A method for sub-pixel scale feature-tracking using Radarsat images applied to the Mertz Glacier Tongue, East Antarctica

Abstract Tracking features between pairs of satellite synthetic aperture radar (SAR) images using image cross-correlation methods is a powerful tool for defining regions of image movement such as ice flow of Antarctic glaciers. Unlike optical images, processed SAR images have various instrumental effects such as view angle distortions and lateral displacement errors caused by slant range mapping. Co-registration issues are problematic and need to be addressed if there are few/no suitable stationary tie points at or near sea level within the images. Methods are presented that use Radarsat ScanSAR images to reliably measure sub-pixel displacements with errors of ≲ ± 0.25 pixels but this estimate is target dependent. The techniques and issues are illustrated using examples from a long-term study of the Mertz Glacier Tongue in East Antarctica. For image pairs only a few days apart, this extensive structure forms an excellent grid-like test pattern which provides up to 5000 valid correlation matches. Images separated by 100's of days can then be processed in the same way to reveal many subtle and some large changes over time. The technique described is robust and may be widely applicable.

[1]  Koichiro Doi,et al.  Estimation of seasonal changes in the flow of Shirase Glacier using JERS-1/SAR image correlation , 2007 .

[2]  K. Mullins,et al.  Velocities of Pine Island Glacier, West Antarctica, from ERS-1 SAR images , 1995, Annals of Glaciology.

[3]  Baerbel K. Lucchitta,et al.  Velocity measurements and changes in position of Thwaites Glacier/iceberg tongue from aerial photography, Landsat images and NOAA AVHRR data , 1993 .

[4]  R. Massom,et al.  Fast-ice distribution in East Antarctica during 1997 and 1999 determined using RADARSAT data , 2008 .

[5]  Hamish Pritchard Review of Polar remote sensing. Vol. II: Ice sheets by R. Massom and D. Lubin. Berlin, Springer; Chichester, Praxis, 2006 , 2006 .

[6]  R. Bindschadler,et al.  Application of image cross-correlation to the measurement of glacier velocity using satellite image data , 1992 .

[7]  John B. Anderson,et al.  What is happening to the west antarctic ice sheet , 1998 .

[8]  R. Kwok,et al.  Greenland Ice Sheet Surface Properties and Ice Dynamics from ERS-1 SAR Imagery , 1993, Science.

[9]  R. Armstrong,et al.  The Physics of Glaciers , 1981 .

[10]  David G. Vaughan,et al.  Widespread Acceleration of Tidewater Glaciers on the Antarctic Peninsula , 2007 .

[11]  B. Legrésy,et al.  Influence of tides and tidal current on Mertz Glacier, Antarctica , 2004, Journal of Glaciology.

[12]  Baerbel K. Lucchitta,et al.  Velocities of Pine Island Glacier, West Antarctica, from ERS-1 SAR images , 1995 .

[13]  B. Lucchitta,et al.  Velocities of Pine Island and Thwaites glaciers, West Antarctica, from ERS-1 SAR images , 1997 .

[14]  Surface-velocity field of the northern Larsen Ice Shelf, Antarctica , 1994 .

[15]  Yi-Hsing Tseng,et al.  Automatic tracking of crevasses on satellite images , 1995 .

[16]  R. Bindschadler,et al.  Satellite-Image-Derived Velocity Field of an Antarctic Ice Stream , 1991, Science.

[17]  Donald D. Blankenship,et al.  Surface velocity and mass balance of Ice Streams D and E, West Antarctica , 1996 .