沉淀
微塑料
水柱
色散(光学)
粒子(生态学)
河口
地质学
环境科学
海洋学
机械
土壤科学
频道(广播)
水文学(农业)
倾析
动力学(音乐)
沉积作用
拉格朗日粒子跟踪
振幅
水平和垂直
大气科学
跟踪(教育)
潮坪
作者
James Lofty,Hannah Hapich,Andrew Gray,Frank Seidel,Benjamin Maurer,Zhaoqing Yang,Mário J. Franca
标识
DOI:10.1021/acs.est.5c12960
摘要
Resolving the three-dimensional settling dynamics of microplastic (MP) particles is essential for developing comprehensive models of MP transport in rivers─both vertically within the water column and laterally across the channel. While previous research has largely examined one-dimensional vertical settling velocities, little is known about the lateral drifting, settling paths, and horizontal velocities of MPs. To address this, we investigated the full three-dimensional settling behavior of environmental MPs collected from rivers and ocean water, as well as from estuarine and ocean sediment. Geometric properties of 127 environmental MPs were quantified by a dynamic particle image analyzer, and their settling trajectories were recorded and reconstructed via a multicamera tracking algorithm. This enabled quantification of a particle's horizontal drift, tortuosity, amplitude and settling pattern, as well as vertical and horizontal velocities. Results showed that spherical MPs settled with minimal lateral displacement, whereas elongated particles, such as rod- and blade-shaped MPs, displayed pronounced lateral movements, reaching up to 65 times their equivalent diameter and averaging more than twice that of spheres. These dynamics suggest that elongated MPs may have a greater probability for wider lateral dispersion in rivers, increasing their likelihood for interactions with riverbanks and channel boundaries compared to more spherical shaped MPs.
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