Transport of Floating Plastics through the Fluvial Vector: The Impact of Riparian Zones

Valyrakis, Manousos; Gilja, Gordon; Liu, Da; Latessa, Gaston

doi:10.3390/w16081098

Water

2024

DOI: 10.3390/w16081098

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Transport of Floating Plastics through the Fluvial Vector: The Impact of Riparian Zones

Manousos Valyrakis,

Gordon Gilja,

Da Liu

et al.

Abstract: This study presents results from an experimental campaign to explore how different riparian zone characteristics may facilitate the transport or capturing of plastics floating through the fluvial system. Specifically, following field observations for the transport of plastics through fluvial vectors, a substantial number of flume experiments has been designed to assess the effect of floating macro-plastics and riparian zone characteristics. The results from flume experiments were analyzed using particle tracki… Show more

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Cited by 2 publications

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Submerged rigid vegetation effects on flow hydrodynamics within the pool morphology

Nosrati,

Afzalimehr,

Raeisifar

et al. 2024

River

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This research is centered on a comprehensive investigation into the impact of turbulence on the movement and dispersion of materials within a three‐dimensional (3D) bedform, specifically when there is a continuous presence of rigid vegetation submerged in the flow. To achieve our research objectives, we conducted extensive velocity measurements within a channel featuring this submerged vegetation. The measurements were carried out using an Acoustic Doppler Velocimeter (ADV). Additionally, our study delved into the intricate structures and turbulent characteristics of the flow, considering the coexistence of submerged vegetation and a 3D gravel pool. This pool featured entrance and exit slopes measuring 3 and 2.5°, respectively. Our experimental setup took place in a straight flume, measuring 14 m in length, 0.9 m in width, and 0.6 m in depth. The flume was equipped with transparent side walls to facilitate observations. Furthermore, our investigation extended to the spatial variations in velocity and turbulence distributions. We analyzed various parameters including turbulence kinetic energy, integral turbulence lengths, dispersion coefficients, and advective transport. The results revealed that integral length scales offer key insights into turbulent eddy behavior. In the presence of vegetation and a 3D bedform, turbulent eddies undergo notable changes, flattening in the longitudinal direction and expanding in the transverse and vertical directions. Moreover, longitudinal advection is notably higher compared to flows without vegetation in a uniform flow or bare channel, especially for z/H > 0.2. This indicates that the presence of vegetation and a 3D bedform leads to an increase in turbulent kinetic energy (k values) that surpasses the reduction in the time‐averaged velocity component (“U”) in the U × k term, thereby enhancing longitudinal advection.

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Submerged rigid vegetation effects on flow hydrodynamics within the pool morphology

Nosrati,

Afzalimehr,

Raeisifar

et al. 2024

River

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show abstract

Fluvial flooding and plastic pollution – The delivery of potential human pathogenic bacteria into agricultural fields

Pow,

Fellows,

White

et al. 2025

Environmental Pollution

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Transport of Floating Plastics through the Fluvial Vector: The Impact of Riparian Zones

Cited by 2 publications

References 49 publications

Submerged rigid vegetation effects on flow hydrodynamics within the pool morphology

Submerged rigid vegetation effects on flow hydrodynamics within the pool morphology

Fluvial flooding and plastic pollution – The delivery of potential human pathogenic bacteria into agricultural fields

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