Nanoplastics measurements in Northern and Southern polar ice

Research output: Contribution to journalJournal articleResearchpeer-review

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Nanoplastics measurements in Northern and Southern polar ice. / Materic, Dusan; Kjaer, Helle Astrid; Vallelonga, Paul; Tison, Jean-Louis; Rockmann, Thomas; Holzinger, Rupert.

In: Environmental Research, Vol. 208, 112741, 15.05.2022.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Materic, D, Kjaer, HA, Vallelonga, P, Tison, J-L, Rockmann, T & Holzinger, R 2022, 'Nanoplastics measurements in Northern and Southern polar ice', Environmental Research, vol. 208, 112741. https://doi.org/10.1016/j.envres.2022.112741

APA

Materic, D., Kjaer, H. A., Vallelonga, P., Tison, J-L., Rockmann, T., & Holzinger, R. (2022). Nanoplastics measurements in Northern and Southern polar ice. Environmental Research, 208, [112741]. https://doi.org/10.1016/j.envres.2022.112741

Vancouver

Materic D, Kjaer HA, Vallelonga P, Tison J-L, Rockmann T, Holzinger R. Nanoplastics measurements in Northern and Southern polar ice. Environmental Research. 2022 May 15;208. 112741. https://doi.org/10.1016/j.envres.2022.112741

Author

Materic, Dusan ; Kjaer, Helle Astrid ; Vallelonga, Paul ; Tison, Jean-Louis ; Rockmann, Thomas ; Holzinger, Rupert. / Nanoplastics measurements in Northern and Southern polar ice. In: Environmental Research. 2022 ; Vol. 208.

Bibtex

@article{2314d7e1bda64a9d9401891abcf1fb27,
title = "Nanoplastics measurements in Northern and Southern polar ice",
abstract = "It has been established that various anthropogenic contaminants have already reached all the world's pristine locations, including the polar regions. While some of those contaminants, such as lead and soot, are decreasing in the environment, thanks to international regulations, other novel contaminants emerge. Plastic pollution has been shown as a durable novel pollutant, and, since recently, smaller and smaller plastics particles have been identified in various environments (air, water and soil). Considerable research already exists measuring the plastics in the 5 mm to micrometre size range (microplastics). However, far less is known about the plastics debris that fragmented to the sub-micrometre size (nanoplastics). As these small particles are light, it is expected that they have already reached the most remote places on Earth, e.g. transported across the globe by air movement. In this work, we used a novel method based on Thermal Desorption - Proton Transfer Reaction - Mass Spectrometry (TD-PTR-MS) to detect and measure nanoplastics of different types in the water sampled from a Greenland firn core (T2015-A5) and a sea ice core from Antarctica. We identify polyethylene (PE), poly-propylene (PP), polyethylene terephthalate (PET), polystyrene (PS), polyvinyl chloride (PVC), and Tire wear nanoparticles in the 14 m deep Greenland firn core and PE, PP and PET in sea ice from Antarctica. Nanoplastics mass concentrations were on average 13.2 ng/mL for Greenland firn samples and 52.3 ng/mL for Antarctic sea ice. We further discuss the possible sources of nanoplastics that we found at these remote locations, which likely involve complex processes of plastic circulation (emission from both land and sea surface, atmospheric and marine circulation).",
keywords = "Nanoplastics, Microplastics, PTR-MS, Polar regions, Greenland, Antarctic, ATMOSPHERIC FALLOUT, ORGANIC-COMPOUNDS, MICROPLASTICS, SEA, MS",
author = "Dusan Materic and Kjaer, {Helle Astrid} and Paul Vallelonga and Jean-Louis Tison and Thomas Rockmann and Rupert Holzinger",
year = "2022",
month = may,
day = "15",
doi = "10.1016/j.envres.2022.112741",
language = "English",
volume = "208",
journal = "Environmental Research",
issn = "0013-9351",
publisher = "Academic Press",

}

RIS

TY - JOUR

T1 - Nanoplastics measurements in Northern and Southern polar ice

AU - Materic, Dusan

AU - Kjaer, Helle Astrid

AU - Vallelonga, Paul

AU - Tison, Jean-Louis

AU - Rockmann, Thomas

AU - Holzinger, Rupert

PY - 2022/5/15

Y1 - 2022/5/15

N2 - It has been established that various anthropogenic contaminants have already reached all the world's pristine locations, including the polar regions. While some of those contaminants, such as lead and soot, are decreasing in the environment, thanks to international regulations, other novel contaminants emerge. Plastic pollution has been shown as a durable novel pollutant, and, since recently, smaller and smaller plastics particles have been identified in various environments (air, water and soil). Considerable research already exists measuring the plastics in the 5 mm to micrometre size range (microplastics). However, far less is known about the plastics debris that fragmented to the sub-micrometre size (nanoplastics). As these small particles are light, it is expected that they have already reached the most remote places on Earth, e.g. transported across the globe by air movement. In this work, we used a novel method based on Thermal Desorption - Proton Transfer Reaction - Mass Spectrometry (TD-PTR-MS) to detect and measure nanoplastics of different types in the water sampled from a Greenland firn core (T2015-A5) and a sea ice core from Antarctica. We identify polyethylene (PE), poly-propylene (PP), polyethylene terephthalate (PET), polystyrene (PS), polyvinyl chloride (PVC), and Tire wear nanoparticles in the 14 m deep Greenland firn core and PE, PP and PET in sea ice from Antarctica. Nanoplastics mass concentrations were on average 13.2 ng/mL for Greenland firn samples and 52.3 ng/mL for Antarctic sea ice. We further discuss the possible sources of nanoplastics that we found at these remote locations, which likely involve complex processes of plastic circulation (emission from both land and sea surface, atmospheric and marine circulation).

AB - It has been established that various anthropogenic contaminants have already reached all the world's pristine locations, including the polar regions. While some of those contaminants, such as lead and soot, are decreasing in the environment, thanks to international regulations, other novel contaminants emerge. Plastic pollution has been shown as a durable novel pollutant, and, since recently, smaller and smaller plastics particles have been identified in various environments (air, water and soil). Considerable research already exists measuring the plastics in the 5 mm to micrometre size range (microplastics). However, far less is known about the plastics debris that fragmented to the sub-micrometre size (nanoplastics). As these small particles are light, it is expected that they have already reached the most remote places on Earth, e.g. transported across the globe by air movement. In this work, we used a novel method based on Thermal Desorption - Proton Transfer Reaction - Mass Spectrometry (TD-PTR-MS) to detect and measure nanoplastics of different types in the water sampled from a Greenland firn core (T2015-A5) and a sea ice core from Antarctica. We identify polyethylene (PE), poly-propylene (PP), polyethylene terephthalate (PET), polystyrene (PS), polyvinyl chloride (PVC), and Tire wear nanoparticles in the 14 m deep Greenland firn core and PE, PP and PET in sea ice from Antarctica. Nanoplastics mass concentrations were on average 13.2 ng/mL for Greenland firn samples and 52.3 ng/mL for Antarctic sea ice. We further discuss the possible sources of nanoplastics that we found at these remote locations, which likely involve complex processes of plastic circulation (emission from both land and sea surface, atmospheric and marine circulation).

KW - Nanoplastics

KW - Microplastics

KW - PTR-MS

KW - Polar regions

KW - Greenland

KW - Antarctic

KW - ATMOSPHERIC FALLOUT

KW - ORGANIC-COMPOUNDS

KW - MICROPLASTICS

KW - SEA

KW - MS

U2 - 10.1016/j.envres.2022.112741

DO - 10.1016/j.envres.2022.112741

M3 - Journal article

C2 - 35063429

VL - 208

JO - Environmental Research

JF - Environmental Research

SN - 0013-9351

M1 - 112741

ER -

ID: 302387513