Glacier mass balance of the Melville South Ice Cap

Régions: Inuvialuit Settlement Region

étiquettes: physical sciences, climate change, glaciology, water balance, snow water equivalence

chercheur principal: Burgess, David O (15)
Nᵒ de permis: 16947
Organisation: Geological Survey of Canada
Année(s) de permis: 2023 2022 2021 2019 2018 2017 2016 2015 2014 2013 2012 2011 2010 2009
Délivré: janv. 25, 2022

Objectif(s): To provide both a science based knowledge pertaining to the patterns and rates of climate change, and a quantitative basis for estimating Canada’s contributions to global sea-level rise.

Description du projet: This licence has been issued for the scientific research application No.5129. The objectives of this integrated monitoring and research project is to provide 1) science based knowledge pertaining to the patterns and rates of climate change, and 2) a quantitative basis for estimating Canada’s contributions to global sea-level rise. Glacier mass balance is defined as the difference between the amount of snow accumulated on a glacier (generally termed winter balance) and the amount lost due to melt (summer balance) over the course of a given year. Due to logistical constraints however, measurements of the high Arctic glaciers are limited to one spring visit per year. Hence winter balance is measured directly from mass balance poles drilled into the ice the previous spring, while summer balance is inferred from both pole measurements and meteorological data recorded at 11 automatic weather stations deployed across the high Arctic monitoring network. The mass balance pole arrays at each monitoring site span the full elevation range of the glacier basin or small ice caps being measured. In this project, mass balance is measured at each pole as function of snow depth and density (winter balance) and pole height difference over 2 successive visits, or 1 year (net balance). Observations at each pole are augmented with hourly temperature and snow pack/ ice height measurements collected from the automatic weather stations. Mass balance data is extrapolated across elevation bands in order to quantify the net annual mass balance at the basin- or ice-cap wide scale. The field crews communicate with Polar Continental Shelf Program (PCSP) via two-way radio or Iridium satellite phone two times daily (7.30 and 19.00) to inform of status. Field crews always carry Iridium satellite phones and will call PCSP at regular scheduled times, even if away from main camp. The fieldwork for this study will be conducted from April 14, 2022 to April 17, 2022