From Mount Hood to Mount Robson Extremely Limited 2023 Snowcover Retained

Written by Ben Pelto, Jill Pelto and Mauri Pelto

Field Sketch of Ice Worm Glacier from Aug. 13, 2023 on photograph of glacier. (Jill Pelto)

It was July 5, 1981 and Juneau meteorologist Brad Coleman had just informed us that Juneau had experienced one of its warmest least snowy winter ever. I was with the Juneau Icefield Research Program and we were headed up to the icefield the next day, it would be my first visit to a glacier. I was looking forward to plentiful summer skiing and now was concerned there would be limited snow. This worry proved unfounded, as once on the icefield, we stayed above 1000 m, and it was all snow, allowing me to ski 500 km in the next several weeks. From that summer through 2000, I continued to spend the majority of my time working on glaciers every August skiing whether in Alaska or in the North Cascade Range, Washington. Alpine glaciers need to maintain at 55%+ snowcover right to the end of the summer to maintain equilibrium. Hence, skiing should be plentiful. However, in 2003 I gave up skiing on glaciers during our August North Cascade field seasons, the snow had become too limited and patchy. During the last decade the percentage of snowcover has been consistently low, with the 2021-2023 period setting the record for persistent snowcover deficits in the North Cascacdes, but also throughout the Pacific Northwest from Mount Robson, BC to Mount Shasta CA. This sequence of difficult years for glaciers had led to the end for quite a few. -Mauri Pelto

I have spent 15 years with the NCGCP most years snow remains only at higher elevations or in large avalanche fans, with a couple of years having deep snowpack and lack of heat waves has led to a good year for the glaciers. And now years like 2015, 2021 and 2023 where there is so little snow that walking on the glaciers is almost a different landscape. Every feature is exposed, debris cover is piled up, and new or changed water features like melt channels or ponds emerge. In August 2023 it was most starkly seen on Mt. Daniel, on the eastern, drier side of the North Cascades. It was my first year seeing the loss of a glacier: the Iceworm Glacier. A remnant ice patch remains, but there are no longer any active features such as crevasses. It was also my first time seeing the very steep Daniel Glacier with essentially no snow. Navigating across bare ice on a 35+ degree slope for very few measurements had our whole team questioning how long it would be worth our effort. Some of my favorite moments of my 14 other seasons are glissading (or skiing with your hiking boots) down the steep slopes of Daniels. You can carve turns and do quick stops, and you can get down the glacier in about a quarter of the time you climb up. It’s always an exhilarating and rewarding way to end the season. This year the descent was difficult one firm crampon step at a time. I clung onto one fun glissade on the adjacent Lynch Glacier. In that moment I needed to enjoy what I could, and after the season I needed to feel the loss of a place that has defined a piece of my life.

Here we focus on this lack of snowcover we observed in the field and in satellite images from Mount Hood, OR to Mount Robson BC in August and Septemeber 2023. This combined with 2021-2023 has redefined many glaciers, making it clear how many cannot survive even current climate. We developed a forecast model of alpine glacier survival, published in 2010 that indicated significant accumulation zone thinning and/or lack of consistent accumulation zone are indicators of a glacier that cannot survive. The glaciers below on some of the highest peaks in OR, WA and BC are failing this metric in 2023.

At the end of August 2023 on the north side of Mount Hood, OR; Sandy Glacier and Ladd Glacier are so dirty looking in this Sentinel image that it is hard to discern that they are glaciers, both have limited patches of retained snow from the winter of 2023. Coe Glacier has three pockets of snow remaining from last winter covering close to 30% of the glacier.

Across the Columbia River on Mount Adams, WA Wilson and Rusk Glacier are both over 90% bare firn and ice, with some snow on the upper margin above 2800 m where avalanche deposits endured.

On the south slope of Mount Rainier, WA South Tahoma Glacier and Success Glacier lost all of their snowcover. There are a few patches of snow left on Kautz Glacier. The snowcover becomes more consistent at 3500 m, higher than can sustain most of the glaciers.

Halfway between Mount Rainier and Glacier Peak is the Mount Daniel/Hinman area where glaciers are in rapid collapse. This includes Ice Worm Glacier on the east slope of Mount Daniel, which lost all of its snowcover in 203 (above) and Daniels Glacier that only has 5% snowcover in mid-August 2023 (below)

Foss Glacier on the northeast slope of Mount Hinman looks like a bug that splats on your windishield with wings/limbs in all directions, this will lead to rapid fragmentation.

Closer to Glacier Peak is Columbia Glacier, below Kyes, Monte Cristo and Columbia Peak. The view down the accumulation zone indicates a lack of snow or firn where there should be 2+ m of snowpack in early August.

On Glacier Peak Ptarmigan Glacier has separated into and east and west part and had no retained snow. Kennedy, Vista and Ermine Glacier had 10-20% retained snowcover on 9-15-2023 mostly in a band at 2500 m. Yellow arrows indicate terminus locations when I first visited these glaciers 40 years ago.

Easton Glacier is on the south/southwest side of Mt. Baker. The upper part of the glacier is a patchwork of ice, firn and snow, with new rock areas emerging even high on the glacier in August 2023. The difference with 2022 is evident. Two new waterfalls appeared in 2023 due to the extensive thinning and retreat at the terminus., yellow arrows. These are also depicted in the field sketch by Jill Pelto below.

Near Whistler, BC, the Garibaldi Neve (Icefield) showed little remaining snow in mid-September. Snow only clings high on Mount Garibaldi above 2200 m or 7200 ft.

Small glaciers across the region are losing all traces of seasonal and multi-year snow and are transitioning from active glaciers to remnant ice patches. The Stadium Glacier near Squamish British Columbia is one example of this. Photo by Ben Pelto.

The Conrad Glacier on the boundary of Bugaboo Provincial Park in British Columbia showing extensive bare ice and limited snow cover. The dark grey areas surrounding the white snow is firn, or multi-year snow, now exposed. The area covered by firn is important to glacier health. Firn that remains on a glacier becomes glacier ice and can retain meltwater. Areas of bare ice behave like a parking lot, nearly all water that reaches glacier ice leaves the glacier as runoff. The area of glaciers covered by firn is dramatically decreasing in the region. Pelto et al. (2019) found that 58% of the Conrad Glacier was covered by multi-year firn, a quick visual scan here shows that that number has declined to roughly 30-40%.

Wildfire smoke darkens the sky and ice as Alexandre Bevington, Jacob Bailey and Margot Pelto stand on the Conrad Glacier in August 2018. Photo by Ben Pelto.

Coleman Glacier is on the east flank of Mount Robson. In 2018 the terminus is in a small lake with the snow covering 25% of the glacier. By 2023 the glacier has retreated 400 increasing the lake size. The snowcovered area is less than 10% of the entire glacier and is restricted to regions above 2500 m.

The above images of snow free and nearly snow free glaciers is a sight that has until the last decade been very rare. It is now becoming a typical event. The glacier response has been rapid, profoundly changing most and leading to the end of some.

40th Field Season of North Cascade Glacier Climate Project Underway

On July 29, 2023April 19, 2024 By mspeltoIn North Cascade Glaciers

Illustration by Megan Pelto of key numbers behind what it takes to undertake a 40 year field study on glaciers.

For the 40^th consecutive summer the North Cascade Glacier Climate Project is heading into the field to measure and communicate the impact of climate change on North Cascade glaciers. This field season follows the 2021 and 2022 seasons that featured a historic heat wave and periods of extended warm weather. The heat led to a greater exposure of bare ice on glaciers, particularly at higher elevations. For ice surfaces with a higher albedo and greater density the observed melt rates are 7-9 cm per day water equivalent during warm weather events vs 4-6 for snow surfaces. This led to substantial mass losses on North Cascade glacier for the two years of -2.5 m. Winter snowpack in the North Cascades in 2023 was 80-90% of normal on April 1 and May 1.

Science objectives: We will complete detailed measurements on 10 glaciers, three of which are part of the World Glacier Monitoring Service reference glacier network (42 glaciers globally), which have 30+ consecutive years of mass balance observations. This summer we will have an opportunity to assess the long-term ramifications of the 2021 and 2022 summers and measure the response of glaciers to the weather of 2023 with detailed mass balance, crevasse depths and glacier surface elevation profiling.

Art Objectives: We will collaborate with several artists who will join us for a portion of the field season. They will be able to create their own work about the landscape and the science or may join us for fieldwork and make plans for future artwork. Potential artists include painters, a podcast creator, a photographer, and a printmaker. We hope to use this art to share our research with a broader audience and highlight the beauty and importance of these places.

Communication Objectives: We are seeking expedition sponsors this year with brands who have a climate change focus. These organizations can help spread our message; we have two so far. We are looking to support the production of podcasts as well.

Terminus change at two World Glacier Monitoring Service reference glaciers. Columbia and Eastson Glacier.

Field Team 2023:

Jill Pelto (she/her)is an artist and scientist from New England who grew up loving winter sports and trips to the mountains. She incorporates scientific research and data into paintings and prints to communicate environmental changes. Her multi-disciplinary work weaves visual narratives that reveal the reality of human impacts on this planet. She completed both her B.A. degrees in Studio Art and Earth and Climate Science, and her M.S. focused on studying the stability of the Antarctic Ice Sheet at the University of Maine, spending two field seasons at a remote camp in the southern Transantarctic Mountains. Jill will be joining the project for her 15th field season. She is excited about continuing to document the change in North Cascade glaciers that she has witnessed each of the last ten years — through science and art.

Painting by Jill Pelto that incorporates mass balance data from NCGCP from 1983-2022 along the top of the glacier.

Mauri Pelto (he/him) has directed the project since its founding in 1984, spending more than 800 nights camped out adjacent to these glaciers. He is the United States representative to the World Glacier Monitoring Service. For a decade he has been author of the AGU blog “From a Glacier’s Perspective,” and associate editor for three science journals. He is on the Science Advisory Board for NASA’s Earth Observatory. His primary position is Associate Provost at Nichols College, where he has been a professor since 1989. He either runs on trails or ski’s on trails alpine and cross country everyday.

Mauri Pelto looking at deglaciated envioronment below Easton Glacier

Mariama Dryak-Vallies (she/her) is the Director for the Polar Science Early Career Community Office (PSECCO) hosted by CIRES at University of Colorado Boulder. Mariama grew up on a farm in west-central Wisconsin before earning her B.A. in physical geography and archaeology at Durham University (UK)—where her passion for studying, researching, and teaching about glaciers, climate change, and the natural environment was born. She completed her M.S. in Earth and Climate Sciences at the University of Maine, studying Antarctic glaciology and ice-ocean interactions. During graduate school she was actively involved advocating for polar early career scientists as board member and co-chair of the US Association of Polar Early Career Scientists (USAPECS). Mariama is passionate about working towards building accessible Earth and polar sciences spaces for all.

2018 field team including Jill, Mauri, Mariama and Erin

Kaiyuan Wang (he/him) is a recent graduate from McGill University with a B.Sc in Honours Physical Geography, a minor in Geology. Originally from China, he developed an aspiration for Geoscience in the Great White North while living on the former bed of the Laurentide Ice Sheet. His passion for the cryosphere has led him to fieldwork on glaciers in the Kluane National Park in Yukon, Jasper National Park in Alberta, and a glaciological conference in Iceland. He will be doing his Ph.D. in Arctic Hydrology at the Northern Change Research Laboratory at Brown University. Kai is thrilled to be part of the 40-year-long effort of documenting glaciers as a living testimony to a warming world.

Shivaprakash Muruganandham (he/him) is currently a PhD candidate in Ocean Science and Engineering at the Georgia Institute of Technology, Atlanta, USA. He is back in school after a few years as a strategy consultant, during which time he specialized in satellites and space applications: earth observation and satellite communications in particular. Prior to this, he graduated with Master’s degrees in Space Technology and Cybernetic Systems/Control. Shiva is fascinated by ice, and his research focus on ice sheet/glacier modeling is motivated by his interests in the downstream impacts of cryosphere-climate interactions on coastal and mountain communities..

Field Partners 2023

Lizz Ultee (she/they) is an Assistant Professor of Earth & Climate Science at Middlebury College, Vermont. They earned a B.Sc. in mathematical physics at Queen’s University (Canada) and a Ph.D. in climate science at the University of Michigan, specializing in mathematical methods to understand and predict glacier change. Lizz finds ice endlessly inspiring. Beyond inspiring, though, glaciers are important for downstream communities — motivating Lizz’s present research focus on glacier contributions to sea-level rise and water resource availability.

Alia Khan’s research team including grad students Sally Vaux, Colby Rand, and Anne Wilce focus on environmental chemistry in the cryosphere, including black carbon and snow algae to document global change of glacier and snow melt in mountainous and polar regions.Western Washington University Cryosphere Studies and Aquatic Biochemistry Lab.

Claire Giordano is an environmental artist, writer, and educator creatively telling the stories of science, climate change, and the modern experience of nature. From creating rain-dappled sketches in an old growth forest to filming a watercolor class beside a glacier, careful observation of nature inspires her goal is to connect people and place through art. In 2021 she founded the Adventure Art Academy – a series of virtual watercolor classes filmed outside – to invite others into the joy of painting outside.

Field study by Claire Giordano, artist in residence with the NCGCP for her 4th year. She creates these incredible pages with notes, paintings, and sketches from her days out exploring the landscape.

Kathleen Shannon is a freelance journalist & radio producer telling science and environmental justice stories across the West. She is based in Missoula and earned a master’s degree in Environmental Science and Natural Resource Journalism from the University of Montana in 2023. Her work has appeared on NPR, in High Country News and elsewhere.

Julia Ditto is a science illustrator from Anchorage, Alaska who specializes in environmental and ecological graphics. Julia spends much of her time recreating in the backcountry, which inspires much of her work. She has always used art as a tool for observing and communicating her experiences, both inand out of the field. She is currently attending CSU Monterey Bay’s Graduate Science Illustration Program.

Who are we? NCGCP was founded in 1983 to identify and communicate the response of North Cascade glaciers to regional climate change. NCGCP is a field project including scientists and artists that has a broad interdisciplinary scope and examines more glaciers than any other program in North America. We do so cost effectively relying on no permanent camps or helicopter support. The field season includes no days off and each day is spent completing measurements on glaciers. The focus is on glacier mapping, mass balance measurement, terminus observations, glacier runoff monitoring and capturing the environment with art.

Why study glaciers in the North Cascades? Glaciers are one of the world’s best climate monitors and are a critical water resource to many populated glaciated regions. This is particularly true in the North Cascades where 700 glaciers yield 200 billion gallons of summer runoff and glaciers have lost 30 % of their area in the last century. This has reduced glacier runoff in late summer in the region as the reduction in glacier area has exceeded the increase in melt rate. During heat waves this role is even more profound with the glacier fed North Fork Nooksack River discharge rising ~24% due to greater melt, while unglaciated South Fork Nooksack River discharge declines by ~20%. The increased discharge limits the rise in river temperature during heat waves to 0.7 C in the North Fork, with the South Fork increasing by 2 C, increasing stress on the salmon in the South Fork (Pelto et al., 2022).

Retreat of Mount Baker glaciers documented by our program

The mass balance record we have compiled since 1984

Summer temperature records from NOAA WA Division 5

Winter Snowpack from North Cascade long term Snotel stations on April 1

35th Annual Field Season Monitoring North Cascade Glaciers Preliminary Assessment

On August 20, 2018April 27, 2024 By mspeltoIn North Cascade Glaciers

We monitor the response of North Cascade glacier to climate change and the consequent impacts for water resources and the ecosystem, as illustrated here by Megan Pelto and Jill Pelto.

For the 35th consecutive year I headed to the North Cascade Range, Washington to monitor the response of glaciers to climate change. During the course of this study we observed several of the glaciers we monitor disappear. Two of the glaciers we monitor are now part of the 42 glaciers comprising the World Glacier Monitoring Service reference glacier network, where annual mass balance has been assessed for more than 30 years consecutively.

The 2018 winter season featured relatively normal snowpack despite a winter of wide temperature fluctuations, Feb freezing levels 400 m below the mean and December 500 m above the mean. Summer melt conditions featured a high freezing levels in May, normal freezing levels in June and high levels in July (NA Freezing Level tracker). The summer melt season through Aug. 20th has been exceptionally warm and dry, which has also helped foster forest fires. The melt rate during the August field season was 35% above normal.

We assessed the mass balance of eight glaciers. All eight will have significant negative mass balances in 2018. Retreat was measured on six of the glaciers where the terminus was exposed, all had retreated since 2017.

Sholes Glacier Runoff Monitoring Location in early August 2018

This year the field team consisted of:

Mariama Dryak, UMaine graduate student quantifying iceberg melt rates and meltwater fluxes around the Antarctic Peninsula using satellite imagery. She is the US national committee representative for the Association of Polar Early Career Scientists, co-chair of USAPECS and helps coordinate the USAPECS blog. Mariama is also the creator and editor of an environmental advocacy blog Let’s Do Something BIG., which highlights the need for effective science communication and the need for greater diversity in the earth sciences.

Erin McConnell, UMaine graduate student, who is studying ice core stable isotope records from the Eclipse Icefield, St. Elias Range, Yukon.She has written about the equal importance of communicating science and the science itself..

Jill Pelto, UMaine graduate student studying paleoclimate records recording past ice sheet changes in the Transantarctic Mountains and an artist, joining the field team for the 10th year. Her work has taken her to Antarctica, New Zealand and Falkland Islands and has been widely featured by Earth Issue, The Smithsonian, and Edge Effects.

Mauri Pelto, Nichols College academic dean, World Glacier Monitoring Service Representative and director of the North Cascade Glacier Climate Project . I am heading into the North Cascades for the 35th year. The results will from this year will be promptly published with the AGU From a Glaciers Perspective Blog and the North Cascade web site. A video encapsulation of the field year will also be developed as in past years. Putting the long term record in perspective was the 2018 Water publication on the long term mass balance record.