Using the roughness height and manning number in hydrodynamic model to estimate the impact of intensive oyster aquaculture by floating & fixed rafts on water exchange with an application in Qinzhou Bay, China

•How to model the hydrodynamic drag of cultivation activities is our major concern.•Surface and bottom shear stress were simultaneously used for hydrodynamic drag.•Tidal prism & half-life time were used for quantifying water exchange capability. This study mainly addressed the methodology issue...

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Bibliographic Details
Published in:Ecological modelling 2023-02, Vol.476, p.110230, Article 110230
Main Authors: Huang, Yu, Li, Zenghui, Sun, Changyang, Feng, Zhiwei, Li, Jingyao, Wei, Danyi, Wang, Bin, Jiang, Shang, Chen, Keliang, Sun, Xiang
Format: Article
Language:English
Subjects:
Half-life time
Hydrodynamic modeling
Oyster aquaculture
Tidal prism
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Summary:•How to model the hydrodynamic drag of cultivation activities is our major concern.•Surface and bottom shear stress were simultaneously used for hydrodynamic drag.•Tidal prism & half-life time were used for quantifying water exchange capability. This study mainly addressed the methodology issue of how to model the hydrodynamic drag effects of aquaculture facilities and activities. Here, firstly, surface shear stress was determined by roughness height for characterizing the drag from floating aquaculture activities, while bottom shear stress was determined by the Manning number for characterizing the drag caused by bottom fixed aquaculture activities. Then, by taking Qinzhou Bay as a typical case, the two-dimensional model was established by integrating the multiple drag coefficients to quantify the impacts of the oyster cultivation activities on the water exchange capability (tidal prism and half-life time). The results showed that: (1) Cultivation activities would reduce the average tidal prism by 6.4% in Qinzhou Bay; (2) 10 averages longer day of half-life time was estimated to be resulting from the cultivation drag.
ISSN:0304-3800
1872-7026
DOI:10.1016/j.ecolmodel.2022.110230