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Continental microplastics: Presence, features, and environmental transport pathways

The Science of The Total Environment 2021 131 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Andrés H. Arias Andrés H. Arias Andrés H. Arias María Belén Alfonso, María Belén Alfonso, María Belén Alfonso, María Belén Alfonso, María Belén Alfonso, María Belén Alfonso, María Belén Alfonso, Ana C. Ronda, María Belén Alfonso, Ana C. Ronda, Andrés H. Arias Ana C. Ronda, Ana C. Ronda, Andrés H. Arias Ana C. Ronda, María Belén Alfonso, Ana C. Ronda, Ana C. Ronda, María Belén Alfonso, Ana C. Ronda, Ana C. Ronda, Ana C. Ronda, Ana C. Ronda, Ana C. Ronda, María Belén Alfonso, Ana C. Ronda, Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Ana C. Ronda, Andrés H. Arias Ana C. Ronda, María Belén Alfonso, María Belén Alfonso, María Belén Alfonso, María Cintia Piccolo, María Belén Alfonso, Andrés H. Arias Andrés H. Arias Andrés H. Arias María Belén Alfonso, María Belén Alfonso, Ana C. Ronda, Ana C. Ronda, María Cintia Piccolo, María Belén Alfonso, Andrés H. Arias Andrés H. Arias Andrés H. Arias Ana C. Ronda, Andrés H. Arias Andrés H. Arias María Belén Alfonso, María Cintia Piccolo, María Cintia Piccolo, Ana C. Ronda, Ana C. Ronda, Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Ana C. Ronda, Andrés H. Arias María Cintia Piccolo, Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias María Cintia Piccolo, Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias Andrés H. Arias

Summary

This review mapped the known transport pathways of microplastics across continental environments — air, soil, freshwater, and marine — synthesizing evidence on how particles move between compartments and identifying key gaps in understanding long-range terrestrial transport.

Study Type Environmental

Microplastics (MPs) are ubiquitous contaminants of great concern for the environment. MPs' presence and concentration in the air, soil, marine, and freshwater environments have been reported as a matter of priority in recent years. This review addresses the current knowledge of the main pathways of MPs in air, soil, and freshwater reservoirs in order to provide an integrated understanding of their behaviors in the continental environment. Therefore, MPs' occurrence (as particle counts), sources, and how their features as shape, size, polymer composition, and density could influence their transport and final sink were discussed. Wind resuspension and atmospheric fallout, groundwater migration, runoff from catchments, and water flow from rivers and effluents were pointed as the principal pathways. MPs' size, shape, polymer composition, and density interact with environmental variables as soil structure and composition, precipitation, wind, relative humidity, water temperature, and salinity. Sampling designs for MPs research should further consider soil characteristics, climate variability and extreme events, time lag and grasshopper effects, morphological and hydrological features of aquatic systems, and water currents, among others. Furthermore, long-term monitoring and lab experiments are still needed to understand MPs' behavior in the environment. This information will provide a unified understanding of the continental MPs pathways, including the key main findings, knowledge gaps, and future challenges to understand this emerging contaminant.

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