峡谷
海底峡谷
沉淀
地质学
海洋学
微塑料
浊流
浊度
潜艇
地貌学
环境科学
沉积沉积环境
构造盆地
环境工程
作者
Xiaodong Zhang,Zhifei Liu,Daoji Li,Yulong Zhao,Yanwei Zhang
出处
期刊:Geology
[Geological Society of America]
日期:2024-06-04
卷期号:52 (9): 646-650
摘要
Abstract Microplastics are widely distributed in deep oceans, with some of the highest concentrations reported in submarine canyons, which are thought to be closely related to turbidity currents. However, the turbidity current role in microplastic transport and deposition is poorly understood. Here, we present temporal variation in microplastic abundance and settling flux from sediment trap observations on the levee of Gaoping Canyon, offshore Taiwan, where turbidity currents occur frequently. The results showed that relatively high microplastic abundance and flux were consistent with the increases of near-bottom suspended sediment concentration caused by turbidity currents. The microplastics, dominated by polypropylene (59%) and polyethylene (21%), were probably derived from Taiwan coastal resuspension and river input and then transported into the submarine canyon by typhoon- or earthquake-triggered turbidity currents. During the turbidity currents, the average microplastic abundance and flux was 4137 particles per kilogram and 40.11 particles per square meter per day, respectively, showing an increase of 49% and 270%, respectively, compared to non–turbidity current periods. The total microplastic flux during the turbidity currents accounted for ~76% of annual flux. Our study highlights turbidity currents to be the major hydrodynamic process in regulating microplastic transport and settling in a submarine canyon.
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