A surface porosity approach for eliminating artificial ponding in coastal salt marsh simulations

Date
2022-11-23
Journal Title
Journal ISSN
Volume Title
Publisher
Coastal Engineering
Abstract
Hydrodynamic processes over marsh topography are significantly affected by surface defects such as cuts and rills on channel berms and platforms. These meter-scale features are often missing in the model representation due to the spatial resolution available from data sources, as well as incomplete resolution in the model grid itself. To minimize the artificial hydraulic isolation in the numerical models, we propose implementing an effective porosity algorithm on the marsh surface by considering the fine-scale topography over marsh depressions that control the drainage process. The modification is carried out to eliminate artificial ponding effects observed in model simulations in Bombay Hook National Wildlife Refuge, DE, USA using the original FVCOM code. Results from the revised and original FVCOM models are compared with pressure gauge data collected from an isolated depression in the marsh platform. The new implementations for proper wetting and drying are efficient and accurate for hydrodynamic modeling inside a complex salt-marsh system, which constitutes a major breakthrough in the context of increasing need for better understanding of physical and morphological changes in valuable coastal ecosystems.
Description
This article was originally published in Coastal Engineering. The version of record is available at: https://doi.org/10.1016/j.coastaleng.2022.104246. This article will be embargoed until 11/23/2024.
Keywords
tidal wetlands, salt marshes, wetting and drying, numerical modeling, artificial ponding, marsh flooding and draining
Citation
Deb, Mithun, James T. Kirby, Ali Abdolali, and Fengyan Shi. “A Surface Porosity Approach for Eliminating Artificial Ponding in Coastal Salt Marsh Simulations.” Coastal Engineering 179 (January 1, 2023): 104246. https://doi.org/10.1016/j.coastaleng.2022.104246.