Department of Earth, Environment and Resources Sciences (DiSTAR), University of Naples "Federico II", Complesso Universitario di Monte Sant' Angelo, Via Cintia snc, 80126, Naples, Italy.
School of Animal, Rural and Environmental Sciences, Nottingham Trent University, Brackenhurst Campus, Southwell, NG25 0QF, UK.
Environ Geochem Health. 2019 Apr;41(2):507-528. doi: 10.1007/s10653-018-0147-3. Epub 2018 Jul 6.
Polycyclic aromatic hydrocarbons (PAHs) are a group of persistent organic pollutants. They have been identified as a type of carcinogenic substance and are relatively widespread in environment media such as air, water and soils, constituting a significant hazard for human health. In many parts of the world, PAHs are still found in high concentrations despite improved legislation and monitoring, and it is therefore vital defining their profiles, and assessing their potential sources. This study focused on a large region of the south of Italy, where concentration levels, profiles, possible sources and toxicity equivalent quantity (TEQ) level of sixteen PAHs were investigated. The survey included soils from five large regions of the south of Italy: 80 soil samples (0-20 cm top layer) from urban and rural locations were collected and analysed by gas chromatography-mass spectrometry. Total PAHs and individual molecular compounds from the US Environmental Protection Agency priority pollutants list were identified and measured. Results showed that 16 PAHs varied significantly in urban and rural areas, and different regions presented discordant characteristics. Urban areas presented concentrations ranging from 7.62 to 755 ng g (mean = 84.85 ng g), whilst rural areas presented ranges from 1.87 to 11,353 ng g (mean = 333 ng g). Large urban areas, such as Rome, Naples and Palermo, exhibited high PAHs total concentration, but high values were also found in rural areas of Campania region. Different PAHs molecular ratios were used as diagnostic fingerprinting for source identification: LWMPAHs/HWMPAHs, Fluo/(Fluo + Pyr), BaA/(BaA + Chr), Ant/(Ant + Phe) and IcdP/(IcdP + BghiP). These ratios indicated that PAHs sources in the study area were mainly of pyrogenic origin, i.e. mostly related to biomass combustion and vehicular emission. On the other hand, values in Sicilian soils seemed to indicate a petrogenic origin, possibly linked to emissions from crude oil combustion and refineries present in the region. Finally, results allowed to calculate the toxicity equivalent quantity (TEQ) levels for the various locations sampled, highlighting that the highest values were found in the Campania region, with 661 and 54.20 ng g, in rural and urban areas, respectively. These findings, which could be linked to the presence of a large solid waste incinerator plant, but also to well-documented illegal waste disposal and burning, suggest that exposure to PAH may be posing an increased risk to human health in some of the studied areas.
多环芳烃(PAHs)是一组持久性有机污染物。它们已被确定为致癌物质的一种类型,并且在空气、水和土壤等环境介质中相对广泛存在,对人类健康构成重大威胁。尽管立法和监测有所改善,但在世界许多地区仍发现 PAHs 浓度较高,因此定义其分布并评估其潜在来源至关重要。本研究集中在意大利南部的一个大区域,研究了该地区 16 种 PAHs 的浓度水平、分布、可能来源和毒性等效量(TEQ)水平。该调查包括意大利南部五个大区的土壤:从城市和农村地区采集了 80 个土壤样本(0-20cm 表层),并通过气相色谱-质谱法进行了分析。测定并识别了来自美国环境保护署优先污染物清单的总多环芳烃和单个分子化合物。结果表明,16 种 PAHs 在城市和农村地区差异显著,不同地区呈现出不同的特征。城市地区的浓度范围为 7.62 至 755ng/g(平均值=84.85ng/g),而农村地区的浓度范围为 1.87 至 11353ng/g(平均值=333ng/g)。罗马、那不勒斯和巴勒莫等大型城市地区的多环芳烃总浓度较高,但坎帕尼亚地区的农村地区也发现了高浓度。不同的 PAHs 分子比值被用作源识别的诊断指纹:LWMPAHs/HWMPAHs、Fluo/(Fluo+Pyr)、BaA/(BaA+Chr)、Ant/(Ant+Phe)和 IcdP/(IcdP+BghiP)。这些比值表明,研究区域内 PAHs 的来源主要为热成因,即主要与生物质燃烧和车辆排放有关。另一方面,西西里岛土壤中的数值似乎表明存在生源成因,可能与该地区存在的原油燃烧和炼油厂排放有关。最后,结果允许计算各个采样地点的毒性等效量(TEQ)水平,突出显示在坎帕尼亚地区,农村和城市地区的 TEQ 值分别为 661 和 54.20ng/g,最高。这些发现可能与大型固体废物焚烧厂的存在有关,但也与有文件记载的非法废物处理和焚烧有关,表明在一些研究区域,多环芳烃暴露可能对人类健康构成更大的风险。
