Journal
CONTINENTAL SHELF RESEARCH
Volume 222, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.csr.2021.104417
Keywords
Buoyant plumes; Vegetation; Delft3D; Momentum balance; Sediment transport; River plumes; Mangroves; Firth of Thames
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Funding
- American Chemical Society Petroleum Research Fund [56786-ND8]
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A three-dimensional numerical model was developed to investigate drivers of sediment deposition in a mangrove-lined river delta. Based on an idealized domain representing the Firth of Thames in New Zealand, the study revealed that sediment deposition patterns are influenced by the presence of vegetation such as mangroves.
To identify the drivers of sediment deposition within a mangrove-lined river delta, we developed a threedimensional numerical model in an idealized domain. Our model system is based on the Firth of Thames, a modern flat-fronted, bay-head deltaic system, in the Hauraki Gulf, in the North Island of New Zealand. The interactions of the buoyant river plume with mangroves are examined, including sediment deposition and erosion patterns. The morphological study presented here is restricted to cohesive sediments, whose patterns are observed after 4 months of morphological evolution. For the non-vegetated case, represented by a spatially uniform roughness, sediment deposited throughout the central model domain with a formation of a cuspate delta at the river mouth. However, in the vegetated case (with vegetated areas represented by an enhanced and spatially varying roughness coefficient), sediment deposition occurred in the regions of forests and flats, whereas the fringe areas experienced erosion. The sediment deposition patterns along cross-sections were qualitatively consistent with field observations from the Firth of Thames. Analysis of the across-transect and along-transect momentum balances demonstrates that the predominant balance between the bottom shear stress and baroclinic pressure gradient largely controls the sediment deposition in the riverine sections of the domain. However, close to the center of the plume, vertical advection promotes suspension of the sediments in the fringe region during the flood tide.
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