In-situ Geotechnical Investigation of Coastal Sediments with Regards to Sediment Remobilization Processes and Sediment Stability
Geotechnical parameters and soil behavior of coastal sediments impact sediment remobilization processes and stability. Therefore, they have the potential to be a key factor for the assessment and prediction of coastal erosion, coastal engineering activities, as well as naval applications. Most geote...
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University of New Hampshire Scholars' Repository
2019
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| Online Access: | https://scholars.unh.edu/ccom_seminars/275 https://scholars.unh.edu/context/ccom_seminars/article/1274/type/native/viewcontent/276.jpg_AWSAccessKeyId_AKIAYVUS7KB2IXSYB4XB_Signature_dflPTSatlPgljX9thYrZ6JRFEfw_3D_Expires_1725029633 |
| Summary: | Geotechnical parameters and soil behavior of coastal sediments impact sediment remobilization processes and stability. Therefore, they have the potential to be a key factor for the assessment and prediction of coastal erosion, coastal engineering activities, as well as naval applications. Most geotechnical in-situ methods have been developed for non-subaquaeous conditions or for offshore conditions with the availability of ship support. However, few field techniques have been developed for the coastal zone with strongly varying water elevations and energetic hydrodynamics, leading to a current gap in data availability and understanding of soil behavior in the intertidal and nearshore zones. This presentation provides an overview into most recent developments of portable free fall penetrometers for the in-situ characterization of surficial sediments in coastal areas, the use of wave gauges for pore pressure measurements in the coastal zone, and the use of remote sensing techniques for geotechnical characterization of beach sediments. Data examples will include results from field expeditions to the Arctic, Duck, North Carolina, Sylt, Germany, and Yakutat, Alaska, giving new insights into the relationship between soil behavior and coastal processes, but also raising new questions. Presenter Bio Nina Stark received a Diploma (MSc) in Geophysics in 2007 from the Westphalian Wilhelms University of Muenster, Germany. For her thesis (“Characterization of seafloor sediments using eXpendable Bottom Penetrometer) she collaborated with Dr. Thomas Wever from the Institute for Underwater Acoustics and Geophysics of the German Navy in Kiel. She finished her PhD in Marine Geotechnics in 2011 at MARUM-Center for Marine and Environmental Sciences at the University of Bremen, Germany. She worked on the “Geotechnical investigation of sediment remobilization processes using dynamic penetrometers†under the supervision of Prof. Achim Kopf. She was a postdoctoral fellow in 2011 in the marine geotechnics group at MARUM under ... |
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