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Microplastic particles resuspensions in bare soils and global atmospheric transport

2024 Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Silvia Bucci, Silvia Bucci, Silvia Bucci, Silvia Bucci, Silvia Bucci, Silvia Bucci, Daria Tatsii, Silvia Bucci, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Daria Tatsii, Silvia Bucci, Silvia Bucci, Silvia Bucci, Silvia Bucci, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Daria Tatsii, Daria Tatsii, Silvia Bucci, Silvia Bucci, Ioanna Evangelou, Ioanna Evangelou, Ioanna Evangelou, Silvia Bucci, Ioanna Evangelou, Silvia Bucci, Ioanna Evangelou, Silvia Bucci, Silvia Bucci, Ioanna Evangelou, A. Stohl A. Stohl A. Stohl Silvia Bucci, A. Stohl A. Stohl Silvia Bucci, A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl Silvia Bucci, A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl Silvia Bucci, Silvia Bucci, A. Stohl A. Stohl A. Stohl A. Stohl A. Stohl Silvia Bucci, Silvia Bucci, Silvia Bucci, Silvia Bucci, A. Stohl A. Stohl A. Stohl A. Stohl

Summary

Researchers estimated global atmospheric transport of microplastics resuspended from bare soils using the FLEXPART dispersion model and FLEXDUST dust emission scheme, simulating transport of spheres and fibers across a range of sizes via Monte Carlo analysis to quantify secondary microplastic sources and their global distribution.

Study Type Environmental

Microplastics (MPs), which are synthetic polymer particles with sizes from 1 &#181;m to 1 mm, are considered as an emerging pollutant. It has been proposed that the atmosphere has a significant role in the transport of MPs. Atmospheric MPs can originate from primary sources, such as population activities, or secondary sources, like the ocean and soils.In this study, we estimate the secondary MPs that are resuspended in bare soils together with mineral dust, using measurements of MP soil mass fractions, the MP enrichment in wind-eroded sediments relative to the original soil, and spatiotemporally resolved dust emissions calculated with the dust mobilization scheme FLEXDUST (Groot Zwaaftink et al., 2016). Using the Lagrangian atmospheric dispersion model FLEXPART (Pisso et al., 2019), we simulate the global transport of resuspended MPs for a range of sizes and morphologies (spheres, fibers) based on our estimated emissions. We perform a ten-thousand-member Monte Carlo (MC) simulation in which the parameters affecting the resuspensions are perturbed, and an extended MC by varying further the assumed MP size distributions to estimate the resuspension and transport uncertainties, respectively.

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