UNBC PhD candidate measures glacier mass change in Columbia River basin

UNBC PhD candidate Ben Pelto and his research team performed a multi-year evaluation of glaciers in the Columbia and Rocky Mountains. Their seasonal field measurement of winter snowfall and summer melt, complemented with aerial surveying, provide an accurate glimpse of glacier mass change. These estimates can be used to predict future glacier response to climate change.

July 5, 2019
Ben Pelto holding the snow corer, a device used to take snow or ice cores. All of snow and glacier science reports snow and ice in meters of water equivalent, as researchers need to know how much water the snow holds. Also pictured are Tom Hammond of the University of Washington and Micah May of UNBC. Kokanee Glacier, near Ainsworth in the Kootenays, BC. April 2016. Photo: Jill Pelto

For Ben Pelto, a study in glacier changes compares to a bank account. For example, a bank account that is losing money is like a retreating glacier. Snowfall during the winter months is like depositing money into the bank account, and snowmelt during warmer weather is like making a withdrawal. Pelto, a PhD candidate in the Geography Program at the University of Northern British Columbia, wanted to track just how much change was taking place in glacier mass in the Columbia River basin.

“Changes in glacier mass are the direct response to meteorological conditions during the accumulation and melt seasons,” Pelto explains. “We derived multi-year, seasonal mass balance from airborne laser scanning surveys and compared them to field measurements for six glaciers in the Columbia and Rocky Mountains.”

Pelto says more than 40 volunteers participated in the multi-year evaluation, which took place over 11 field seasons and totaled close to 250 days spent on glaciers. His team visited six glaciers twice per year to measure winter snowfall and summer snow and ice melt. They also used an airborne laser scanner to produce detailed maps, and captured 100 glaciers per season.

The Pelto team’s estimates of glacier mass change from both the aerial surveying and field measurements aligned with the results, revealing that this type of study can be scaled up to a larger glacier sample. “We are providing the first large dataset of seasonal glacier mass change for the Canadian Columbia River basin. These estimates are valuable as calibration and validation data for glacier models, better allowing us to predict future glacier response to climate change and runoff from these glaciers as they continue to shrink.”

“Knowing how much glaciers contribute to streamflow today is important for understanding how the ecosystems they support, and services they provide, will fare when the glaciers are gone or greatly reduced in size,” says Pelto.

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The results of the field study were recently published online in The Cryosphere, an interactive open-access journal of the European Geosciences Union. The study includes collaborators Brian Menounos and Shawn J. Marshall from the University of Calgary.

Contact Information

Mick Harper, Communications Officer
250-960-5420   |   mick.harper@unbc.ca

Matt Wood, Director, Communications and Marketing
250-960-5626   |   matt.wood@unbc.ca