Welcome to the new version of CaltechAUTHORS. Login is currently restricted to library staff. If you notice any issues, please email coda@library.caltech.edu
Published July 2015 | Published
Journal Article Open

Time Scale for Rapid Draining of a Surficial Lake Into the Greenland Ice Sheet

Abstract

A 2008 report by Das et al. documented the rapid drainage during summer 2006 of a supraglacial lake, of approximately 44×10^6 m^3, into the Greenland ice sheet over a time scale moderately longer than 1 hr. The lake had been instrumented to record the time-dependent fall of water level and the uplift of the ice nearby. Liquid water, denser than ice, was presumed to have descended through the sheet along a crevasse system and spread along the bed as a hydraulic facture. The event led two of the present authors to initiate modeling studies on such natural hydraulic fractures. Building on results of those studies, we attempt to better explain the time evolution of such a drainage event. We find that the estimated time has a strong dependence on how much a pre-existing crack/crevasse system, acting as a feeder channel to the bed, has opened by slow creep prior to the time at which a basal hydraulic fracture nucleates. We quantify the process and identify appropriate parameter ranges, particularly of the average temperature of the ice beneath the lake (important for the slow creep opening of the crevasse). We show that average ice temperatures 5–7  °C below melting allow such rapid drainage on a time scale which agrees well with the 2006 observations.

Additional Information

© 2015 ASME. Contributed by the Applied Mechanics Division of ASME for publication in the Journal of Applied Mechanics. Manuscript received February 2, 2015; final manuscript received March 11, 2015; published online June 3, 2015. This research was supported by the Harvard University School of Engineering and Applied Sciences Blue Hills Hydrology Endowment (MCF), the National Science Foundation, Office of Polar Programs, Award Nos. ANT-0739444 (June 2008 to May 2012) and 13,41499 (March 2014 to February 2017) to Harvard University.

Attached Files

Published - jam_082_07_071001.pdf

Files

jam_082_07_071001.pdf
Files (1.2 MB)
Name Size Download all
md5:50ab20c69531823039ee130c1fed6678
1.2 MB Preview Download

Additional details

Created:
August 20, 2023
Modified:
October 23, 2023