Effect of nanobubbles on the mobilization of microplastics in shorelines subject to seawater infiltration
The widespread presence of microplastics (MPs) in the ocean has varying degrees of impact on ecosystems and even human health. Coastal tidal zones are crucial in controlling the movement of MPs, which are influenced by waves and tidal forces. Meanwhile, natural nanobubbles (NBs) in the ocean can aff...
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| Published in | Environmental pollution (1987) Vol. 349; p. 123950 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Elsevier Ltd
15.05.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0269-7491 1873-6424 1873-6424 |
| DOI | 10.1016/j.envpol.2024.123950 |
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| Abstract | The widespread presence of microplastics (MPs) in the ocean has varying degrees of impact on ecosystems and even human health. Coastal tidal zones are crucial in controlling the movement of MPs, which are influenced by waves and tidal forces. Meanwhile, natural nanobubbles (NBs) in the ocean can affect the hydrodynamic properties of the tidal zone. The mobilization of MPs in coastal tidal zones under the effect of NBs has been less studied. In this study, we explored natural NBs' influence on the mobilization of MPs in shorelines subject to seawater infiltration. Using glass beads as a substrate, a coastal porous environment was constructed through column experiments, and the pump-controlled water flow was used to study the transport of MPs subject to seawater movement within the substrate. The infiltration of MPs under continuous and transient conditions, as well as the upward transport induced by flood tide, were considered. The role of salinity in the interactions between NBs, MPs, and substrates was evaluated. Salinity altered the energy barriers between particles, which in turn affected the movement of MPs within the substrate. In addition, hydrophilic MPs were more likely to infiltrate within the substrate and had different movement patterns under continuous and transient flow conditions. The motion of the MPs within the substrate varied with flow rate, and NBs limited the vertical movement of MPs in the tidal zone. It was also observed that NBs adsorbed readily onto substrates, altering the surface properties of substrates, particularly their ability to attach and detach from other substances.
[Display omitted]
•The motion of the microplastics within the substrate varied with the flow pattern.•Nanobubbles limited the infiltration of microplastics in the tidal zone.•Salinity changed the interaction energy between particles and promoted aggregation.•Hydrophilicity affected the mobilization of microplastics in the substrate.•Nanobubbles attached to the substrates, thus changing their surface properties. |
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| AbstractList | The widespread presence of microplastics (MPs) in the ocean has varying degrees of impact on ecosystems and even human health. Coastal tidal zones are crucial in controlling the movement of MPs, which are influenced by waves and tidal forces. Meanwhile, natural nanobubbles (NBs) in the ocean can affect the hydrodynamic properties of the tidal zone. The mobilization of MPs in coastal tidal zones under the effect of NBs has been less studied. In this study, we explored natural NBs' influence on the mobilization of MPs in shorelines subject to seawater infiltration. Using glass beads as a substrate, a coastal porous environment was constructed through column experiments, and the pump-controlled water flow was used to study the transport of MPs subject to seawater movement within the substrate. The infiltration of MPs under continuous and transient conditions, as well as the upward transport induced by flood tide, were considered. The role of salinity in the interactions between NBs, MPs, and substrates was evaluated. Salinity altered the energy barriers between particles, which in turn affected the movement of MPs within the substrate. In addition, hydrophilic MPs were more likely to infiltrate within the substrate and had different movement patterns under continuous and transient flow conditions. The motion of the MPs within the substrate varied with flow rate, and NBs limited the vertical movement of MPs in the tidal zone. It was also observed that NBs adsorbed readily onto substrates, altering the surface properties of substrates, particularly their ability to attach and detach from other substances. The widespread presence of microplastics (MPs) in the ocean has varying degrees of impact on ecosystems and even human health. Coastal tidal zones are crucial in controlling the movement of MPs, which are influenced by waves and tidal forces. Meanwhile, natural nanobubbles (NBs) in the ocean can affect the hydrodynamic properties of the tidal zone. The mobilization of MPs in coastal tidal zones under the effect of NBs has been less studied. In this study, we explored natural NBs' influence on the mobilization of MPs in shorelines subject to seawater infiltration. Using glass beads as a substrate, a coastal porous environment was constructed through column experiments, and the pump-controlled water flow was used to study the transport of MPs subject to seawater movement within the substrate. The infiltration of MPs under continuous and transient conditions, as well as the upward transport induced by flood tide, were considered. The role of salinity in the interactions between NBs, MPs, and substrates was evaluated. Salinity altered the energy barriers between particles, which in turn affected the movement of MPs within the substrate. In addition, hydrophilic MPs were more likely to infiltrate within the substrate and had different movement patterns under continuous and transient flow conditions. The motion of the MPs within the substrate varied with flow rate, and NBs limited the vertical movement of MPs in the tidal zone. It was also observed that NBs adsorbed readily onto substrates, altering the surface properties of substrates, particularly their ability to attach and detach from other substances.The widespread presence of microplastics (MPs) in the ocean has varying degrees of impact on ecosystems and even human health. Coastal tidal zones are crucial in controlling the movement of MPs, which are influenced by waves and tidal forces. Meanwhile, natural nanobubbles (NBs) in the ocean can affect the hydrodynamic properties of the tidal zone. The mobilization of MPs in coastal tidal zones under the effect of NBs has been less studied. In this study, we explored natural NBs' influence on the mobilization of MPs in shorelines subject to seawater infiltration. Using glass beads as a substrate, a coastal porous environment was constructed through column experiments, and the pump-controlled water flow was used to study the transport of MPs subject to seawater movement within the substrate. The infiltration of MPs under continuous and transient conditions, as well as the upward transport induced by flood tide, were considered. The role of salinity in the interactions between NBs, MPs, and substrates was evaluated. Salinity altered the energy barriers between particles, which in turn affected the movement of MPs within the substrate. In addition, hydrophilic MPs were more likely to infiltrate within the substrate and had different movement patterns under continuous and transient flow conditions. The motion of the MPs within the substrate varied with flow rate, and NBs limited the vertical movement of MPs in the tidal zone. It was also observed that NBs adsorbed readily onto substrates, altering the surface properties of substrates, particularly their ability to attach and detach from other substances. The widespread presence of microplastics (MPs) in the ocean has varying degrees of impact on ecosystems and even human health. Coastal tidal zones are crucial in controlling the movement of MPs, which are influenced by waves and tidal forces. Meanwhile, natural nanobubbles (NBs) in the ocean can affect the hydrodynamic properties of the tidal zone. The mobilization of MPs in coastal tidal zones under the effect of NBs has been less studied. In this study, we explored natural NBs' influence on the mobilization of MPs in shorelines subject to seawater infiltration. Using glass beads as a substrate, a coastal porous environment was constructed through column experiments, and the pump-controlled water flow was used to study the transport of MPs subject to seawater movement within the substrate. The infiltration of MPs under continuous and transient conditions, as well as the upward transport induced by flood tide, were considered. The role of salinity in the interactions between NBs, MPs, and substrates was evaluated. Salinity altered the energy barriers between particles, which in turn affected the movement of MPs within the substrate. In addition, hydrophilic MPs were more likely to infiltrate within the substrate and had different movement patterns under continuous and transient flow conditions. The motion of the MPs within the substrate varied with flow rate, and NBs limited the vertical movement of MPs in the tidal zone. It was also observed that NBs adsorbed readily onto substrates, altering the surface properties of substrates, particularly their ability to attach and detach from other substances. [Display omitted] •The motion of the microplastics within the substrate varied with the flow pattern.•Nanobubbles limited the infiltration of microplastics in the tidal zone.•Salinity changed the interaction energy between particles and promoted aggregation.•Hydrophilicity affected the mobilization of microplastics in the substrate.•Nanobubbles attached to the substrates, thus changing their surface properties. |
| ArticleNumber | 123950 |
| Author | Feng, Qi Chen, Zhikun An, Chunjiang Wang, Zheng Lee, Kenneth |
| Author_xml | – sequence: 1 givenname: Zheng orcidid: 0000-0003-1075-2778 surname: Wang fullname: Wang, Zheng organization: Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, H3G 1M8, Canada – sequence: 2 givenname: Kenneth orcidid: 0000-0002-9538-3942 surname: Lee fullname: Lee, Kenneth organization: Fisheries and Oceans Canada, Ecosystem Science, Ottawa, K1A 0E6, Canada – sequence: 3 givenname: Qi surname: Feng fullname: Feng, Qi organization: Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, H3G 1M8, Canada – sequence: 4 givenname: Chunjiang orcidid: 0000-0002-7350-2365 surname: An fullname: An, Chunjiang email: chunjiang.an@concordia.ca organization: Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, H3G 1M8, Canada – sequence: 5 givenname: Zhikun surname: Chen fullname: Chen, Zhikun organization: Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, H3G 1M8, Canada |
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| Keywords | Mobilization Nanobubbles Microplastics Column experiments Tidal zone |
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| SubjectTerms | Column experiments energy Environmental Monitoring glass human health hydrodynamics hydrophilicity Microplastics Mobilization Nanobubbles pollution Salinity seawater Seawater - chemistry Tidal zone tides transient flow Water Movements Water Pollutants, Chemical |
| Title | Effect of nanobubbles on the mobilization of microplastics in shorelines subject to seawater infiltration |
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