Depsite High Winter Snowfall Mount Shasta 2024 Glacier Snowcover Extent Low

On October 20, 2024October 20, 2024 By mspeltoIn california glacier melt, Glacier Observations

**Snow cover extent on Mount Shasta glacier as the melt season ends in 2024. Oct. 15, 2024 Sentinel image, red dots indicate outline of snowcover areas ~25% of glacier area.**

In 2021 and 2022 winters of below average snowfall , 4.50 m and 3.61 m at Snow Bowl, were followed by summers of persistent heat and several notable heat waves that left the glaciers of Mount Shasta nearly bare of snowcover, the resulting rapid volume loss and fragmentation of the glaciers was noted in detailed reports (Patel, 2021; Pelto, 2022). In 2021 less than 5% of the glaciers retained snowcover, and in 2022 less than 10% was retained.

In 2023 and 2024 a pair of winters with much above normal snowfall, 8.51 m and 8.43 m inches at Snow Bowl blanketed the mountain. How much of this snow has been retained by the glaciers as the 2024 melt season concludes.

**Snow cover extent in September 2021 is less than 5% on Mount Shasta glaciers in this Sentinel image.**

The summer of 2023 featured persisten warmth that led to ….In 2024 the melt season was again warm with the mean departure being 1.5-2.0 C in the Mount Shasta area. Regional Climate Center ACIS maps of the temperature anomaly for June-August provide a comparison of summer temperature for 2021-2024. Examining the remaining snowcover extent on Oct. 15, 2024 illustrates that

**Summer temperature anomaly (in ^oF), for 2021-2024 for California. Each summer the departure has exceeded 1 C in the Mount Shasta region.** ACIS maps

For Cascade range glaciers to maintain equilibrium they need 60% snowcover at the end of the melt season. Examining the remaining snowcover extent on Oct. 15, 2024 illustrates that the three primary glaciers Bolam, Hotlum and Whitney have 25% snowcover remaining. This indicates signficant loss of volume in 2024, though less than 2021 or 2022. This will drive continued thinning, retreat and loss of glaciers.

**Snowcover extent on Aug. 30, 2022 on Munt Shasta Glaciers. Yellow arrows indicate that less than 10% of the glaciers are snowcovered.**

Whitney Glacier, Mount Shasta snow free again in 2022

On August 26, 2022April 20, 2024 By mspeltoIn glacier climate change4 Comments

Whitney Glacier on August 25, 2022 in Sentinel image. Green arrows separation points, yellow arrows remaining snowpack

The summer of 2021 proved to be catastrophic for Whitney Glacier on Mount Shasta, California in terms of volume loss, ~15% leading to long term impacts, such as the 50% area reduction and 1000 m retreat since 2005. The glacier lost 100% of its 2021 snowpack and was in the process of separating into three segments. In 2022 it was important for the glacier to offset some of this loss with a healthy retained snowpack through the sumer. Unfortunately by mid-August it is evident that the glacier will again be snow free by end of summer in 2022. This will continue the rapid area and volume loss and continue the separation process.

Here we examine local weather records and Sentinel imagery to illustrate the conditions in 2022. The winter of 2022 started off well with near record December snowfall, followed by limited snowfall and temperatures averaging +3 C in Shasta County, until another big month in April. The results was well below average snowpack in early spring. A cool wet April and May preserved the limited snowpack. July experienced average temperatures 2.2 C above normal in Shasta County (NCEI-NOAA County Mapping)

Whitney Glacier in Sentinel images from 8-30-2020, 8-31-2021 and 8-15-2022. Green arrows separation points, yellow arrows remaining snowpack and T=terminus location,.

Fragmentation of the glaciers is evident in the comparison from 9-4-2018 and 9-4-2022, there are seventeen fragments left, six fragments that have melted away also.

A comparison of August snowcover from 2020-2022 illustrates the small patch that remained in 2021, yellow arrow, and the small patches left in mid-August of 2022. The ongoing separation is evident at two locations sho.w with green arrows. From August 2020-August 2022 the glacier area has declined from 0.72 km ² to 0.57 km ² a ~20% loss. The width of the glacier at the two arrows has been reduced by ~50% to 50 m at the lower elevation of 3250 mand 100 m at the upper elevation of 3600 m. A key issue this summer again has been the high temperatures in July and August, in particular the high minimum temperatures, preventing the snow surface from freezing at night and shutting off the melt. At Gray Butte, 2450 m, the remote weather station indicates a period from July 9-August 7 where the temperature never dropped below 10 C (50 F).

Gray Butte summer temperatures at an hourly interval (Data from Mount Shasta Avalanche Center)

The velocity in two primary icefalls above each of the separation points is declining based on the NASA_IT’s LIVE application. The reduced flux combined with high summer melt in 2021 and 2022 will continue to accelerate the separation.

Velcoity data for two icefall locations on Whitney Glacier 2019-early 2022, from NASA_ITs-LIVE application

Whitney Glacier Icefall at the green arrow seen on 8-15-2022 ( Mount Shasta Avalanche Center). Note the thin upper arm of the glacier.

Whitney Glacier , Mount Shasta Losing all of its Snowcover and Separating in 2021

On August 29, 2021April 22, 2024 By mspeltoIn glacier climate change2 Comments

Sentinel 2 False and True Color images from 8-25-2021. Yellow arrows indicate where glacier is separating and purple arrows the small remanent of 2021 snowpack remaining. This remanent will not last to the end of the melt season.

The summer of 2021 is proving to be catastrophic for Whitney Glacier on Mount Shasta, California in terms of volume loss, ~15-20% this year leading to long term impacts, adding to the 50% area reduction and 1000 m retreat since 2005. The glacier will lose 100% of its 2021 snowpack and is in the process of separating into two glaciers. Here we review the glaciers behavior in recent decades and examine using Sentinel Imagery the impacts in summer of 2021.Mount Shasta is a stratovolcano home to the largest glaciers in California, Whitney Glacier on the north side is the longest. In 1981 USGS (Driedger and Kennard, 1986) mapped the area and volume of several of the glaciers, in a landmark study of glacier volume on Cascade volcanoes. Whitney Glacier had an area of 1.3 km², a maximum depth of 38 m, and a volume of 25 million m ³. The majority of the glacier was in the 20-35 m thick range. The glacier was noted as having a length of 3.0 km ending on the USGS map at 9900 feet.

Digital Globe image indicating a area of retreat from 2005-2012 and the limited crevassing near 2012 terminus.

Tulaczyk and Howat (2008) noted that Whitney Glacier did advance during the 2000-2005 period, following a retreat in the 1980’s and 1990’s. The most recent advance was limited to the 1999-2005 period due to heavy snowfall from 1998-2002, ended with the glacier 850 m in advance of its 1951 position. There was a period of advance for many Cascade volcanoes glaciers between 1950 and 1980, followed by retreat after. On Mount Baker, Washington all of the glaciers advanced during the 1944-1979 period by an average of 480 m (Pelto and Hedlund, 2001). By 2010 Pelto and Brown (2012) observed all were retreating with an average retreat of 370 m. In 2012 the glacier is thin in its lower reaches with no crevassing. By 2014 the terminus of the glacier had retreated 700 m from 2005 and was 2.6 km in length and terminated at 10200 feet, 300 feet higher than a decade before or in the 1981 map.

Sentinel 2 True Color images from 6-16-2021, 6-28-2021 and 7-18-2021 illustrating the progressive snowcover loss on the glacier. Point A and D are on the upper Glacier, Point B is where the upper and lower glacier have joined and Point C is near the top of the lower glacier.

The summer of 2021 followed a 15 year period of overall significant mass loss and retreat on Whitney Glacier that led to a thinner glacier with a reduced velocity and consequently fewer crevasses. The stage was set with 60-75% of normal snowpack in early April 2021 at the stations in the region in the 6000-7600′ range, dropping to 20-25% of normal by early May (CDEC, 2021). This was followed by an exceptionally warm early summer, that helped strip the snowpack away early. By June 16, the snowline on Whitney Glacier had risen to 10,800 feet, near Point C, while the upper glacier extending from Point A and D to Point C was nearly all snowcovered. By June 28 the snowline had risen to 11,200 feet on the lower glacier and the upper glacier snowline was near 12,500 feet, with the west facing upper section (Point A) above 13000 feet nearly all bare. By July 18 there is a small area of snowcover near Point C on the lower glacier and Point D on the upper glacier. Most of the glacier is bare of snowcover. This underscores the particularly detrimental impact of early season heat waves that strip away winter snowpack and exposes the dirtier glacier ice and firn. The ice and firn melt ~30% faster than the snowcover for the same weather conditions. Our measurements on Mount Baker during heat waves over the last three decades indicate typical ice melt of 7-9 cm of melt per day. The average temperature over the last 70 days since much of the glacier was bare ice has been 16.8 C at Snow Bowl station at 7617 feet. Given area summer lapse rates this equates to a temperatures of ~12-13 C at the mean glacier elevation. The temperature at this station reached 29 C on June 27, 28 C on June 28 and exceeded 25 C from June 25-June 30. The rapid melt rate led to a number of areas of slushy, swampy glacier surface conditions even high on the glacier (Mount Shasta Avalanche Center ). Using the degree day formula for melt derive on Mount Baker during warm summer conditions (Pelto, 2015 and 2018) of .0053m w.e.C^-1D^-1, yields a cumulative melt of 4.8 m w.e., equivalent to over 5 m of ice thickness.

This given mean ice thickness in the 25-30 m range indicates that this summer ~15-20% of the glacier ice volume will be lost on Whitney Glacier. The glacier is now 2300 m long and has an area of 0.6 km ², which is less than 50% of its area just 16 years ago. This is leading to separation of the lower and upper glacier at the yellow arrows. There is certainly still stagnant ice in this zone, but there is no longer a dynamic connection between the upper and lower Whitney Glacier.

Topographic map of Mt. Shasta.indicating the top of Whitney Glacier near the summit of Shasta and the ~1981 and 2005 terminus position.