Synthetic Microplastics in UK tap and bottled water; Implications for human exposure

IF 5.3 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Emerging Contaminants Pub Date : 2024-09-26 DOI:10.1016/j.emcon.2024.100417

Muneera Al-Mansoori, Mia Stephenson, Stuart Harrad, Mohamed Abou-Elwafa Abdallah

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Abstract

There is increasing concern for public health over inadvertent human exposure to MPs due to potential adverse health effects linked to MPs polymeric composition, toxic chemical additives, and/or harmful microorganisms adsorbing onto their surfaces. While numerous studies have reported MPs occurrence and risk in the freshwater aquatic environment and drinking water sources (e.g., rivers, lakes, and reservoirs), the current state-of-knowledge on MPs pollution in drinking water (i.e., tap water and bottled water) remains limited at a global level. This paper provides the first comprehensive study of the occurrence, concentrations, size distribution, shape, and polymer type of MPs in 177 tap water samples from 13 cities in the United Kingdom, as well as 85 samples of bottled water from 17 popular brands, with various packaging materials, on the UK market.

MPs were detected in all tap water samples (range 6–100 MP/L) and bottled water samples (range 12–62 MP/L). Average MPs concentration in tap water (40 ± 16 MP/L) was statistically indistinguishable from that in bottled water (37 ± 11 MP/L). However, the average MPs particle size in tap water (32.4 μm) exceeded significantly (p < 0.05) that in bottled water (26.5 μm), indicating the various purification processes applied to bottled water may help remove larger MPs, but raises concern over the potential adverse health effects from exposure to smaller MPs. The most frequently detected polymer types were: polypropylene (PP), polyethylene (PE), and polyvinyl chloride (PVC) in tap water, and PE, PP and polyethylene terephthalate (PET) in bottled water. A strong correlation was observed (r = 0.68, P = 0.049) between the plastic cap material (PE) and the predominant polymer type in the bottled water. In terms of morphology, fragments and fibres were the most abundant MPs, together constituting 92 % and 96 % of MPs detected in tap and bottled water samples, respectively.

Using EFSA (European Food Safety Authority) recommended daily water intakes, the corresponding exposures to MPs in different UK age groups were estimated. On a body weight (BW) basis, infants and toddlers were exposed (4 MP/kg BW/day) at a higher level than adults (1 MP/kg BW/day). This raises concern, given the former's incompletely developed immune/nervous systems rendering them at higher risk of adverse health effects from such exposure.

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英国自来水和瓶装水中的合成微塑料；对人类接触的影响

由于 MPs 的聚合物成分、有毒化学添加剂和/或吸附在其表面的有害微生物可能会对人体健康产生不利影响，因此人类无意中接触 MPs 对公众健康的影响日益受到关注。尽管已有大量研究报告了 MPs 在淡水水生环境和饮用水源（如河流、湖泊和水库）中的出现和风险，但目前全球范围内对饮用水（即自来水和瓶装水）中 MPs 污染的了解仍然有限。本文首次全面研究了英国 13 个城市的 177 个自来水样本以及英国市场上 17 个流行品牌的 85 个瓶装水样本中 MPs 的出现、浓度、大小分布、形状和聚合物类型。自来水中 MPs 的平均浓度（40 ± 16 MP/L）与瓶装水中 MPs 的平均浓度（37 ± 11 MP/L）在统计上没有区别。然而，自来水中 MPs 的平均粒径（32.4 μm）明显超过瓶装水中 MPs 的平均粒径（26.5 μm）（p < 0.05），这表明瓶装水采用的各种净化工艺可能有助于去除较大的 MPs，但也让人担心接触较小的 MPs 可能会对健康造成不良影响。最常检测到的聚合物类型是：自来水中的聚丙烯 (PP)、聚乙烯 (PE) 和聚氯乙烯 (PVC)，瓶装水中的聚乙烯、聚丙烯和聚对苯二甲酸乙二醇酯 (PET)。塑料盖材料（PE）与瓶装水中主要聚合物类型之间存在很强的相关性（r = 0.68，P = 0.049）。从形态上看，碎片和纤维是最常见的多聚物，分别占自来水和瓶装水样本中检测到的多聚物的 92% 和 96%。按体重（BW）计算，婴幼儿的暴露量（4MP/kg BW/天）高于成年人（1MP/kg BW/天）。这引起了人们的关注，因为婴幼儿的免疫/神经系统尚未发育完全，接触这种物质对健康产生不良影响的风险较高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Emerging Contaminants Medicine-Public Health, Environmental and Occupational Health

CiteScore

10.00

自引率

6.70%

发文量

审稿时长

44 days

期刊介绍： Emerging Contaminants is an outlet for world-leading research addressing problems associated with environmental contamination caused by emerging contaminants and their solutions. Emerging contaminants are defined as chemicals that are not currently (or have been only recently) regulated and about which there exist concerns regarding their impact on human or ecological health. Examples of emerging contaminants include disinfection by-products, pharmaceutical and personal care products, persistent organic chemicals, and mercury etc. as well as their degradation products. We encourage papers addressing science that facilitates greater understanding of the nature, extent, and impacts of the presence of emerging contaminants in the environment; technology that exploits original principles to reduce and control their environmental presence; as well as the development, implementation and efficacy of national and international policies to protect human health and the environment from emerging contaminants.