Geophysical Survey of McMurdo Ice Shelf to Determine Infrastructure Stability and for Future Planning

Recent surface melting and Antarctic ice-shelf retreat have led to concerns about McMurdo Ice Shelf (MIS) instability, which could threaten research in Antarctica. Researchers at the U.S. Army Cold Regions Research and Engineering Laboratory collected approximately 1300 km of ground-penetrating rada...

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Bibliographic Details
Main Authors: Campbell,Seth, Courville,Zoe, Sinclair,Samantha, Wilner,Joel
Other Authors: ENGINEER RESEARCH AND DEVELOPMENT CENTER HANOVER NH HANOVER United States
Format: Text
Language:English
Published: 2017
Subjects:
Geology
Geochemistry and Mineralogy
Snow
Ice and Permafrost
Active & Passive Radar Detection & Equipment
Brines
Ground penetrating radar
Antarctica
ice
stratigraphy
geophysics
GLACIERS
infrastructure
planning
depth
thickness
dynamics
density
CORE SAMPLING
PERMEABILITY
viscosity
EPOLAR (Engineering for Polar Operations Logistics and Research)
Geophysical surveys
Glacial stratigraphy
Glacier ocean interaction
Glaciology
GPR (Ground penetrating radar)
mis (McMurdo Ice Shelf)
NSF (national science foundation)
Snow accumulation
Infrastructure Stability
andrill (Antarctic Geological Drilling)
andrill site
ice cores
ice-shelf brine
Englacial structures
fracturing
Antarctic
McMurdo Ice Shelf
Antarc*
Cold Regions Research and Engineering Laboratory
Ice
Ice Shelf
permafrost
Sea ice
Online Access:http://www.dtic.mil/docs/citations/AD1036407
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=AD1036407
Description
Summary:Recent surface melting and Antarctic ice-shelf retreat have led to concerns about McMurdo Ice Shelf (MIS) instability, which could threaten research in Antarctica. Researchers at the U.S. Army Cold Regions Research and Engineering Laboratory collected approximately 1300 km of ground-penetrating radar (GPR) profiles over MIS, using frequencies between 40 and 400 MHz, to determine extent, continuity, and depth of the brine and ice-shelf thickness; to map englacial horizons; and to locate any structural features that may suggest shelf instability. We suggest that brine, sediment-rich ice, and a rough direct coupling attenuates the signal in this region of MIS. Results show no major englacial features that raise concerns for shelf stability; however, two locations are worthy of continued monitoring from an operational and safety perspective. The first location is a prior Antarctic Geological Drilling (ANDRILL) site from 2006; the infrastructure established during ANDRILL operations appears to have actually influenced ice dynamics in the region. The second location is a long-term rift located near the ice shelf-sea ice edge. This study supports prior results that suggest that repeat high-resolution, ground-based GPR is useful for reconstructing ice-shelf history through analysis of imaged englacial and basal structures.

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