Application of ground‐penetrating radar imagery for three‐dimensional visualisation of near‐surface structures in ice‐rich permafrost, Barrow, Alaska

Three‐dimensional ground‐penetrating radar (3D GPR) was used to investigate the subsurface structure of ice‐wedge polygons and other features of the frozen active layer and near‐surface permafrost near Barrow, Alaska. Surveys were conducted at three sites located on landscapes of different geomorphi...

Full description

Bibliographic Details
Published in:Permafrost and Periglacial Processes
Main Authors: Jeffrey S. Munroe, Jim A. Doolittle, Mikhail Z. Kanevskiy, Kenneth M. Hinkel, Frederick E. Nelson, Benjamin M. Jones, Yuri Shur, John M. Kimble
Format: Article in Journal/Newspaper
Language:unknown
Subjects:
Barrow
Ice
permafrost
wedge*
Alaska
Online Access:https://doi.org/10.1002/ppp.594
Description
Summary:Three‐dimensional ground‐penetrating radar (3D GPR) was used to investigate the subsurface structure of ice‐wedge polygons and other features of the frozen active layer and near‐surface permafrost near Barrow, Alaska. Surveys were conducted at three sites located on landscapes of different geomorphic age. At each site, sediment cores were collected and characterised to aid interpretation of GPR data. At two sites, 3D GPR was able to delineate subsurface ice‐wedge networks with high fidelity. Three‐dimensional GPR data also revealed a fundamental difference in ice‐wedge morphology between these two sites that is consistent with differences in landscape age. At a third site, the combination of two‐dimensional and 3D GPR revealed the location of an active frost boil with ataxitic cryostructure. When supplemented by analysis of soil cores, 3D GPR offers considerable potential for imaging, interpreting and 3D mapping of near‐surface soil and ice structures in permafrost environments. Copyright © 2007 John Wiley & Sons, Ltd.

Similar Items