Global atmospheric distribution of microplastics with evidence of low oceanic emissions

Shanye Yang; Guy Brasseur; Stacy Walters; Pablo Lichtig; Cathy W.Y. Li

doi:10.1038/s41612-025-00914-3

Global atmospheric distribution of microplastics with evidence of low oceanic emissions

Shanye Yang, Guy Brasseur, Stacy Walters, Pablo Lichtig, Cathy W.Y. Li

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Recent investigations based on sea–air transfer physical mechanistic studies suggest that the global ocean’s contribution to atmospheric microplastic emissions is significantly lower (four orders of magnitude) than previously estimated. However, no atmospheric models or observations have yet validated this lower emission flux, leaving the analysis without adequate validation and practical significance. Here, we provide quantitative estimates of the global atmospheric microplastic budget based on this reduced oceanic flux. Our model aligns well with observed atmospheric microplastic concentrations and suggests that the ocean functions more as a sink than a source, contributing only ~0.008% of global emissions but accounting for ~15% of total deposition. This challenges the previous view of the ocean as the primary atmospheric microplastic source, urging a reassessment of pollution mitigation strategies.

Original language	English
Article number	81
Journal	npj Climate and Atmospheric Science
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41612-025-00914-3
State	Published - Dec 2025
Externally published	Yes

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title = "Global atmospheric distribution of microplastics with evidence of low oceanic emissions",

abstract = "Recent investigations based on sea–air transfer physical mechanistic studies suggest that the global ocean{\textquoteright}s contribution to atmospheric microplastic emissions is significantly lower (four orders of magnitude) than previously estimated. However, no atmospheric models or observations have yet validated this lower emission flux, leaving the analysis without adequate validation and practical significance. Here, we provide quantitative estimates of the global atmospheric microplastic budget based on this reduced oceanic flux. Our model aligns well with observed atmospheric microplastic concentrations and suggests that the ocean functions more as a sink than a source, contributing only \textasciitilde{}0.008\% of global emissions but accounting for \textasciitilde{}15\% of total deposition. This challenges the previous view of the ocean as the primary atmospheric microplastic source, urging a reassessment of pollution mitigation strategies.",

author = "Shanye Yang and Guy Brasseur and Stacy Walters and Pablo Lichtig and Li, \{Cathy W.Y.\}",

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doi = "10.1038/s41612-025-00914-3",

language = "English",

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T1 - Global atmospheric distribution of microplastics with evidence of low oceanic emissions

AU - Yang, Shanye

AU - Brasseur, Guy

AU - Walters, Stacy

AU - Lichtig, Pablo

AU - Li, Cathy W.Y.

PY - 2025/12

Y1 - 2025/12

N2 - Recent investigations based on sea–air transfer physical mechanistic studies suggest that the global ocean’s contribution to atmospheric microplastic emissions is significantly lower (four orders of magnitude) than previously estimated. However, no atmospheric models or observations have yet validated this lower emission flux, leaving the analysis without adequate validation and practical significance. Here, we provide quantitative estimates of the global atmospheric microplastic budget based on this reduced oceanic flux. Our model aligns well with observed atmospheric microplastic concentrations and suggests that the ocean functions more as a sink than a source, contributing only ~0.008% of global emissions but accounting for ~15% of total deposition. This challenges the previous view of the ocean as the primary atmospheric microplastic source, urging a reassessment of pollution mitigation strategies.

AB - Recent investigations based on sea–air transfer physical mechanistic studies suggest that the global ocean’s contribution to atmospheric microplastic emissions is significantly lower (four orders of magnitude) than previously estimated. However, no atmospheric models or observations have yet validated this lower emission flux, leaving the analysis without adequate validation and practical significance. Here, we provide quantitative estimates of the global atmospheric microplastic budget based on this reduced oceanic flux. Our model aligns well with observed atmospheric microplastic concentrations and suggests that the ocean functions more as a sink than a source, contributing only ~0.008% of global emissions but accounting for ~15% of total deposition. This challenges the previous view of the ocean as the primary atmospheric microplastic source, urging a reassessment of pollution mitigation strategies.

UR - https://www.scopus.com/pages/publications/85219629826

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DO - 10.1038/s41612-025-00914-3

M3 - Article

AN - SCOPUS:85219629826

SN - 2397-3722

VL - 8

JO - npj Climate and Atmospheric Science

JF - npj Climate and Atmospheric Science

IS - 1

M1 - 81

ER -

Global atmospheric distribution of microplastics with evidence of low oceanic emissions

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