Your search keyword '"laser altimetry"' showing total 3 results

1. On a possibility to use the remote sensing techniques for glaciological analysis in mountain regions of Uzbekistan

Author

E. R. Semakova and D. G. Semakov

Subjects

digital model (dem), firn line, glacial lakes, glaciers, icesat, laser altimetry, sar images, surface lowering, Science

Abstract

The ALOS/AVNIR-2 satellite data (2007–2010) allowed estimating areas of glaciers, change in the areas for 50 years, and the number and areas of new naturally-dammed lakes in the mountain regions of Uzbekistan. Boundaries of these gla‑ ciers together with the ALOS/PALSAR data (2010) were used as the basis to determine position of the firn line. It was revealed that since 1980s elevation range of the line gradually decreased. The relationship between average elevation of the firn line and the upper limit of the juniper tree occurrence as well as changing of this relation since 1980s are consid‑ ered. The revealed lakes served as the basis for verification of probabilistic model of the moraine-dammed lake forma‑ tions due to the glacier recessions in the basins under consideration. It was shown that the GIS-techniques based on the use of this model together with data on glaciation and the relief digital model may significantly simplify searching of new lakes. Application of a system of the mudflow movement modeling makes possible to estimate a risk level in a case of a lake bursting. Current information about changing elevations of the glacier surfaces was obtained duet to the radar inter‑ ferometry and the altimeter data. The digital model of the river Pskem upper course (the DEM) had been built using the satellite TerraSAR‑X/TanDEM‑X data (2011–2012). All datasets of the elevations were checked for horizontal shifts of the relief digital models relative to the ICESat profiles (2003–2008). Evaluation of accuracy and morphological analysis of all the relief models for the investigated region were also made. DEMs differencing, the difference between ICESat measure‑ ments and DEM, nearby ICESat footprints within one track and between the tracks were carried out to assess the change in elevations of the glacier surfaces. Average rate of the surface lowering of an individual glacier with the maximal number of footprints (7) in the track is equal to −1 m/year; on average for 7 corrie-valley glaciers with northern/north-eastern exposition, it is −1.3 m/year in the ablation zone. This rate increases toward to the glacier terminus. Average local mass balance in the ablation zone of the Barkrak Glacier is egual to −0.82±0.36 m w.e. a−1 for the period since 2000 till 2012.

Published

2017

2. On a possibility to use the remote sensing techniques for glaciological analysis in mountain regions of Uzbekistan

Author

Array Г. Семаков and Array Р. Семакова

Subjects

Glacier terminus, 010504 meteorology & atmospheric sciences, Science, 0211 other engineering and technologies, firn line, 02 engineering and technology, 01 natural sciences, surface lowering, Geochemistry and Petrology, digital model (dem), Glacial period, Altimeter, laser altimetry, glacial lakes, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology, Global and Planetary Change, geography, geography.geographical_feature_category, icesat, Firn, Elevation, Glacier, sar images, Mudflow, Climatology, glaciers, Physical geography, Geology, Ablation zone

Abstract

The ALOS/AVNIR-2 satellite data (2007–2010) allowed estimating areas of glaciers, change in the areas for 50 years, and the number and areas of new naturally-dammed lakes in the mountain regions of Uzbekistan. Boundaries of these gla‑ ciers together with the ALOS/PALSAR data (2010) were used as the basis to determine position of the firn line. It was revealed that since 1980s elevation range of the line gradually decreased. The relationship between average elevation of the firn line and the upper limit of the juniper tree occurrence as well as changing of this relation since 1980s are consid‑ ered. The revealed lakes served as the basis for verification of probabilistic model of the moraine-dammed lake forma‑ tions due to the glacier recessions in the basins under consideration. It was shown that the GIS-techniques based on the use of this model together with data on glaciation and the relief digital model may significantly simplify searching of new lakes. Application of a system of the mudflow movement modeling makes possible to estimate a risk level in a case of a lake bursting. Current information about changing elevations of the glacier surfaces was obtained duet to the radar inter‑ ferometry and the altimeter data. The digital model of the river Pskem upper course (the DEM) had been built using the satellite TerraSAR‑X/TanDEM‑X data (2011–2012). All datasets of the elevations were checked for horizontal shifts of the relief digital models relative to the ICESat profiles (2003–2008). Evaluation of accuracy and morphological analysis of all the relief models for the investigated region were also made. DEMs differencing, the difference between ICESat measure‑ ments and DEM, nearby ICESat footprints within one track and between the tracks were carried out to assess the change in elevations of the glacier surfaces. Average rate of the surface lowering of an individual glacier with the maximal number of footprints (7) in the track is equal to −1 m/year; on average for 7 corrie-valley glaciers with northern/north-eastern exposition, it is −1.3 m/year in the ablation zone. This rate increases toward to the glacier terminus. Average local mass balance in the ablation zone of the Barkrak Glacier is egual to −0.82±0.36 m w.e. a−1 for the period since 2000 till 2012.

Published

2017

3. DETERMINATION OF THE ICE SHEET SURFACE ELEVATION PROFILES ALONG THE INLAND TRACKS IN ANTARCTICA BY KINEMATIC GPS-OBSERVATIONS

Author

Ludwig Schröder, A. V. Egorov, Denis Fedorov, E. V. Brovkov, A. Richter, R. Dietrich, C. Knöfel, and V. V. Lukin

Subjects

Global and Planetary Change, Laser altimetry, business.industry, gps kinematic, Science, dem, Elevation, Antarctic ice sheet, antarctica, continental traverse, Geodesy, Standard deviation, Geography, Geochemistry and Petrology, altimetry, Global Positioning System, Satellite, Spectral analysis, Altimeter, business, height profile, Earth-Surface Processes, Water Science and Technology

Abstract

Surface height profiles of the Antarctic ice sheet were derived from kinematic GPS observations on continental traverses with an accuracy of20 cm. The spectral analysis of the height profile allowed distinguishing different zones of distinct relief properties. The obtained surface height profiles were compared to ICESat satellite laser altimetry data and four different DEMs. A good agreement, within a few decimeters, is found between the in-situ observations and the altimetry data. Among the considered DEMs the model published by Bamber et al., 2009 [3] agrees best with the GPS observations. For three separate elevation zones the standard deviations of the differences of this DEM and the GPS results amount to 0.90 (above3300 melevation), 2.27 (2800–3300 m), and13.92 m(below2800 m). For the Remy [13] and RAMPv2 [11] DEMs we obtained standard deviations of1.98 mand2.58 m(above3300 m), and4.03 mand5.67 m(2800–3300 m), respectively.

Published

2015