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Velocity Anomaly of Campbell Glacier, East Antarctica, Observed by Double-Differential Interferometric SAR and Ice Penetrating Radar

Cited 3 time in wos
Cited 3 time in scopus
Title
Velocity Anomaly of Campbell Glacier, East Antarctica, Observed by Double-Differential Interferometric SAR and Ice Penetrating Radar
Other Titles
동남극 캠벨 빙하의 빙하투과레이더와 DDInSAR 로 관측한 속도 이상
Authors
Lee, Hoonyol
Seo, Heejeong
Han, Hyangsun
Ju, Hyeontae
Lee, Joohan
Subject
Environmental Sciences & EcologyGeologyRemote SensingImaging Science & Photographic Technology
Keywords
Campbell GlacierDDInSARIce Penetrating Radarvelocity anomaly
Issue Date
2021-07
Citation
Lee, Hoonyol, et al. 2021. "Velocity Anomaly of Campbell Glacier, East Antarctica, Observed by Double-Differential Interferometric SAR and Ice Penetrating Radar". REMOTE SENSING, 13(14): 1-14.
Abstract
Regional changes in the flow velocity of Antarctic glaciers can affect the ice sheet mass balance and formation of surface crevasses. The velocity anomaly of a glacier can be detected using the Double-Differential Interferometric Synthetic Aperture Radar (DDInSAR) technique that removes the constant displacement in two Differential Interferometric SAR (DInSAR) images at different times and shows only the temporally variable displacement. In this study, two circular-shaped icevelocity anomalies in Campbell Glacier, East Antarctica, were analyzed by using 13 DDInSAR images generated from COSMO-SkyMED one-day tandem DInSAR images in 2010-2011. The topography of the ice surface and ice bed were obtained from the helicopter-borne Ice Penetrating Radar (IPR) surveys in 2016-2017. Denoted as A and B, the velocity anomalies were in circular shapes with radii of ~800 m, located 14.7 km (A) and 11.3 km (B) upstream from the grounding line of the Campbell Glacier. Velocity anomalies were up to ~1 cm/day for A and ~5 cm/day for B. To investigate the cause of the two velocity anomalies, the ice surface and bed profiles derived from the IPR survey crossing the anomalies were analyzed. The two anomalies lay over a bed hill along the glacial valley where stick-slip and pressure melting can occur, resulting in temporal variation of ice velocity. The bright radar reflection and flat hydraulic head at the ice bed of A observed in the IPR-derived radargram strongly suggested the existence of basal water in a form of reservoir or film, which caused smaller friction and the reduced variation of stick-slip motion compared to B. Crevasses began to appear at B due to tensile stress at the top of the hill and the fast flow downstream. The sporadic shift of the location of anomalies suggests complex pressure melting and transportation of the basal water over the bed hill.
URI
https://repository.kopri.re.kr/handle/201206/13986
DOI
http://dx.doi.org/10.3390/rs13142691
Type
Article
Station
Jang Bogo Station
Indexed
SCIE
Appears in Collections  
2021-2021, The Korean Route Exploration and Technology Development for Antarctic Inland Researches (21-21) / Lee, Khanghyun (PE21080)
2021-2021, Development of technologies for geophysical survey and hot water drilling of the sub-glacial lakes below Antarctic David glacier (21-21) / Lee, Jong Ik (PE21070)
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