尼日利亚伊莱萨受人为影响的奥米-阿索罗溪流中挥发性有机碳的首次法医定量、来源识别和健康风险评估

Adebanjo Jacob Anifowose, Alaru Kunle Gbadamosi, Tinuola Munirat Oguntope, Omoteleola Serah Olarinde, Oluwaferanmi Samuel Fasoiro, Shola Hezekiah Awojide
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引用次数: 0

摘要

本研究对尼日利亚伊莱萨镇奥米-阿索罗溪流中的挥发性有机化合物(VOC)进行了量化,以了解其来源及其对人类健康的危害。2023 年,根据美国环保局的平衡顶空法,使用气相色谱仪 (GC) 测量了挥发性有机化合物,并使用火焰离子化检测器 (FID) 进行了检测。此外,还估算了通过摄入和皮肤接触对人体健康造成的风险。结果显示,溶解氧 (DO) 为 0.5-4.8 mg/L。工业废物排放区的化学需氧量(COD)特别高(三月:181.3 ± 45.5 mg/L;七月:180.7 ± 25.7 mg/L)。三月份和七月份分别检测到 22 组和 18 组挥发性有机化合物。1,2-二溴-3-氯丙烷(DBCP)是溪流中最主要的挥发性有机化合物,占 18%(三月份)和 19%(七月份)。DBCP、1,2-二氯苯+丁苯(oDCB+bBZ)和六氯丁二烯+1,2,4-三氯苯(HCBD+TCB)在溪流中无处不在,检测频率为 100%。消毒剂/熏蒸剂、清洁剂、工业溶剂、农用化学品和塑料材料是挥发性有机化合物的主要来源。在两个月的研究中,没有任何一种挥发性有机化合物造成非致癌风险(HI)。不过,3 月份通过摄入途径产生的总 HI 对儿童健康构成了非致癌风险(HIsum = 1.03)。通过摄入 BDCM、TeCA、TCP 和 pDCB 对人类的致癌风险较高,两个月份的数值范围均在 (0.00219-5.07) × 10-2 之间。三氯丙醇通过皮肤接触对人体也有很高的致癌风险(范围为 10-4)。由于工业、农业和其他人为活动,溪流的水质严重受损。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
First forensic quantification, source-identification and health risk estimation of volatile organic carbons in the anthropogenically impacted Omi-Asoro Stream in Ilesa, Nigeria

This study quantified the volatile organic compounds (VOCs) in the Omi-Asoro Stream located in Ilesa town, Nigeria, to understand their sources and health risks to humans. The VOCs were measured in 2023 according to the US EPA equilibrium headspace method using a gas chromatograph (GC) and detected by a flame ionization detector (FID). Their human health risk assessments via ingestion and dermal contact were also estimated. The results showed that dissolved oxygen (DO) ranged 0.5–4.8 mg/L. Chemical oxygen demand (COD) was exceptionally high (March: 181.3 ± 45.5 mg/L; July: 180.7 ± 25.7 mg/L) in the industrial waste discharge area. Twenty-two and eighteen sets of VOCs were detected in March and July, respectively. 1,2-dibromo-3-chloropropane (DBCP) was the predominant VOC in the stream accounting for 18% (March) and 19% (July). DBCP, 1,2-dichlorobenzene+nbutylbenzene (oDCB+bBZ) and hexachlorobutadiene+1,2,4-trichlorobenzene (HCBD+TCB) were ubiquitous in the stream with 100% detection frequency. Disinfectants/fumigants, cleaning agents, industrial solvents, agrochemicals and plastic materials were the main sources of the VOCs. No individual VOC posed a non-carcinogenic risk (HI) in both months of the study. However, the total HI via ingestion route in March posed a non-carcinogenic health risk to children (HIsum = 1.03). BDCM, TeCA, TCP and pDCB posed a high carcinogenic risk to humans via ingestion with values in the range of (0.00219–5.07) × 10−2 for both months. TCP also posed a high carcinogenic risk (range of 10−4) via dermal contact to humans. The highly impaired water quality of the stream was due to industrial, agricultural and other anthropogenic activities.

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