Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation
Land subsidence is mapped over two Danish coastal study locations from precision leveling and modified Sentinel-1 satellite data. Geological models are produced after digitization of geotechnical archives. The inferred subsidence patterns are related to the geology and advantages of bringing this i...
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| Format: | Article |
| Language: | Danish |
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Aalborg Universitetsforlag
2018-01-01
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| Series: | Geoforum Perspektiv |
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| Online Access: | https://journals.aau.dk/index.php/gfp/article/view/1613 |
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doaj-f80990a753094ee1aebc02ca58a7a1c32021-03-23T14:20:31ZdanAalborg UniversitetsforlagGeoforum Perspektiv1601-87962245-84332018-01-01152810.5278/ojs.perspektiv.v15i28.1613Combining Land Subsidence and Geology for Improved Coastal Climate AdaptationCarlo Sorensen0Niels Henrik Broge1Mads Robenhagen Mølgaard2Joanna Fredenslund Levinsen3Nik Okkels4Per Knudsen5DTU Space Technical University of DenmarkDanish Ministry of Energy, Utilities and ClimateGeo Geodata and ClimateAgency for Data Supply and Efficiency Danish Ministry of Energy, Utilities and ClimateGeo Department of Geotechnical EngineeringDTU Space Technical University of Denmark Land subsidence is mapped over two Danish coastal study locations from precision leveling and modified Sentinel-1 satellite data. Geological models are produced after digitization of geotechnical archives. The inferred subsidence patterns are related to the geology and advantages of bringing this information together in flood risk assessments and in climate adaptation are discussed. The lack of data for subsidence monitoring and a fragmentation of geotechnical information are considered a hindrance to optimal adaptation measures in Denmark. A national subsidence mapping to gain an overview of the challenges faced is advocated. A simple decision support system can implement subsidence and geotechnical information in coastal climate adaptation to the benefit of municipalities and other relevant stakeholders. https://journals.aau.dk/index.php/gfp/article/view/1613Land subsidencegeotechnical archivesgeological modelSentinel-1coastal floodsdecision support |
| collection |
DOAJ |
| language |
Danish |
| format |
Article |
| sources |
DOAJ |
| author |
Carlo Sorensen Niels Henrik Broge Mads Robenhagen Mølgaard Joanna Fredenslund Levinsen Nik Okkels Per Knudsen |
| spellingShingle |
Carlo Sorensen Niels Henrik Broge Mads Robenhagen Mølgaard Joanna Fredenslund Levinsen Nik Okkels Per Knudsen Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation Geoforum Perspektiv Land subsidence geotechnical archives geological model Sentinel-1 coastal floods decision support |
| author_facet |
Carlo Sorensen Niels Henrik Broge Mads Robenhagen Mølgaard Joanna Fredenslund Levinsen Nik Okkels Per Knudsen |
| author_sort |
Carlo Sorensen |
| title |
Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation |
| title_short |
Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation |
| title_full |
Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation |
| title_fullStr |
Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation |
| title_full_unstemmed |
Combining Land Subsidence and Geology for Improved Coastal Climate Adaptation |
| title_sort |
combining land subsidence and geology for improved coastal climate adaptation |
| publisher |
Aalborg Universitetsforlag |
| series |
Geoforum Perspektiv |
| issn |
1601-8796 2245-8433 |
| publishDate |
2018-01-01 |
| description |
Land subsidence is mapped over two Danish coastal study locations from precision leveling and modified Sentinel-1 satellite data. Geological models are produced after digitization of geotechnical archives. The inferred subsidence patterns are related to the geology and advantages of bringing this information together in flood risk assessments and in climate adaptation are discussed. The lack of data for subsidence monitoring and a fragmentation of geotechnical information are considered a hindrance to optimal adaptation measures in Denmark. A national subsidence mapping to gain an overview of the challenges faced is advocated. A simple decision support system can implement subsidence and geotechnical information in coastal climate adaptation to the benefit of municipalities and other relevant stakeholders.
|
| topic |
Land subsidence geotechnical archives geological model Sentinel-1 coastal floods decision support |
| url |
https://journals.aau.dk/index.php/gfp/article/view/1613 |
| work_keys_str_mv |
AT carlosorensen combininglandsubsidenceandgeologyforimprovedcoastalclimateadaptation AT nielshenrikbroge combininglandsubsidenceandgeologyforimprovedcoastalclimateadaptation AT madsrobenhagenmølgaard combininglandsubsidenceandgeologyforimprovedcoastalclimateadaptation AT joannafredenslundlevinsen combininglandsubsidenceandgeologyforimprovedcoastalclimateadaptation AT nikokkels combininglandsubsidenceandgeologyforimprovedcoastalclimateadaptation AT perknudsen combininglandsubsidenceandgeologyforimprovedcoastalclimateadaptation |
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1724206052541464576 |