沿海地区食用鱼类和贝类导致的微塑料对环境健康的风险。

Environmental Health Risk of Microplastics Due to Consumption of Fish and Shellfish in the Coastal Area.

作者信息

Daud Anwar, Ishak Hasanuddin, Ibrahim Erniwati, Basir Basir, Birawida Agus Bintara, Syam Rizky Chaeraty, Arundana Andi Imam, Gafur Abdul

机构信息

Department of Environmental Health, University of Hasanuddin, Makassar, Indonesia.

Department of Health Promotion and Behavioral Sciences, University of Hasanuddin, Makassar, Indonesia.

出版信息

Iran J Public Health. 2024 Jul;53(7):1549-1559. doi: 10.18502/ijph.v53i7.16049.

DOI:10.18502/ijph.v53i7.16049

PMID:39086411

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11287591/

Abstract

BACKGROUND

The increasing accumulation of plastic waste is the most serious threat to the marine ecosystem. People who still have the habit of disposing of solid waste, especially plastic-type waste, in the marine environment have led to the discovery of microplastic content in various marine biota such as fish and shellfish. We aimed to assess the environmental health risks of microplastics due to consumption of marine life in the coastal area.

METHODS

We used an observational method with the Environmental Health Risk Assessment (EHRA) design to analyze the health risks of humans consuming fish and shellfish containing microplastics. This research was conducted in the coastal area of Takalar Regency, Indonesia in 2022. The samples used consisted of human (n = 30) and marine biota (fish, n=20; shellfish, n=20) samples. The data were obtained from observations, physical measurements of biota, laboratory tests, polymer type identification by Fourier Transform Infrared (FTIR) spectroscopy, and microscopy.

RESULTS

The average concentration of microplastics containing styrene compounds in shellfish was 2.01 mg/kg. The abundance of MPs in the fish and shellfish samples was 0.01 particles/g or 10 particles/kg in fish and 7 particles/individual in shellfish. The MPs were found in line, fragment, film, and pellet forms, with different size and color variations. The average MPs exposure risk level (RQ value) for both fish and shellfish was 0.02.

CONCLUSION

All samples had RQ values < 1, which means that the microplastic-containing tofu shellfish were still safe for consumption by people living in the Takalar coastal area.

摘要

背景

塑料垃圾的不断积累是对海洋生态系统最严重的威胁。仍有在海洋环境中处置固体废物，尤其是塑料类废物习惯的人们，导致在鱼类和贝类等各种海洋生物群中发现了微塑料成分。我们旨在评估沿海地区食用海洋生物导致的微塑料对环境健康的风险。

方法

我们采用环境健康风险评估（EHRA）设计的观察性方法，分析人类食用含有微塑料的鱼类和贝类的健康风险。本研究于2022年在印度尼西亚塔卡拉尔摄政区沿海地区进行。所使用的样本包括人类样本（n = 30）和海洋生物样本（鱼类，n = 20；贝类，n = 20）。数据通过观察、生物群的物理测量、实验室测试、傅里叶变换红外（FTIR）光谱法进行聚合物类型鉴定以及显微镜检查获得。

结果

贝类中含苯乙烯化合物的微塑料平均浓度为2.01毫克/千克。鱼类和贝类样本中微塑料的丰度为0.01颗粒/克或鱼类中10颗粒/千克，贝类中7颗粒/个体。微塑料呈线状、碎片状、薄膜状和颗粒状，具有不同的尺寸和颜色变化。鱼类和贝类的微塑料平均暴露风险水平（RQ值）均为0.02。

结论

所有样本的RQ值均<1，这意味着对于生活在塔卡拉尔沿海地区的人们来说，含微塑料的豆腐贝类食用起来仍然是安全的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ae17/11287591/978bcea2eacd/IJPH-53-1549-g001.jpg

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沿海地区食用鱼类和贝类导致的微塑料对环境健康的风险。

Environmental Health Risk of Microplastics Due to Consumption of Fish and Shellfish in the Coastal Area.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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