原文传递
Vessel-Generated Wake Attenuation by Rhizophora Mangle in Key West, Fiorida
| 题名: | Vessel-Generated Wake Attenuation by Rhizophora Mangle in Key West, Fiorida |
| 正文语种: | eng |
| 作者: | Tori Tomiczek;Anna Wargula;Kiera O'Donnell;Victoria LaVeck;Katherine A. Castagno;Steven Scyphers |
| 作者单位: | United States Naval Academy 590 Holloway Rd. Annapolis MD 21402;United States Naval Academy 590 Holloway Rd. Annapolis MD 21402;Northeastern Univ. Marine Science Center 430 Nahant Rd. Nahant MA 01908;United States Navy 590 Holloway Rd. Annapolis MD 21402;Center for Coastal Studies 5 Holway Drive Provincetown MA 02657;Northeastern Univ. Marine Science Center 430 Nahant Rd. Nahant MA 01908 |
| 关键词: | Rhizophora mangle (red mangroves); Vessel-generated wakes; Wave attenuation; Natural and nature-based features; Wave-vegetation interaction |
| 摘要: | Mangroves have demonstrated the potential to provide engineering services to shorelines through wave attenuation, inland load reduction, and erosion mitigation. However, to confidently leverage these and other natural and nature-based features as coastal protection altematives, their performance must be quantified over a broad range of environmental conditions that may interact with these systems in nature, ranging from daily stressors to extreme events. This paper examines the attenuation of 236 vessel-generated wakes through red mangroves (Rhizophora mangle) using high-frequency pressure sensors positioned at the fringe (X= 0 m), middle (X= 6.8 m), and sheltered edge (rear, X= 12.6 m) of a narrow mangrove stand near Key West, FL. We observed average characteristic wave height reductions of 38% and 65% at the middle and rear positions, respectively. At the rear of the mangrove stand, wave height attenuation increased with increasing incident relative wave height and increasing incident wave steepness for the range of characteristic wave heights, periods, and water depths observed. A subset of wake events for which water particle velocity measurements were available suggests proportionality between wave height and water particle velocity, which may indicate that transmission coefficients calculated for wave heights may be representative of water particle velocity attenuation as well. This work provides quantitative data to expand the parameter space assessing the performance of natural and nature-based infrastructure in mitigating chronic stressors such as vessel-generated wakes, which may be major drivers of erosion in developed coastal and estuarine regions. |
| 出版年: | 2022 |
| 期刊名称: | Journal of Waterway, Port, Coastal and Ocean Engineering |
| 卷: | 148 |
| 期: | 3 |
| 页码: | 04022002.1-04022002.14 |
相关文献
- Warning: wake up to compliance
- Marine Vessel Wave Wake: Transient Effects When Accelerating or Decelerating
- Rail Pad Stiffness and Classification System
- Back to school for better drainage
- Making an Impact Weeks Marine Completes Dredging on West Grand Terre
- Making an Impact Weeks Marine Completes Dredging on West Grand Terre
检索历史
应用推荐
