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Applications of mathematical modelling for assessing microplastic transport and fate in water environments: a comparative review

微塑料 优势和劣势 环境科学 生化工程 计算机科学 过程(计算) 工程类 生态学 生物 认识论 操作系统 哲学
作者
Tyrone Moodley,Taher Abunama,Sheena Kumari,Isaac Dennis Amoah,Mohammed Seyam
出处
期刊:Environmental Monitoring and Assessment [Springer Science+Business Media]
卷期号:196 (7): 667-667 被引量:22
标识
DOI:10.1007/s10661-024-12731-x
摘要

Abstract Microplastics in the environment are considered complex pollutants as they are chemical and corrosive-resistant, non-biodegradable and ubiquitous. These microplastics may act as vectors for the dissemination of other pollutants and the transmission of microorganisms into the water environment. The currently available literature reviews focus on analysing the occurrence, environmental effects and methods of microplastic detection, however lacking a wide-scale systematic review and classification of the mathematical microplastic modelling applications. Thus, the current review provides a global overview of the modelling methodologies used for microplastic transport and fate in water environments. This review consolidates, classifies and analyses the methods, model inputs and results of 61 microplastic modelling studies in the last decade (2012–2022). It thoroughly discusses their strengths, weaknesses and common gaps in their modelling framework. Five main modelling types were classified as follows: hydrodynamic, process-based, statistical, mass-balance and machine learning models. Further, categorisations based on the water environments, location and published year of these applications were also adopted. It is concluded that addressed modelling types resulted in relatively reliable outcomes, yet each modelling framework has its strengths and weaknesses. However, common issues were found such as inputs being unrealistically assumed, especially biological processes, and the lack of sufficient field data for model calibration and validation. For future research, it is recommended to incorporate macroplastics’ degradation rates, particles of different shapes and sizes and vertical mixing due to biofouling and turbulent conditions and also more experimental data to obtain precise model inputs and standardised sampling methods for surface and column waters.
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