Atmospheric contribution of nanoplastics to rural and remote surface waters

冻土带 环境科学 永久冻土 环境化学 聚氯乙烯 北极的 溪流 聚丙烯 水文学(农业) 降水 微塑料 地表水 融雪 大气科学 环境工程 海洋学 化学 地质学 气象学 材料科学 地理 地貌学 复合材料 岩土工程 计算机科学 计算机网络
作者
Dušan Materić,Mike Peacock,Joshua Dean,Martyn N. Futter,Trofim C. Maximov,Filip Moldan,Thomas Röckmann,Rupert Holzinger
标识
DOI:10.5194/egusphere-egu23-12323
摘要

There is growing evidence for global environmental pollution caused by plastic particles <1 &#181;m, here referred to as nanoplastics. Nanoplastic concentrations have been below the detection limits of many methods for quite some time, and thus they have passed undetected in complex environmental samples. However, recently using Thermal Desorption &#8211; Proton Transfer Reaction &#8211; Mass Spectrometry, many common nanosized polymers have been detected in seawater, ice and snow of rural and remote sites. In this work, we focused on the waterbodies of two contrasting sites: remote Siberian Arctic tundra and a forest landscape in southern Sweden. Nanoplastics of four polymer types (polyethylene, polyvinyl chloride, polypropylene, polyethylene terephthalate) were detected in all sampled Swedish lakes and streams (mean 563 &#181;g/L, seven lakes, four streams). The amount of nanoplastic polymers showed a correlation with plastic demand in Europe (R2 = 0.91). In Siberia, two nanoplastic polymers (PVC and polystyrene) were detected in lakes, ponds and surface flooding, and concentrations were lower (mean 51 &#181;g/L, three lakes, five ponds, overland flow from thawing permafrost and flooded tundra). Based on potential source analysis and HYSPLIT modelling of air mass trajectories and particle dispersion, we infer that nanoplastics predominantly arrive at both sites by atmospheric deposition from local and regional sources.

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