Arctic coastal erosion: UAV-SfM data collection strategies for planimetric and volumetric measurements
Data and Resources
Additional Info
| Field | Value |
|---|---|
| Creator | Andrew Clark, Brian Moorman, Dustin Whalen, and Paul Fraser |
| Summary | Above average warming in the Arctic is leading to increasing permafrost temperatures and a reduction in sea ice cover, which are expected to contribute to increasing rates of Arctic coastal erosion and sediment release. We studied a 1.5 km stretch of coastline off Richard’s Island, Northwest Territories, Canada, consisting of multiple retrogressive thaw slumps (RTSs) with varying degrees of activity over a one-year period. Multi-temporal 2D and 3D geomorphic analysis was based on unmanned aerial vehicle-Structure-from-Motion (UAV-SfM) data sets collected in 2018 and 2019. Over the observation period, −3.9 m and −1.1 m of planimetric cliff edge and toe retreat occurred, respectively, and corresponded to an average volumetric change of 8.1 m3 m−1. The accuracy of UAV-SfM-derived digital elevation models was tested using 12 data collection and processing scenarios, testing the influence of off-nadir camera angle, flight pattern, and georeferencing strategy. We found that oblique imaging and georeferencing strategy had a large influence on vertical accuracy and variability across the study site and has implications for studying volumetric changes in RTSs. This study furthers the geomorphological understanding of RTS processes by highlighting the complex relationship between planimetric and volumetric change along rapidly retreating Arctic coasts, and demonstrates advancements in measurement practices for UAV-SfM data sets. |
| Local Relevance | This study enhances understanding of retrogressive thaw slumps along the Arctic coast in the NWT. |
| Notes | |
| Tags | Thaw Slumps,Erosion,Coast,Remote Sensing,Drone,Elevation Models,Research,Richards Island |
| Geographic Region | Beaufort Delta |
| Release Date | 2021-02-01 |
| Last Modified Date | 2021-02-01 |
| Funding Program |