Global inventory of atmospheric fibrous microplastics input into the ocean: An implication from the indoor origin

Kai Liu; Xiaohui Wang; Zhangyu Song; Nian Wei; Haoda Ye; Xin Cong; Longwei Zhao; You Li; Liming Qu; Lixin Zhu; Feng Zhang; Changxing Zong; Chunhua Jiang; Daoji Li

doi:10.1016/j.jhazmat.2020.123223

Global inventory of atmospheric fibrous microplastics input into the ocean: An implication from the indoor origin

Kai Liu
, Xiaohui Wang
, Zhangyu Song
, Nian Wei
, Haoda Ye
, Xin Cong
, Longwei Zhao
, You Li
, Liming Qu
, Lixin Zhu
, Feng Zhang
, Changxing Zong
, Chunhua Jiang
, Daoji Li^*

^*此作品的通讯作者

河口海岸科学研究院

East China Normal University
Intergovernmental Oceanography Commission-United Nations Educational Scientific and Cultural Organization
Zhejiang Ocean University
Tongji University
Hebei Bureau of Geology and Mineral Resources Exploration
Jiangsu Ocean University
Xiamen University

科研成果: 期刊稿件 › 文章 › 同行评审

108 引用（Scopus）

摘要

Atmospheric transport could be a significant pathway for inland microplastics (MPs, with size＜5 mm) to the ocean in addition to catchment runoff and coastal discharge. However, atmospheric input of MPs to the ocean is rarely quantified. To address this issue, transport of atmospheric MPs from source to sink was studied in the Asia-Pacific region during nine cruises from October 2018 to September 2019. Both deposited atmospheric MPs (DAMPs) and suspended atmospheric MPs (SAMPs) were collected, ranging from 23.04 n/(m²·d) to 67.54 n/(m²·d), and 0 to 1.37 n/m³, respectively. Size composition revealed that atmospheric deposition of MPs originating in terrestrial regions seems inadequate and insufficient to quantify the atmospheric input to the ocean. In addition, combined with aerodynamic modelling, for the first time, we estimated that 7.64–33.76 t of fibrous atmospheric MPs was globally generated in 2018, which is 3 % and 31 % of riverine input MPs of The Yangtze River and The Pearl River in terms of mid-point mass, respectively. The increasing load of ingestible plastics from sea air could have a far-reaching impact on marine ecosystem.

源语言	英语
文章编号	123223
期刊	Journal of Hazardous Materials
卷	400
DOI	https://doi.org/10.1016/j.jhazmat.2020.123223
出版状态	已出版 - 5 12月 2020

联合国可持续发展目标

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可持续发展目标 14 水下生物
可持续发展目标 15 陆地生物

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10.1016/j.jhazmat.2020.123223

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@article{91ef58e8ffbe462da863c85da372ea1f,

title = "Global inventory of atmospheric fibrous microplastics input into the ocean: An implication from the indoor origin",

abstract = "Atmospheric transport could be a significant pathway for inland microplastics (MPs, with size＜5 mm) to the ocean in addition to catchment runoff and coastal discharge. However, atmospheric input of MPs to the ocean is rarely quantified. To address this issue, transport of atmospheric MPs from source to sink was studied in the Asia-Pacific region during nine cruises from October 2018 to September 2019. Both deposited atmospheric MPs (DAMPs) and suspended atmospheric MPs (SAMPs) were collected, ranging from 23.04 n/(m2·d) to 67.54 n/(m2·d), and 0 to 1.37 n/m3, respectively. Size composition revealed that atmospheric deposition of MPs originating in terrestrial regions seems inadequate and insufficient to quantify the atmospheric input to the ocean. In addition, combined with aerodynamic modelling, for the first time, we estimated that 7.64–33.76 t of fibrous atmospheric MPs was globally generated in 2018, which is 3 \% and 31 \% of riverine input MPs of The Yangtze River and The Pearl River in terms of mid-point mass, respectively. The increasing load of ingestible plastics from sea air could have a far-reaching impact on marine ecosystem.",

keywords = "Atmosphere, Ecology, Microplastics, Ocean, Transport",

author = "Kai Liu and Xiaohui Wang and Zhangyu Song and Nian Wei and Haoda Ye and Xin Cong and Longwei Zhao and You Li and Liming Qu and Lixin Zhu and Feng Zhang and Changxing Zong and Chunhua Jiang and Daoji Li",

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T1 - Global inventory of atmospheric fibrous microplastics input into the ocean

T2 - An implication from the indoor origin

AU - Liu, Kai

AU - Wang, Xiaohui

AU - Song, Zhangyu

AU - Wei, Nian

AU - Ye, Haoda

AU - Cong, Xin

AU - Zhao, Longwei

AU - Li, You

AU - Qu, Liming

AU - Zhu, Lixin

AU - Zhang, Feng

AU - Zong, Changxing

AU - Jiang, Chunhua

AU - Li, Daoji

PY - 2020/12/5

Y1 - 2020/12/5

N2 - Atmospheric transport could be a significant pathway for inland microplastics (MPs, with size＜5 mm) to the ocean in addition to catchment runoff and coastal discharge. However, atmospheric input of MPs to the ocean is rarely quantified. To address this issue, transport of atmospheric MPs from source to sink was studied in the Asia-Pacific region during nine cruises from October 2018 to September 2019. Both deposited atmospheric MPs (DAMPs) and suspended atmospheric MPs (SAMPs) were collected, ranging from 23.04 n/(m2·d) to 67.54 n/(m2·d), and 0 to 1.37 n/m3, respectively. Size composition revealed that atmospheric deposition of MPs originating in terrestrial regions seems inadequate and insufficient to quantify the atmospheric input to the ocean. In addition, combined with aerodynamic modelling, for the first time, we estimated that 7.64–33.76 t of fibrous atmospheric MPs was globally generated in 2018, which is 3 % and 31 % of riverine input MPs of The Yangtze River and The Pearl River in terms of mid-point mass, respectively. The increasing load of ingestible plastics from sea air could have a far-reaching impact on marine ecosystem.

AB - Atmospheric transport could be a significant pathway for inland microplastics (MPs, with size＜5 mm) to the ocean in addition to catchment runoff and coastal discharge. However, atmospheric input of MPs to the ocean is rarely quantified. To address this issue, transport of atmospheric MPs from source to sink was studied in the Asia-Pacific region during nine cruises from October 2018 to September 2019. Both deposited atmospheric MPs (DAMPs) and suspended atmospheric MPs (SAMPs) were collected, ranging from 23.04 n/(m2·d) to 67.54 n/(m2·d), and 0 to 1.37 n/m3, respectively. Size composition revealed that atmospheric deposition of MPs originating in terrestrial regions seems inadequate and insufficient to quantify the atmospheric input to the ocean. In addition, combined with aerodynamic modelling, for the first time, we estimated that 7.64–33.76 t of fibrous atmospheric MPs was globally generated in 2018, which is 3 % and 31 % of riverine input MPs of The Yangtze River and The Pearl River in terms of mid-point mass, respectively. The increasing load of ingestible plastics from sea air could have a far-reaching impact on marine ecosystem.

KW - Atmosphere

KW - Ecology

KW - Microplastics

KW - Ocean

KW - Transport

UR - https://www.scopus.com/pages/publications/85087064448

U2 - 10.1016/j.jhazmat.2020.123223

DO - 10.1016/j.jhazmat.2020.123223

M3 - 文章

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AN - SCOPUS:85087064448

SN - 0304-3894

VL - 400

JO - Journal of Hazardous Materials

JF - Journal of Hazardous Materials

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ER -

Global inventory of atmospheric fibrous microplastics input into the ocean: An implication from the indoor origin

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