Researchers from Marshall’s CryoGARS lab snow trenches in the Idaho mountains.
Every winter, thousands of Idahoans wake up and check the snow levels at Bogus Basin. The ski resort, located 20 miles from downtown Boise, regularly posts photos of its snow marker, an upright measuring stick on top of a small platform. Every evening, staff come out and brush the platform clean so the tally can begin anew.
This rough measurement might be good enough for weekend warriors, but there’s more to snow levels than getting excited for the next powder day. Knowing how much snow and ice exists in Idaho’s mountains at a given moment is critical for farmers, rangeland administrators, water managers, flood and hydropower forecasters, anyone who lives along a river bank, and even the Department of Defense. These snow and ice measurements help anticipate growing seasons, make hydroelectric power forecasts and plan for deadly flooding.
But getting accurate snow measurements is difficult. Measuring sticks like the snow marker at Bogus Basin don’t account for snowpack density and seasonal changes thanks to melting and sublimation—the process of solid snow turning directly to vapor, which can happen below freezing.
What little information they do provide is limited to the immediate area around their platform, and snow levels can vary dramatically over the landscape. If a measurement is taken at one place in the Idaho wilderness, the snow levels could be very different just one football field’s length away.
Advertisement
Researchers measuring snow properties in Idaho, like Boise State’s HP Marshall and his Cryosphere Geophysics and Remote Sensing (CryoGARS) group, have to rely on more involved methods. During the winter, the team spends many days every week out in the Idaho mountains, digging blocks out of the snow and taking detailed measurements of depth and density to estimate overall water content.
But Idaho’s mountain ranges are vast, and the team has to cover a lot of ground to get a good idea of how much snow they contain.
“It’s a total workout!” said Lindsay Stark, a geophysics Ph.D. student who Marshall supervises. “It’s fun though. You definitely feel good at the end of the day. When you open up a snow pit, you basically dig a three to six foot deep hole and then try and make it big enough for two people to comfortably work inside. So it’s a pretty big hole.”
Even with all their hard work, there are limits to how much field researchers can learn with traditional snow measuring techniques.
“In general we’re always undersampling the snow,” Marshall said. “We don’t know exactly how much there is in the mountains, since snow is only measured at relatively few locations, given the variability that exists.”
Advertisement
Fortunately, Marshall is developing new methods to enhance and expand field researchers’ capabilities and improve accuracy. This year, his team is deploying radar and lidar sensors in the Idaho mountains. The radar beam travels differently through snow than air. It also travels faster or slower depending on snow density. Marshall’s team can use the radar beam’s behavior to estimate snow depth and density, in combination with measurements on the ground.
Field researchers can deploy radar sensors on towers to measure continuously, or carry it while traveling on skis or a snowmobile, or with drones when they go out to dig in the snowpack. The drone can travel anywhere within the pilot’s line of sight, taking measurements the whole way. This lets the team multiply their effectiveness, as they compare information from the drone with the snow samples they’re digging up.
Marshall and collaborators from the U.S. Army Cold Regions Research and Engineering Lab and University of Massachusetts Amherst are deploying radar and lidar sensors on planes that will make regular flights over the Idaho mountains this winter. Chartering a plane is more expensive than drones, but it offers much more spatial coverage in much less time.
These new tools are a huge step up from traditional snow measurement techniques, but Marshall has his eyes set on even higher goals. He is currently working on proposals for a satellite-based sensor.
“Right now, we don’t have the ideal sensor in space,” he said. Today, satellite-based imaging can only answer one question: is there snow or not? But if Marshall and the snow community’s work pans out, we could have satellite-deployed sensors that produce snow water resource measurements for entire regions in a fraction of the time it takes a drone or plane.
Advertisement
Marshall thinks that the efforts of on-the-ground researchers will always be meaningful. But each new innovation—be it drone, plane or satellite sensors—makes those efforts more effective, and delivers dividends each spring when the snow begins to melt.
Lotto America: 9 p.m. MT on Monday, Wednesday and Saturday.
5 Star Draw: 8 p.m. MT on Tuesday and Friday.
Idaho Cash: 8 p.m. MT daily.
Millionaire for Life: 9:15 p.m. MT daily.
This results page was generated automatically using information from TinBu and a template written and reviewed by a USA Today editor. You can send feedback using this form.
GENESSE – The Avista planned power outage for Friday, April 24 in Genesee has been cancelled and rescheduled due to weather. Approximately 337 Avista electric customers in Genesee will experience a planned power outage on Tuesday, April 28. The planned outage will start at 8:00 a.m. and end at 4:00 p.m.
All affected customers will be notified in advance. Traffic control will be in place from Laurel Street north of Chestnut Street.
During this time, Avista crews will be replacing aging infrastructure, including power poles and equipment, in the area. These updates are part of Avista’s ongoing efforts to enhance the safety and reliability of its infrastructure.
GARDEN CITY – A Boise-area girl is competing in the 2026 Junior Ranger Competition, and she needs your vote to advance.
Eleven-year-old Cali Lindsay of Garden City is currently in the top 10 in her age group. The first place contestant in each group will advance to the semi-finals, which will wrap on July 17.
The final round concludes on July 24. The winner will be awarded $20,000 and be featured on the cover of Ranger Rick Magazine. They’ll also win a trip with Jeff Corwin.
Cali’s mom, Emily Edginton, tells EastIdahoNews.com how the competition works.
Advertisement
“You’re allowed one free vote every 24 hours. People can also pay (to vote),” Edginton says. “The contestants have challenges every week to learn about animals and share what they’ve learned. People vote for the answer they like best. If you have enough votes, you move to the next round.”
Cali needs to secure enough votes by Thursday in order to advance to the next round.
The competition is a fundraiser for the National Wildlife Federation, the largest private, nonprofit conservation education and advocacy organization in the United States.
Edginton says they recently moved to Idaho from San Bernardino, California. Her daughter acquired a love of wildlife living in Lytle Creek, a community near the San Gabriel Mountains and San Bernardino National Forest.
“She’s already like a junior ranger. We picked up trash (in the forest) for fun,” Edginton says. “We try to keep it clean because we get a lot of visitors up there in the summertime and they trash the place. It affects the animals.”
Advertisement
Edginton says they moved to Idaho in February to be closer to family.
She’s grateful her daughter can be part of what she feels is a great cause, and hopes to see her advance, and even win the tournament.
“It’s a good cause, plus it’s a learning experience,” says Edginton.
To vote for Cali or learn more, click here.
=htmlentities(get_the_title())?>%0D%0A%0D%0A=get_permalink()?>%0D%0A%0D%0A=htmlentities(‘For more stories like this one, be sure to visit https://www.eastidahonews.com/ for all of the latest news, community events and more.’)?>&subject=Check%20out%20this%20story%20from%20EastIdahoNews” class=”fa-stack jDialog”>
