Litcius/Paper detail

Ground-penetrating radar imaging reveals glacier's drainage network in 3D

Gregory Church, Andreas Bauder, Melchior Grab, Hansruedi Maurer

2021˜The œcryosphere33 citationsDOIOpen Access PDF

Abstract

Abstract. Hydrological systems of glaciers have a direct impact on the glacier dynamics. Since the 1950s, geophysical studies have provided insights into these hydrological systems. Unfortunately, such studies were predominantly conducted using 2D acquisitions along a few profiles, thus failing to provide spatially unaliased 3D images of englacial and subglacial water pathways. The latter has likely resulted in flawed constraints for the hydrological modelling of glacier drainage networks. Here, we present 3D ground-penetrating radar (GPR) results that provide high-resolution 3D images of an alpine glacier's drainage network. Our results confirm a long-standing englacial hydrology theory stating that englacial conduits flow around glacial overdeepenings rather than directly over the overdeepening. Furthermore, these results also show exciting new opportunities for high-resolution 3D GPR studies of glaciers.

Topics & Concepts

Ground-penetrating radarGlacierGeologyDrainageGeomorphologyRadarDrainage networkGlacial periodRemote sensingHydrology (agriculture)Geotechnical engineeringEngineeringBiologyTelecommunicationsEcologyGeophysical Methods and ApplicationsCryospheric studies and observationsLandslides and related hazards
Ground-penetrating radar imaging reveals glacier's drainage network in 3D | Litcius