Microplastics in bulk atmospheric deposition along the coastal region of Victoria Land, Antarctica

The increasing global concern over microplastic pollution has driven a surge in research efforts aimed at detecting microplastics across various ecosystems. Airborne microplastics (MPs) have been identified in remote environments worldwide, including Antarctica. However, data on bulk atmospheric dep...

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Veröffentlicht in:	The Science of the total environment 2024-11, Vol.949, p.175221, Article 175221
Hauptverfasser:	Illuminati, Silvia, Notarstefano, Valentina, Tinari, Chiara, Fanelli, Matteo, Girolametti, Federico, Ajdini, Behixhe, Scarchilli, C., Ciardini, V., Iaccarino, A., Giorgini, E., Annibaldi, A., Truzzi, C.
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Sprache:	eng
Schlagworte:	Air-mass backtrajectories Antarctic region Antarctica atmospheric deposition Bulk sampler class coasts environment environmental impact glaciers Microplastics pollution polyethylene polyethylene terephthalates polypropylenes polystyrenes Raman Microspectroscopy Raman spectroscopy styrene weather
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creator	Illuminati, Silvia Notarstefano, Valentina Tinari, Chiara Fanelli, Matteo Girolametti, Federico Ajdini, Behixhe Scarchilli, C. Ciardini, V. Iaccarino, A. Giorgini, E. Annibaldi, A. Truzzi, C.
description	The increasing global concern over microplastic pollution has driven a surge in research efforts aimed at detecting microplastics across various ecosystems. Airborne microplastics (MPs) have been identified in remote environments worldwide, including Antarctica. However, data on bulk atmospheric deposition remain scarce. From January to December 2020, atmospheric deposition was directly collected using passive samplers placed in eight sites across Victoria Land. Using Raman Microspectroscopy, MPs were identified in six out of the seven samples collected (one sample was lost due to the extreme weather conditions). The average daily MP deposition for Victoria Land was 1.7 ± 1.1 MPs m−2 d−1, with values ranging from 0.76 to 3.44 MPs m−2 d−1. The majority (53 %) of MPs found in the atmospheric deposition were in the size class of 5–10 μm, and the main shape of MPs was fragments (95 %). The predominant plastic type was polypropylene (31 %), followed by polyethylene (19 %) and polycarbonate (12 %). Polystyrene, polyester, styrene and polyethylene terephthalate each accounted for ~6 %. Microplastics identified in the coastal sites may have local origins, potentially associated with scientific activities at research stations. Conversely, a backward trajectories analysis suggested a potential contribution of atmospheric transport to microplastic deposition at Larsen Glacier and Tourmaline Plateau, the two most remote sites of the study area, where the highest MP concentrations were detected. Our findings present the first evidence of microplastics in the Antarctic atmospheric deposition directly collected via passive samplers, highlighting the need for continued monitoring and research to assess the environmental impact of MPs, particularly in sensitive and remote ecosystems like Antarctica. [Display omitted] •Atmospheric deposition of about 1.7 MP m−2 d−1 was measured in Victoria Land•Fragments were the most common morphotype identified.•PP and PE were the dominant polymer types.•Coastal sites were strongly affected by local anthropogenic activities.
doi_str_mv	10.1016/j.scitotenv.2024.175221
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Airborne microplastics (MPs) have been identified in remote environments worldwide, including Antarctica. However, data on bulk atmospheric deposition remain scarce. From January to December 2020, atmospheric deposition was directly collected using passive samplers placed in eight sites across Victoria Land. Using Raman Microspectroscopy, MPs were identified in six out of the seven samples collected (one sample was lost due to the extreme weather conditions). The average daily MP deposition for Victoria Land was 1.7 ± 1.1 MPs m−2 d−1, with values ranging from 0.76 to 3.44 MPs m−2 d−1. The majority (53 %) of MPs found in the atmospheric deposition were in the size class of 5–10 μm, and the main shape of MPs was fragments (95 %). The predominant plastic type was polypropylene (31 %), followed by polyethylene (19 %) and polycarbonate (12 %). Polystyrene, polyester, styrene and polyethylene terephthalate each accounted for ~6 %. Microplastics identified in the coastal sites may have local origins, potentially associated with scientific activities at research stations. Conversely, a backward trajectories analysis suggested a potential contribution of atmospheric transport to microplastic deposition at Larsen Glacier and Tourmaline Plateau, the two most remote sites of the study area, where the highest MP concentrations were detected. Our findings present the first evidence of microplastics in the Antarctic atmospheric deposition directly collected via passive samplers, highlighting the need for continued monitoring and research to assess the environmental impact of MPs, particularly in sensitive and remote ecosystems like Antarctica. [Display omitted] •Atmospheric deposition of about 1.7 MP m−2 d−1 was measured in Victoria Land•Fragments were the most common morphotype identified.•PP and PE were the dominant polymer types.•Coastal sites were strongly affected by local anthropogenic activities.</description><identifier>ISSN: 0048-9697</identifier><identifier>ISSN: 1879-1026</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2024.175221</identifier><identifier>PMID: 39097013</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Air-mass backtrajectories ; Antarctic region ; Antarctica ; atmospheric deposition ; Bulk sampler ; class ; coasts ; environment ; environmental impact ; glaciers ; Microplastics ; pollution ; polyethylene ; polyethylene terephthalates ; polypropylenes ; polystyrenes ; Raman Microspectroscopy ; Raman spectroscopy ; styrene ; weather</subject><ispartof>The Science of the total environment, 2024-11, Vol.949, p.175221, Article 175221</ispartof><rights>2024 The Authors</rights><rights>Copyright © 2024 The Authors. 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Airborne microplastics (MPs) have been identified in remote environments worldwide, including Antarctica. However, data on bulk atmospheric deposition remain scarce. From January to December 2020, atmospheric deposition was directly collected using passive samplers placed in eight sites across Victoria Land. Using Raman Microspectroscopy, MPs were identified in six out of the seven samples collected (one sample was lost due to the extreme weather conditions). The average daily MP deposition for Victoria Land was 1.7 ± 1.1 MPs m−2 d−1, with values ranging from 0.76 to 3.44 MPs m−2 d−1. The majority (53 %) of MPs found in the atmospheric deposition were in the size class of 5–10 μm, and the main shape of MPs was fragments (95 %). The predominant plastic type was polypropylene (31 %), followed by polyethylene (19 %) and polycarbonate (12 %). Polystyrene, polyester, styrene and polyethylene terephthalate each accounted for ~6 %. Microplastics identified in the coastal sites may have local origins, potentially associated with scientific activities at research stations. Conversely, a backward trajectories analysis suggested a potential contribution of atmospheric transport to microplastic deposition at Larsen Glacier and Tourmaline Plateau, the two most remote sites of the study area, where the highest MP concentrations were detected. Our findings present the first evidence of microplastics in the Antarctic atmospheric deposition directly collected via passive samplers, highlighting the need for continued monitoring and research to assess the environmental impact of MPs, particularly in sensitive and remote ecosystems like Antarctica. [Display omitted] •Atmospheric deposition of about 1.7 MP m−2 d−1 was measured in Victoria Land•Fragments were the most common morphotype identified.•PP and PE were the dominant polymer types.•Coastal sites were strongly affected by local anthropogenic activities.</description><subject>Air-mass backtrajectories</subject><subject>Antarctic region</subject><subject>Antarctica</subject><subject>atmospheric deposition</subject><subject>Bulk sampler</subject><subject>class</subject><subject>coasts</subject><subject>environment</subject><subject>environmental impact</subject><subject>glaciers</subject><subject>Microplastics</subject><subject>pollution</subject><subject>polyethylene</subject><subject>polyethylene terephthalates</subject><subject>polypropylenes</subject><subject>polystyrenes</subject><subject>Raman Microspectroscopy</subject><subject>Raman spectroscopy</subject><subject>styrene</subject><subject>weather</subject><issn>0048-9697</issn><issn>1879-1026</issn><issn>1879-1026</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNqFUctu2zAQJIoGjZP2F1oee6gcviSKRyNIH4CLXtJeiSW5TujKokrSAfr3keAk1-xlgd2Z2cUMIZ84W3PGu6v9uvhYU8XxYS2YUGuuWyH4G7LivTYNZ6J7S1aMqb4xndHn5KKUPZtL9_wdOZeGGc24XBH3M_qcpgFKjb7QOFJ3HP5SqIdUpnvM0dOAUyqxxjRSGNJ4R-s9Up9mBgw0492ySDv6J_qacgS6hTF8oZuxQvazKLwnZzsYCn546pfk99eb2-vvzfbXtx_Xm23jpTG1gVYHY4xQARQ4EMHxVjsMSrfOAA-qAymdMhJ2y_vAWtY7r7XuOmXMPL8kn0-6U07_jliqPcTicRhgxHQsVvJWaqG07l-Hsl53phdyUdUn6GxTKRl3dsrxAPm_5cwuWdi9fcnCLlnYUxYz8-PTkaM7YHjhPZs_AzYnAM6uPETMixCOHkPM6KsNKb565BGh659x</recordid><startdate>20241101</startdate><enddate>20241101</enddate><creator>Illuminati, Silvia</creator><creator>Notarstefano, Valentina</creator><creator>Tinari, Chiara</creator><creator>Fanelli, Matteo</creator><creator>Girolametti, Federico</creator><creator>Ajdini, Behixhe</creator><creator>Scarchilli, C.</creator><creator>Ciardini, V.</creator><creator>Iaccarino, A.</creator><creator>Giorgini, E.</creator><creator>Annibaldi, A.</creator><creator>Truzzi, C.</creator><general>Elsevier B.V</general><scope>6I.</scope><scope>AAFTH</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>7S9</scope><scope>L.6</scope></search><sort><creationdate>20241101</creationdate><title>Microplastics in bulk atmospheric deposition along the coastal region of Victoria Land, Antarctica</title><author>Illuminati, Silvia ; Notarstefano, Valentina ; Tinari, Chiara ; Fanelli, Matteo ; Girolametti, Federico ; Ajdini, Behixhe ; Scarchilli, C. ; Ciardini, V. ; Iaccarino, A. ; Giorgini, E. ; Annibaldi, A. ; Truzzi, C.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c399t-a57d99924da4aba2db157bed475b9a1d46a33b493af3909a0508bc77766499493</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Air-mass backtrajectories</topic><topic>Antarctic region</topic><topic>Antarctica</topic><topic>atmospheric deposition</topic><topic>Bulk sampler</topic><topic>class</topic><topic>coasts</topic><topic>environment</topic><topic>environmental impact</topic><topic>glaciers</topic><topic>Microplastics</topic><topic>pollution</topic><topic>polyethylene</topic><topic>polyethylene terephthalates</topic><topic>polypropylenes</topic><topic>polystyrenes</topic><topic>Raman Microspectroscopy</topic><topic>Raman spectroscopy</topic><topic>styrene</topic><topic>weather</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Illuminati, Silvia</creatorcontrib><creatorcontrib>Notarstefano, Valentina</creatorcontrib><creatorcontrib>Tinari, Chiara</creatorcontrib><creatorcontrib>Fanelli, Matteo</creatorcontrib><creatorcontrib>Girolametti, Federico</creatorcontrib><creatorcontrib>Ajdini, Behixhe</creatorcontrib><creatorcontrib>Scarchilli, C.</creatorcontrib><creatorcontrib>Ciardini, V.</creatorcontrib><creatorcontrib>Iaccarino, A.</creatorcontrib><creatorcontrib>Giorgini, E.</creatorcontrib><creatorcontrib>Annibaldi, A.</creatorcontrib><creatorcontrib>Truzzi, C.</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>AGRICOLA</collection><collection>AGRICOLA - Academic</collection><jtitle>The Science of the total environment</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Illuminati, Silvia</au><au>Notarstefano, Valentina</au><au>Tinari, Chiara</au><au>Fanelli, Matteo</au><au>Girolametti, Federico</au><au>Ajdini, Behixhe</au><au>Scarchilli, C.</au><au>Ciardini, V.</au><au>Iaccarino, A.</au><au>Giorgini, E.</au><au>Annibaldi, A.</au><au>Truzzi, C.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Microplastics in bulk atmospheric deposition along the coastal region of Victoria Land, Antarctica</atitle><jtitle>The Science of the total environment</jtitle><addtitle>Sci Total Environ</addtitle><date>2024-11-01</date><risdate>2024</risdate><volume>949</volume><spage>175221</spage><pages>175221-</pages><artnum>175221</artnum><issn>0048-9697</issn><issn>1879-1026</issn><eissn>1879-1026</eissn><abstract>The increasing global concern over microplastic pollution has driven a surge in research efforts aimed at detecting microplastics across various ecosystems. Airborne microplastics (MPs) have been identified in remote environments worldwide, including Antarctica. However, data on bulk atmospheric deposition remain scarce. From January to December 2020, atmospheric deposition was directly collected using passive samplers placed in eight sites across Victoria Land. Using Raman Microspectroscopy, MPs were identified in six out of the seven samples collected (one sample was lost due to the extreme weather conditions). The average daily MP deposition for Victoria Land was 1.7 ± 1.1 MPs m−2 d−1, with values ranging from 0.76 to 3.44 MPs m−2 d−1. The majority (53 %) of MPs found in the atmospheric deposition were in the size class of 5–10 μm, and the main shape of MPs was fragments (95 %). The predominant plastic type was polypropylene (31 %), followed by polyethylene (19 %) and polycarbonate (12 %). Polystyrene, polyester, styrene and polyethylene terephthalate each accounted for ~6 %. Microplastics identified in the coastal sites may have local origins, potentially associated with scientific activities at research stations. Conversely, a backward trajectories analysis suggested a potential contribution of atmospheric transport to microplastic deposition at Larsen Glacier and Tourmaline Plateau, the two most remote sites of the study area, where the highest MP concentrations were detected. Our findings present the first evidence of microplastics in the Antarctic atmospheric deposition directly collected via passive samplers, highlighting the need for continued monitoring and research to assess the environmental impact of MPs, particularly in sensitive and remote ecosystems like Antarctica. [Display omitted] •Atmospheric deposition of about 1.7 MP m−2 d−1 was measured in Victoria Land•Fragments were the most common morphotype identified.•PP and PE were the dominant polymer types.•Coastal sites were strongly affected by local anthropogenic activities.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>39097013</pmid><doi>10.1016/j.scitotenv.2024.175221</doi><oa>free_for_read</oa></addata></record>
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subjects	Air-mass backtrajectories Antarctic region Antarctica atmospheric deposition Bulk sampler class coasts environment environmental impact glaciers Microplastics pollution polyethylene polyethylene terephthalates polypropylenes polystyrenes Raman Microspectroscopy Raman spectroscopy styrene weather
title	Microplastics in bulk atmospheric deposition along the coastal region of Victoria Land, Antarctica
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