Brief communication: An empirical relation between center frequency and measured thickness for radar sounding  of temperate glaciers

J. A. MacGregor; M. Studinger; E. Arnold; E. Arnold; C. J. Leuschen; F. Rodríguez-Morales; J. D. Paden

doi:10.5194/tc-15-2569-2021

The Cryosphere (Jun 2021)

Brief communication: An empirical relation between center frequency and measured thickness for radar sounding of temperate glaciers

J. A. MacGregor,
M. Studinger,
E. Arnold,
E. Arnold,
C. J. Leuschen,
F. Rodríguez-Morales,
J. D. Paden

Affiliations

J. A. MacGregor: Cryospheric Sciences Laboratory (Code 615), NASA Goddard Space Flight Center, Greenbelt, Maryland, 20771, United States of America
M. Studinger: Cryospheric Sciences Laboratory (Code 615), NASA Goddard Space Flight Center, Greenbelt, Maryland, 20771, United States of America
E. Arnold: Aerospace Engineering Dept., The University of Kansas, Lawrence, Kansas, 66045, United States of America
E. Arnold: Center for Remote Sensing of Ice Sheets, The University of Kansas, Lawrence, Kansas, 66045, United States of America
C. J. Leuschen: Center for Remote Sensing of Ice Sheets, The University of Kansas, Lawrence, Kansas, 66045, United States of America
F. Rodríguez-Morales: Center for Remote Sensing of Ice Sheets, The University of Kansas, Lawrence, Kansas, 66045, United States of America
J. D. Paden: Center for Remote Sensing of Ice Sheets, The University of Kansas, Lawrence, Kansas, 66045, United States of America

DOI: https://doi.org/10.5194/tc-15-2569-2021
Journal volume & issue: Vol. 15
pp. 2569 – 2574

Abstract

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Radar sounding of the thickness of temperate glaciers is challenged by substantial volume scattering, surface scattering and high attenuation rates. Lower-frequency radar sounders are often deployed to mitigate these effects, but the lack of a global synthesis of their success limits progress in system and survey design. Here we extend a recent global compilation of glacier thickness measurements (GlaThiDa) with the center frequency for radar-sounding surveys. From a maximum reported thickness of ∼ 1500 m near 1 MHz, the maximum thickness sounded decreases by ∼ 500 m per frequency decade. Between 25–100 MHz, newer airborne radar sounders generally outperform older, ground-based ones. Based on globally modeled glacier thicknesses, we conclude that a multi-element, ≤30 MHz airborne radar sounder could survey most temperate glaciers more efficiently.

Published in The Cryosphere

ISSN: 1994-0416 (Print); 1994-0424 (Online)
Publisher: Copernicus Publications
Country of publisher: Germany
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences; Science: Geology
Website: http://www.the-cryosphere.net/

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