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Microplastic pollution in the marine environment: Distribution factors and mitigation strategies in different oceans
Summary
This review analyzed the environmental factors affecting microplastic distribution across different ocean basins, including currents, wind patterns, and biological processes. Researchers found that the COVID-19 pandemic significantly increased plastic usage and microplastic generation worldwide. The study examines both the pathways through which microplastics reach the ocean and current mitigation strategies being developed to address marine plastic pollution.
As the COVID-19 pandemic began in 2020, plastic usage spiked, and microplastic (MP) generation has increased dramatically. It is documented that MP can transfer from the source to the ocean environment where they accumulate as the destination. Therefore, it is essential to understand their transferring pathways and effective environmental factors to determine the distribution of MPs in the marine environment. This article reviews the environmental factors that affect MP distribution in the oceans including abiotic such as ocean currents and wind direction, physical/chemical and biological reactions of MPs, natural sinking, particle size and settling velocity, and biotic including biofouling, and incorporation in fecal material. It was found that velocity and physical shearing are the most important parameters for MP accumulation in the deep ocean. Besides, this review proposes different research-based, national-level, and global-level strategies for the mitigation of MPs after the pandemic. Based on the findings, the level of MP pollution in the oceans is directly correlated to coastal areas with high populations, particularly in African and Asian countries. Future studies should focus on establishing predictive models based on the movement and distribution of MPs to mitigate the levels of pollution.
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