
Estuaries are the main pathway for the microplastics (MPs) to enter into the oceans. However, factors that drive river-sea transport of MPs are not yet fully understood. Therefore, our research investigated the influence of the tidal cycle on the abundance and characteristics of MPs in an urban estuary, through high-frequency sampling (every 2-3 h) using a plankton net (120 μm mesh size) in two seasons (rainy and dry seasons). The results showed that the abundance of MPs decreased during the ebb tide and increased during the flood tide. A positive correlation was found between MP abundance and water height in both seasons. The shapes and colors of MPs varied significantly throughout the tidal cycle. The results show that tides are key agents in the transfer of MPs and cannot be neglected in models of the global contribution of plastic pollution from rivers to oceans.
Rivers, Microplastics, Microplastic Plastic debris; Tidal fluctuation; River-sea transport; Low-inflow estuary, Water Movements, Seawater, Seasons, Estuaries, Plastics, Water Pollutants, Chemical, Environmental Monitoring
Rivers, Microplastics, Microplastic Plastic debris; Tidal fluctuation; River-sea transport; Low-inflow estuary, Water Movements, Seawater, Seasons, Estuaries, Plastics, Water Pollutants, Chemical, Environmental Monitoring
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