EGU General Assembly 2008

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	Quick Search Author Title Abstract Nr. Schedule Nr. Programme Groups Union Symposia Interdivision Sessions Educational Symposia Atmospheric Sciences Biogeosciences Climate: Past, Present, Future Cryospheric Sciences Earth & Space Science Informatics Energy, Resources & the Environment Geochemistry, Mineralogy, Petrology & Volcanology Geodesy Geodynamics Geomorphology Geosciences Instrumentation & Data Systems Hydrological Sciences Isotopes in Geosciences: Instrumentation and Applications Magnetism, Palaeomagnetism, Rock Physics & Geomaterials Natural Hazards Nonlinear Processes in Geophysics Ocean Sciences Planetary & Solar System Sciences Seismology Soil System Sciences Solar-Terrestrial Sciences Stratigraphy, Sedimentology & Palaeontology Tectonics & Structural Geology Medal Lectures Great Debates in Geosciences Short Courses Keynote Lectures Townhall Meetings Division Business Meetings Editorial Board Meetings Union Meetings Splinter Meetings   Poster Programme - CR19 Modelling ice-sheets and glaciers Select contributions you wish to be included in your Personal Programme and press "Add" to Personal Programme. Finally, click on "Personal Programme" to modify, view, print, save or export your Personal Programme. Please, click Abstract Number to find the corresponding abstract as PDF file; if necessary, download Adobe Acrobat Reader 4.0 first to open the file. Any abstract may be freely reproduced for non-commercial, scientific purposes; however, the moral right of the author(s) to be identified as the author(s) of such abstracts is asserted. Convener: Hindmarsh, R. Co-Convener: Pattyn, F. Co-Sponsorship: Author in Attendance: Thursday, 17 April 2008 10:30 - 12:00 Display Time: Thursday, 17 April 2008 08:00 - Thursday, 17 April 2008 19:30 Poster Area: Hall A Chairperson: N.N. Select complete timeblock A0044 EGU2008-A-07378;  CR19-1TH2P-0044 Reerink, T.J. ; van de Wal, R.S.W; Borsboom, P.P. A coupled 3D solution of the full stress velocity field in ice sheet - ice shelf models A0045 EGU2008-A-09326;  CR19-1TH2P-0045 Soucek, O.; Martinec, Z. SIA-I algorithm - testing the performance on real data A0046 EGU2008-A-01872;  CR19-1TH2P-0046 Hindmarsh, R.C.A Large-scale ice-sheet modelling with horizontal stress gradients A0047 EGU2008-A-01877;  CR19-1TH2P-0047 Leysinger Vieli, GJMC; Hindmarsh, RCA; Siegert, MJ Towards modelling Holocene accumulation rate trends in East Antarctica deduced from isochronic radar layers A0048 EGU2008-A-09728;  CR19-1TH2P-0048 Rousselot, M.; Parrenin, F.; Gagliardini, O.; Hindmarsh, R.C.A 2D inverse modeling of isochrone layer geometry in a steady state ice sheet A0049 EGU2008-A-06470;  CR19-1TH2P-0049 Steen-Larsen, H. C.; Johnsen, S. J.; Dahl-Jensen, D. The change in surface accumulation-rate pattern along the ridge from GRIP to NEEM during the Holocene A0050 EGU2008-A-06398;  CR19-1TH2P-0050 Gudmundsson, G. H. Analytical analysis of small-amplitude perturbations in the shallow ice stream approximation A0051 EGU2008-A-00181;  CR19-1TH2P-0051 de Fleurian, B.; Gagliardini, O.; Lemeur, E.; Ritz, C. Comparison of marine ice sheet models response to sea level variation A0052 EGU2008-A-03261;  CR19-1TH2P-0052 Humbert, A.; Kleiner, T.; Greve, R.; Mohrholz, C.-O.; Oelke, C; Lange, M. A comparative modeling study of the Brunt Ice Shelf -- Stancomb-Wills Ice Tongue System A0053 EGU2008-A-09427;  CR19-1TH2P-0053 Huybrechts, P.; Rybak, O.; Nemec, J.; Eisen, O. Towards a coupled three-dimensional glacier/ mass balance model of the Morteratschgletscher, Engadin A0054 EGU2008-A-08865;  CR19-1TH2P-0054 Hubbard, B.; Chandler, D.M.; Hubbard, A.; Bayley, O.; Murray, T. Physically-calibrated, 3D numerically modelled response of a temperate valley glacier to predicted climate change A0055 EGU2008-A-00615;  CR19-1TH2P-0055 Nepop, R.K.; Agatova, A.R. Applying simple glacier model for calculating the parameters of Chagan-Uzun massif glaciation (SE Altai, Russia) A0056 EGU2008-A-00614;  CR19-1TH2P-0056 Nepop, R.K.; Agatova, A.R. One-dimensional numerical glacier model and its applying for estimating the glacial erosion rate (by the example of SE Altai, Russia) to Personal Programme and Back to Session Programme View corresponding Oral Programme Back to Session Programme

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