch Range and with elevation," he says. "Instead of anticipating a singular density of snow or fluffiness of the snow over the Wasatch, Trevor's and Jim's tool has allowed us to have different snowfall densities in our forecasts for different areas based on forecasts of [crest-level] temperature and wind."
"We've always had some insight into the difference between a real powder day versus a really wet snowfall event," Graham adds. "What this tool has enabled us to do is to better differentiate how dense the snow is going to be over an area with really complex terrain - the state in general, but in particular the Wasatch Range."
Bruce Tremper, director of the Utah Avalanche Center, isn't familiar with the new method, but says predicting "new snow density is a very important factor in avalanche forecasting. If low-density snow falls first - light powdery snow - then heavy, wetter snow falls on top, it instantly creates a slab of 'upside-down snow' as we sometimes call it. These slabs can easily be triggered by people."
Resorts "really care about the water equivalent of the snow," Graham says. "It's really important to them. Powder is better. And it's important for them to know what kind of avalanche [prevention] work they're going to have to do."
Alcott, an NWS intern, extended the technique so it can be used throughout Utah, and says the agency's Elko, Nev., office may use the method to improve forecasts. It could be extended to other regions by making local snow measurements in different locations and using them to devise predictive formulas for snow density.
Graham says the method "is a really good example of taking a complex problem, boiling it down to the most important variables to describe the problem, and then coming up with a technique that can be applied in operational forecasting."
The study was funded by the National Weather Service, its parent agency, the National Oceanic and Atmospheric Administration, and the National Science Foundation.
Flakey Forecasting
Steenburgh says that to accurately predict snowfall amounts, "getting the snow density right is critical. To forecast snowfall amount, you need to know how much water is going to fall and how dense the snow is going to be."
Meteorologists predict how much water a storm will produce and translate that to snowfall based on predicted snowfall density, which is the snow-to-liquid ratio (SLR) - the ratio of the depth of new snowfall to the depth of water from melting that snow. SLR reflects how powdery or wet and heavy the snow will be.
"The best way to think of it is how much does an inch of water translate to in terms of inches of snowfall? So a snow-to-liquid ratio of 5-to-1 means 5 inches of snow for every inch of water, or a water content of 20 percent," says Steenburgh.
Higher SLRs mean the snow is more powdery. Typical Utah SLRs are:
  • Heavy, wet Utah snow has an SLR around 7 (an SLR such as 7-to-1 is commonly referred to only by the numerator), with a water content of 14 percent.
  • Average Utah snow has an SLR of 14, or 7 percent water content. Steenburgh says "that is still pretty dry, especially when you compare it with coastal ski areas" with SLRs around 9 or 10.
  • Very dry, light snow has an SLR of 25. That's the same as 4 percent water content. Anything above SLR 25 is extremely dry, fluffy snow known as "wild snow."
Steenburgh says the driest snows ever recorded had SLRs of 100 in Japan and Colorado. Alcott says the record high 24-hour SLR at Alta - known for its powder - is 50.

Learning to Predict Powder
To devise their method, Alcott and Steenburgh studied the relationship between measured snow density or SLR and various recorded atmospheric measurements at a single site at Alta, named the Collins Snow Study Plot.
Steenburgh says he and Alcott chose to study that site "because Alta gets a ton of snow [almost 43 feet annually]. You get as many samples in Alta in one year as you get in Salt Lake City in 10 years." In other words, Alta provided numerous snowstorms that could be analyzed and used to develop a formula for predicting snow density.
Alta snow safety crews measure snow depth at the Collins site twice daily. Precipitation measurements are made automatically each hour.
Alcott and Steenburgh analyzed temperatures, wind speeds and other factors such as relative humidity for 457 "snow events" or storms at Alta during November through April of 1999 through 2007.
The depth of new snow was divided by the depth of water measured by a rain gauge to determine actual snow density and see what variables best correlated with it.
The study showed that only two variables - crest-level wind speeds and temperatures - were most critical in predicting snow densities. In fact, for all the storms studied during 1999-2007, those two variables alone explained 57 percent of the variance in snow density. And for large, wet storms, crest-level wind speed and temperature explained 73 percent of the variance in the snow density or SLR.
That means that much of the storm-to-storm difference in whether new snow is powdery or wet can be predicted by the new technique.
"It's the KISS method - keep it simple, stupid," Steenburgh says. "How much can we strip down the number of variables analyzed and get a good result?"
He says the new technique "does a good job of predicting how the snow density changes from storm to storm, and it does especially well for the larger storms."
Alcott says the Weather Service's previous method was less accurate because it tried to predict snow density based on surface temperature at the forecast location - a method developed in the Great Plains - rather than what the study showed was more accurate: temperatures and wind speeds above mountaintops where snow is forming.

Secrets of the Snows
In analyzing Alta snow conditions as they developed their formula for predicting snow density, the researchers discovered some interesting aspects of Alta snow:
  • The fluffiest snow tends to occur when a storm contains less than 0.8 inches of water in 24 hours, when crest-level wind speeds are 18 to 26 mph and when temperatures are 0 to 10 degrees Fahrenheit, with snow heavier at either colder or warmer temperatures due to the type of ice crystal formed at different temperatures.
  • Snowfall density can vary radically from day to day. For example, during Jan. 3-12, 2005, it ranged from heavy, wet snow with a snow-to-liquid ratio of 5.2, to "wild" powder with and SLR of 35.1.
  • Snow densities at Alta have the widest range in February, from a wet SLR of 3.6 to fluffy powder at 35.1.
  • The most extreme powder - "wild snow" with snow-to-liquid ratios of 25 or more - peaks in mid-winter. Of 26 wild snow events during the eight-season study period, 24 occurred in December, January and February, with none in April.
  • Extremely wet snow, with SLRs less than 7, occurred in 28 of the 457 storms during the 1999-2007 study period, or 6.1 percent of the storms.
Jim Steenburgh
professor and chair of atmospheric sciences
Office phone: 801-581-8727
Email address: jim.steenburgh@utah.edu
Trevor Alcott
doctoral student in atmospheric sciences
Cell phone: (603) 986-2906
Email address: trevor.alcott@utah.edu
Randy Graham
science operations officer, National Weather Service, Salt Lake City
Office phone: (801) 524-514
Email address: randall.graham@noaa.gov
Lee J. Siegel
science news specialist, University of Utah Public Relations
Office phone: (801) 581-8993
Cell phone: (801) 244-5399
Email address: leesiegel@ucomm.utah.edu

Tuesday, April 20, 2010