TY - JOUR
T1 - Potential to recover a record of Holocene climate and sea ice from Müller Ice Cap, Canada
AU - Lilien, David Armond
AU - Nymand, Niels Fabrin
AU - Gerber, Tamara Annina
AU - Steinhage, Daniel
AU - Jansen, Daniela
AU - Thomson, Laura
AU - Myers, Madeline
AU - Franke, Steven
AU - Taylor, Drew
AU - Gogineni, Prasad
AU - Lemes, Marcos
AU - Vinther, Bo Møllesøe
AU - Dahl-Jensen, Dorthe
N1 - Publisher Copyright:
Copyright © The Author(s), 2024.
PY - 2024
Y1 - 2024
N2 - Müller Ice Cap sits on Umingmat Nunaat (Axel Heiberg Island), Nunavut, Canada, ∼ 80°N. Its high latitude and elevation suggest it experiences relatively little melt and preserves an undisturbed paleoclimate record. Here, we present a suite of field measurements, complemented by remote sensing, that constrain the ice thickness, accumulation rate, temperature, ice-flow velocity, and surface-elevation change of Müller Ice Cap. These measurements show that some areas near the top of the ice cap are more than 600 m thick, have nearly stable surface elevation, and flow slowly, making them good candidates for an ice core. The current mean annual surface temperature is -19.6 °C, which combined with modeling of the temperature profile indicates that the ice is frozen to the bed. Modeling of the depth-age scale indicates that Pleistocene ice is likely to exist with measurable resolution (300-1000 yr m-1) 20-90 m from the bed, assuming that Müller Ice Cap survived the Holocene Climatic Optimum with substantial ice thickness (∼400 m or more). These conditions suggest that an undisturbed Holocene climate record could likely be recovered from Müller Ice Cap. We suggest 91.795°W, 79.874°N as the most promising drill site.
AB - Müller Ice Cap sits on Umingmat Nunaat (Axel Heiberg Island), Nunavut, Canada, ∼ 80°N. Its high latitude and elevation suggest it experiences relatively little melt and preserves an undisturbed paleoclimate record. Here, we present a suite of field measurements, complemented by remote sensing, that constrain the ice thickness, accumulation rate, temperature, ice-flow velocity, and surface-elevation change of Müller Ice Cap. These measurements show that some areas near the top of the ice cap are more than 600 m thick, have nearly stable surface elevation, and flow slowly, making them good candidates for an ice core. The current mean annual surface temperature is -19.6 °C, which combined with modeling of the temperature profile indicates that the ice is frozen to the bed. Modeling of the depth-age scale indicates that Pleistocene ice is likely to exist with measurable resolution (300-1000 yr m-1) 20-90 m from the bed, assuming that Müller Ice Cap survived the Holocene Climatic Optimum with substantial ice thickness (∼400 m or more). These conditions suggest that an undisturbed Holocene climate record could likely be recovered from Müller Ice Cap. We suggest 91.795°W, 79.874°N as the most promising drill site.
KW - Ice cap
KW - ice core
KW - paleoclimate
U2 - 10.1017/jog.2024.75
DO - 10.1017/jog.2024.75
M3 - Journal article
AN - SCOPUS:85208242610
JO - Journal of Glaciology
JF - Journal of Glaciology
SN - 0022-1430
ER -