Abdel Jaber W. Derivation of mass balance and surface velocity of glaciers by means of high resolution synthetic aperture radar: application to the Patagonian icefields and Antarctica: Diss. ... Dr.-Ing. / Deutsches Zentrum für Luft- und Raumfahrt, Institut für Faserverbundleichtbau und Adaptronik, Braunschweig. - Köln: DLR, 2016. - 236 p.: ill. - (Forschungsbericht; 2016-54) - ISSN 1434-8454 Шифр: (Pr1120/2016-54) 02   Место хранения:   02 | Отделение ГПНТБ СО РАН | Новосибирск

Оглавление / Contents

Abstract ........................................................ 3 Zusammenfassung ................................................. 5 Contents ........................................................ 7 1 Introduction .............................................. 10 1.1 Scientific motivation ..................................... 10 1.2 Research objectives ....................................... 14 1.3 Thesis outline ............................................ 15 2 SAR and InSAR basics ...................................... 17 2.1 Synthetic aperture radar .................................. 17 2.1.1 Backscattering coefficient ......................... 19 2.1.2 SAR images ......................................... 20 2.2 SAR interferometry ........................................ 22 2.2.1 Interferometrie phase .............................. 22 2.2.2 Coherence .......................................... 23 2.2.3 Interferometrie phase statistics ................... 24 3 Glaciology basics ......................................... 26 3.1 Physical properties of snow ............................... 26 3.2 Surface characteristics ................................... 27 3.3 Glacier zones ............................................. 27 3.3.1 Snow to ice transformation and density variation with depth ......................................... 29 3.4 Glacier flow .............................................. 29 3.5 Glacier mass balance ...................................... 32 3.5.1 Methods to estimate the glacier mass balance ...... 34 4 Microwave properties of snow and ice ...................... 37 4.1 Electromagnetic waves basics .............................. 37 4.2 Scattering ................................................ 39 4.2.1 Reflection and transmission ........................ 39 4.2.2 Surface and volume scattering ...................... 40 4.3 Dielectric propenies of snow .............................. 40 4.4 Extinction coefficient and penetration depth .............. 43 4.5 Microwave backscattering of snow .......................... 44 4.5.1 Remote sensing applications based on snow backscattering ..................................... 44 4.5.2 Models of backscattering coefficient ............... 45 4.5.3 Experimental observations of backscattering ........ 46 5 The Northern and Southern Patagonian icefields ............ 52 5.1 Geographiсal setting ...................................... 52 5.2 Glacier inventory ......................................... 52 5.3 Climate ................................................... 53 5.4 Areal changes ............................................. 55 5.5 Local ice thickness changes ............................... 56 5.6 Large-scale remote sensing studies ........................ 57 5.7 Other relevant studies .................................... 58 6 Elevation and other datasets .............................. 60 6.1 SRTM ...................................................... 60 6.1.1 SRTM validation and accuracy ....................... 63 6.1.2 SRTM data used ..................................... 65 6.2 TanDEM-X .................................................. 66 6.2.1 The TanDEM-X mission ............................... 66 6.2.2 Integrated TanDEM-X Processor and Raw DEMs ......... 70 6.2.2.1 Bistatic SAR processing ........................ 71 6.2.2.2 Interferometrie processing ..................... 72 6.2.3 TanDEM-X accuracy and validation ................... 75 6.2.3.1 Systematic errors .............................. 76 6.2.3.2 Baseline calibration ........................... 77 6.2.4 TanDEM-X dataset used .............................. 77 6.2.4.1 SPI data ....................................... 77 6.2.4.2 NPI data ....................................... 78 6.3 Glacier outline and additional data ....................... 82 7 Ice elevation change maps ................................. 84 7.1 Dealing with phase unwrapping errors ...................... 84 7.2 Vertical and horizontal coregistration of the DEMs ........ 86 7.2.1 Determination of the Raw DEM height offset and its accuracy ....................................... 87 7.3 Elevation change maps derivation .......................... 92 7.4 Results and discussion .................................... 92 8 SAR Backscattering and penetration depth ................. 101 8.1 Backscattering analysis of snow .......................... 101 8.2 Surface condition during SRTM ............................ 103 8.2.1 Processing the SRTM backscattering ................ 103 8.2.2 Meteorological conditions during SRTM ............. 105 8.2.3 Interpretation of the SRTM backscattering ......... 106 8.3 Surface condition during TanDEM-X acquisitions ........... 109 8.3.1 Processing the TanDEM-X backscattering ............ 109 8.3.2 Meteorological conditions in NPI during TanDEM-X acquisitions ...................................... 111 8.3.3 Interpretation of the TanDEM-X backscattering of NPI ............................................ 112 8.3.4 Analysis of the TanDEM-X backscattering of SPI .... 114 8.4 Seasonal comparison of σ° and surface elevation .......... 117 9 Geodetic mass balance .................................... 121 9.1 Geodetic mass balance state of the art ................... 121 9.1.1 Error budget: general approach and state of the art .................................................... 123 9.1.1.1 Uncertainty of the elevation difference sample ........................................ 123 9.1.1.2 Geostatistics and semivariograms .............. 126 9.1.1.3 Uncertainty of the spatially averaged elevation difference .......................... 129 9.1.1.4 Ice density profile uncertainty ............... 132 9.1.1.5 Extrapolation to unsurveyed areas ............. 134 9.1.1.6 Dealing with radar signal penetration in ice and snow ...................................... 134 9.1.1.7 Bias due to different resolution of the DEMs .. 137 9.1.1.8 Other sources of uncertainty .................. 138 9.2 Mass balance derivation .................................. 140 9.3 Mass balance uncertainty estimation ...................... 142 9.3.1 Influence of the different resolution of the DEMs .............................................. 142 9.3.2 Estimation of the uncertainty of the elevation difference sample ................................. 145 9.3.3 Interferometrie uncertainty: surface type comparison ........................................ 151 9.3.4 Spatial correlation analysis ...................... 153 9.3.5 Standard error of the spatial average ............. 157 9.3.6 Uncertainty of the DEM registration procedure ..... 158 9.3.7 Error due to seasonal elevation changes and signal penetration ................................ 158 9.3.8 Crustal uplift due to glacial isostatic adjustment ........................................ 160 9.3.9 Other error sources and combination of uncertainties ..................................... 160 9.3.10 Mass balance error budget for NPI and SPI ......... 162 9.4 Frontal and subaqueous ice changes ....................... 162 9.5 Mass balance results ..................................... 167 10 Multitemporal geodetic mass balance of the Jorge Montt Glacier .................................................. 174 11 Glacier surface velocity ................................. 179 11.1 State of the art X ...................................... 179 11.2 Objectives and data ...................................... 181 11.2.1 TerraSAR-X data ................................... 182 11.2.2 Approach ......................................... 11.3 Methodology .............................................. 184 11.3.1 Data selection and cropping ....................... 184 11.3.2 Shift estimation through incoherent cross- correlation ....................................... 184 11.3.3 Outliers rejection and interpolation .............. 187 11.4 Accuracy ................................................. 189 11.4.1 Accuracy of the differential shift estimation through cross-correlation ......................... 189 11.4.2 Pixel localization accuracy ....................... 190 11.4.2.1 Error due to the propagation in the atmosphere .................................... 191 11.4.2.2 Error due to geocoding ........................ 194 11.4.3 Error due to the deformation of the Earth ........ 195 11.5 Results .................................................. 198 11.5.1 NPI and SPI ....................................... 198 11.5.2 Antarctica ........................................ 199 11.5.2.1 Drygalski Glacier ............................. 201 11.5.2.2 Nimrod and Byrd glaciers ...................... 203 11.5.2.3 Glaciers of the Gould and Amundsen Coast ...... 206 11.5.2.4 Thwaites Glacier .............................. 206 11.5.2.5 Recovery Glacier .............................. 209 12 Conclusion ............................................... 211 12.1 Discussion and conclusion ................................ 211 12.2 Outlook X ................................................ 213 Bibliography .................................................. 215 Acknowledgements .............................................. 236