TY - JOUR AU - Roll Jakobsen, Peter AU - Wegmuller, Urs AU - Capes, Ren AU - Schack Pedersen, Stig A. PY - 2013/07/10 Y2 - 2024/03/28 TI - Terrain subsidence detected by satellite radar scanning of the Copenhagen area, Denmark, and its relation to the tectonic framework JF - GEUS Bulletin JA - GEUS Bulletin VL - 28 IS - SE - RESEARCH ARTICLE | SHORT DO - 10.34194/geusb.v28.4713 UR - https://geusbulletin.org/index.php/geusb/article/view/4713 SP - 25-28 AB - <p>In the European Union (EU) project Terrafirma, which is supported by the European Space Agency to stimulate the Global Monitoring Environment System, we are using the latest technology to measure terrain motion on the basis of satellite radar data. The technique we employ is known as persistent scatterer interferometry (PSI); in Denmark, it was previously used to map areas of subsidence susceptible to flooding in the Danish part of the Wadden Sea (Vadehavet) area (Pedersen <em>et al.</em> 2011). That study was part of the flooding risk theme under the TerraFirma Extension project. Another coastal protection monitoring activity in the EU seventh framework project SubCoast followed, in which the low-lying south coast of Lolland, prone to flooding, was studied. The Geological Survey of Denmark and Greenland (GEUS) is also involved in the three-year EU collaborative project PanGeo in which GEUS is one of 27 EU national geological surveys. The objective of PanGeo is to provide free and open access to geohazard information in support of the Global Monitoring Environment System. This will be achieved by providing a free, online geohazard information service for the two largest cities in each EU country, i.e. 52 towns throughout Europe with <em>c.</em> 13% of EU’s population.</p> ER -