某地农田土壤及其潜在污染源中多环芳烃检测与评价

通过对A、B两地农田土壤及其潜在污染源燃煤尘、交通尘和尾气尘等样品中多环芳烃(PAHs)的检测,结果表明,A、B两地土壤样品中∑PAHs范围分别为290 ng/g～2. 53× 10~3ng/g和564 ng/g～5. 50× 10~3ng/g,污染程度为中等—严重,且呈现出由工业园区周边土壤到化工企业周边土壤至油田周边土壤逐渐加重的趋势。A、B两地不同固体样品中∑PAHs由高到低分别为尾气尘交通尘燃煤尘土壤和尾气尘交通尘土壤燃煤尘。源解析表明,研究区土壤中PAHs受混合源(石油源和燃烧源)污染。燃烧源既有石油及其精炼产品的燃烧,又有木材、煤燃烧。     

某大型化工企业周边居民区积尘中多环芳烃调查及健康风险评价

以江苏省某大型化工企业周边居民区为研究区域,调查企业主导风的下风向2 km范围内的居民区以及对照区积尘中多环芳烃(PAHs)含量,对16种PAHs污染分布和特征进行研究,并评估积尘PAHs通过暴露途径对人群健康风险。结果表明:居民区积尘中16种PAHs全部检出,污染区∑PAHs均值为2 294μg/kg,明显高于对照区145μg/kg;污染区7个测点中有6个测点苯并(a)芘出现超标,超标倍数为0. 17～2. 5倍;所测的16种PAHs化合物中蒽、荧蒽、芘、、苯并(b)荧蒽、苯并(k)荧蒽、苯并(a)芘浓度相对较高;通过PAHs主成分分析和特征比值判断,不完全燃烧源对积尘中PAHs贡献率达77. 4%,污染区PAHs来源呈现石油燃烧、煤燃烧以及石油源的复合污染特征,对照区PAHs主要来源为煤的不完全燃烧;以苯并(a)芘毒性等效浓度进行风险评估,污染区致癌风险值明显高于对照区,儿童摄入PAHs风险总体高于成人;对照区儿童和成人致癌风险均小于1×10~(-6),不存在致癌风险;污染区儿童和成人平均致癌风险值分别为3. 95×10~(-6)、2. 65×10~(-6),在可接受范围内,但存在潜在致癌风险。     

不同类型企业周边土壤中多环芳烃来源解析与风险评价

研究对比了山东省不同类型污染企业周边土壤中16种多环芳烃(PAHs)的污染水平,结果表明:化工、钢铁、焦化企业周边土壤中ΣPAHs范围分别为41.4μg/kg～804μg/kg、1 230μg/kg～1 945μg/kg和776μg/kg～1 299μg/kg,土壤中PAHs成分谱轮廓相似,4～6环PAHs占比普遍高于2～3环。特征比值法源解析表明,PAHs主要来源于煤、焦炉、木材等的不完全燃烧。企业周边土壤PAHs污染与企业产业结构有关,钢铁、焦化、石化等大量消耗化石燃料的企业周边土壤中10种PAHs的毒性当量浓度TEQ_(Bap)超标0.6倍～3.8倍,而高分子化工、精细化工、农药化工等企业周边土壤受PAHs污染较轻,均满足荷兰土壤质量标准。     

典型工业遗留场地土壤污染特征分析及风险评估

以江苏省中部某城镇工业遗留场地为研究区域,采集23件土壤样品,检测土壤中多环芳烃（PAHs）、有机氯农药（OCPs）、总石油烃（TPH）和重金属含量并开展风险评估。结果表明：土壤中有机物检出因子18项均无超标;Zn和Cr最大值均超过浙江住宅及公共用地筛选值,其余重金属未超标。风险评估表明,在第一类用地和第二类用地中Cd的致癌风险分别为2.70×10-8和1.42×10-8,均小于可接受致癌风险10-6;在第一类用地和第二类用地中Cd、Cu、Hg、Zn危害熵范围分别为 0.023～0.542和0.006～0.060,均小于可接受非致癌危害熵1。Cd、Cu、Hg、Zn风险值均在可接受范围内。     

沈阳市大气PM2.5中多环芳烃的污染特征及来源解析

采用气相色谱-质谱联用仪定量分析2016年沈阳市PM_(2.5)中16种多环芳烃(PAHs)的质量浓度,探讨其时空分布特征,并解析PAHs的来源。结果表明:沈阳市PAHs的平均质量浓度为71. 5 ng/m3,其中3环、4环PAHs分别占31. 3%和48. 8%;采暖期PAHs浓度明显高于非采暖期,中心城区高于周边。总毒性当量浓度平均值为8. 05 ng/m3。特征比值法和主成分分析法解析的PAHs来源基本一致,主要为燃烧源、石油挥发源和工业生产源,贡献率分别为70. 11%、14. 19%和10. 74%。     

海河流域地表水水源地多环芳烃污染特征及来源分析

采用固相萃取-GC/MS法分析海河流域9个典型地表水水源地16种多环芳烃（PAHs）污染状况，结果显示除BkFL、BaP、InP、BghiP和DBA未检出外，其他11种PAHs均有检出。9个水源地春季水体中PAHs总值为238 ng/L~715 ng/L，夏季水体中PAHs总值为837 ng/L~278 ng/L， 表明PAHs季节性污染差异较为显著，夏季PAHs污染状况明显高于春季。PAHs的组成均以中低环芳烃（2~3环）为主，且Ant/（Phe+Ant）、Flu/（Pyr+Flu）和BaA/（BaA+Chr）比值显示9个水源地PAHs污染均来源于水源地上游煤炭、木材等燃烧产物。     

华北地区部分河流中典型抗生素的分布特征及来源分析

以子牙河、滏阳河和永定河流经的农村周边水环境为研究区，应用迭代目标转换因子紫外分光光度分析法检测水环境中四环类、氯霉素类和硫酸链霉素含量，并分析其分布特征及可能的影响因素和来源。结果表明，研究区3类抗生素均有检出，四环类、氯霉素类和硫酸链霉素最高检出值分别为9.26 μg/L、1.98 μg/L和1.29 μg/L，四环类抗生素污染较严重。研究区抗生素分布特征与区域内社会活动、畜牧业养殖发展、化工企业分布存在一定联系，生活污水、养殖废水和制药化工企业废水排放是3类抗生素污染的主要来源。     

某地区农田土壤中多环芳烃分布与来源解析

研究了某地区农田表层土壤中16种PAHs污染状况和来源。结果表明,研究区2012和2016年土壤中PAHs总平均值分别为1 748和3 248 ng/g,其值显著高于其他文献研究区。指出,研究区土壤已受到PAHs的污染,土壤中PAHs以3环、4环为主,Bb F、Ba P、Phe、Ba A、Fla、Pyr、Chr、Flu等质量比相对较高,其污染源主要为焦化、煤和天然气的燃烧,此外交通源对多环芳烃污染也有一定的贡献。     

湖北省重点区域及周边表层土壤重金属污染现状及评价

对湖北省内9类不同重点区域及周边表层土壤环境质量进行检测,测定重金属镉、汞、砷、铅、铬、铜、镍、锌含量水平,采用内梅罗污染指数法和Hakanson潜在生态风险指数法对检测结果进行评价。结果表明:9类不同重点区域及周边土壤环境质量整体良好,未受重金属污染的土壤监测点位比例为68.2%~92.6%,轻度污染的点位比例为5.8%~20.4%,中度污染为0.0%~8.6%,重度污染为0.0%~9.1%;污染企业周边、油田采矿区周边、固废处置场地周边、工业遗留遗弃场地及周边4类重点区域受重金属污染相对较严重,影响其土壤环境质量的重金属主要是镉、砷、铜、铅;9类不同重点区域周边土壤环境质量的潜在生态风险等级以轻微、中度为主,对应的监测点位比例分别为36.4%~80.5%、18.1%~47.7%,潜在生态风险等级为强度、很强、极强的监测点位比例总和为1.4%~15.9%,主要分布在受重金属污染严重的监测区域。     

青浦工业园区B区大气环境影响分析及改善对策探讨

为探讨上海青浦工业园区B区对周边大气环境的影响及可持续发展对策,选取目前入住的化工企业(主要为树脂、表面活性剂和涂料类企业)所排放的臭气浓度等特征污染因子,模拟计算其对整个区域的环境影响。结果表明,这些污染物的挥发量不是很大,但其综合效应造成监测点位臭气浓度偏高。针对工业园区开发过程中对大气环境影响的特点,提出在现有基础上调整产业结构和布局,完善园区服务,促进企业升级等措施,从源头上切实减缓工业园区经济开发对周边大气环境的不利影响,最终达到可持续发展的目的。     

Distributions, sources and risk assessment of polycyclic aromatic hydrocarbons (PAHs) in topsoil at Ji’nan city, China

Surface soil (0-5 cm) samples from 17 sampling sites including different functional areas at Ji'nan city in Shandong Province of China were collected and analyzed for 16 EPA priority polycyclic aromatic hydrocarbons (PAHs). The total PAH concentrations were in the range from 1.31 mg kg(-1) to 254.08 mg kg(-1) (dry weight), and the average level of total PAHs was 23.25 mg kg(-1). The highest total PAHs concentrations were found in steel and iron plant at industrial areas. The total PAHs concentrations in industrial areas were markedly higher than those in other different functional areas. According to comparing total PAHs concentration in Ji'nan city to that of other urban areas, it was found that total PAHs concentrations were 6 to 137 times higher than other areas because of some specific sampling sites such as steel and iron plant and one main roadside. The results showed that PAHs in topsoil of Ji'nan city were suffered from strong pyrogenic influence, especially in industrial areas. However about 52.9% soil samples were mainly originated from both pyrogenic and petrogenic mixed sources based on Flu/Pyr ratios and Phe/Ant ratios. Furthermore, It was found that all individual PAHs except Fle were significantly correlated (P < 0.01) with LMW, HMW, total PAHs and SOM, and individual PAHs except Fle in soils were significantly correlated (P < 0.01) with each other. The nemerow composite index to assess the environmental quality showed that the soil sample of steel and iron plant in industrial areas and one main roadside were heavy pollution of PAHs, and about 47% soil sampling sites were safety, about 53% soil sampling sites were got different grades of PAHs pollution.     

Accumulation and risks of polycyclic aromatic hydrocarbons and trace metals in tropical urban soils

The study deals with the combined contribution of polycyclic aromatic hydrocarbons (PAHs) and metals to health risk in Delhi soils. Surface soils (0–5 cm) collected from three different land-use regions (industrial, flood-plain and a reference site) in Delhi, India over a period of 1 year were characterized with respect to 16 US Environmental Protection Agency priority PAHs and five trace metals (Zn, Fe, Ni, Cr and Cd). Mean annual ∑₁₆PAH concentrations at the industrial and flood-plain sites (10,893.2?±?2826.4 and 3075.4?±?948.7 μg/kg, respectively) were ~15 and ~4 times, respectively, higher than reference levels. Significant spatial and seasonal variations were observed for PAHs. Toxicity potentials of industrial and flood-plain soils were ~88 and ~8 times higher than reference levels. Trace metal concentrations in soils also showed marked dependencies on nearness to sources and seasonal effects. Correlation analysis, PAH diagnostic ratios and principal component analysis (PCA) led to the identification of sources such as coal and wood combustion, vehicular and industrial emissions, and atmospheric transport. Metal enrichment in soil and the degree of soil contamination were investigated using enrichment factors and index of geoaccumulation, respectively. Health risk assessment (incremental lifetime cancer risk and hazard index) showed that floodplain soils have potential high risk due to PAHs while industrial soils have potential risks due to both PAHs and Cr.     

Seasonal variation of polycyclic aromatic hydrocarbons in soil and air of Dalian areas, China: an assessment of soil-air exchange

The seasonal variations of concentrations of PAHs in the soil and the air were measured in urban and rural region of Dalian, China in 2007. In soil, mean concentrations of all PAHs in summer were larger than those in winter, whereas the concentrations of heavier weight PAHs in winter were larger than those in summer. Winter/summer concentration ratios for individual PAHs (R(W/S)) increased with the increase of molecular weight of PAHs in soil, indicating that PAHs with high molecular weight were more easily deposited to soil in winter than summer. In air, mean concentrations of all PAHs in winter were larger than those in summer. In comparison with the R(W/S) in soil, all the values of R(W/S) in air were larger than one indicating that the entire individual PAH concentrations in winter were larger than those in summer. The average concentration composition for each PAH compound in soil and air samples was determined and the seasonal change of PAH profile was very small. It was suggested that PAHs in soils and air had the same or similar sources both in winter and summer. The approach to the soil-air equilibrium was assessed by calculating fugacity quotients between soil and air using the soil and air concentrations. The calculated soil-air fugacity quotients indicated that soil acted as a secondary source to the atmosphere for all lighter weight PAHs (two-three rings) and it will continue to be a sink for heavier weight PAHs (five-six rings) in the Dalian environment, both in winter and summer. Medium weight PAHs (four-five rings) were close to the soil-air equilibrium and the tendency shifted between soil and air when season or function region changed. The fugacity quotients of PAHs in summer (mean temperature 298 K) were larger than those in winter (mean temperature 273 K), indicating a higher tendency in summer than winter for PAHs to move from soil to air. The variation of ambient conditions such as temperature, rainfall, etc. can influence the movement of PAHs between soil and air. Most of the fugacity quotients of PAHs for the urban sites were larger than that for the rural site both in winter and summer. This phenomenon may be related with that the temperatures in urban sites were higher than those in the rural site because of the urban heat island effect.     

鞍山市城区采暖期大气PM_(2.5)中PAHs的污染特征研究

通过对鞍山市(1个工业区、2个工业区周边、3个居住区、1个对照点)2015年1月采暖期大气PM_(2.5)中多环芳烃(PAHs)的监测,采用BaP当量致毒系数TEF,分析了鞍山市大气PM_(2.5)中典型PAHs毒性当量分布特征。研究表明,鞍山市大气PM2.5中工业区及工业区周边Ba P毒性当量浓度要远高于居住区和对照点,污染物主要由4~6环的PAHs组成,很强致癌BaP当量浓度为9.351~38.59 ng/m3。     

不同木柴在两种条件下燃烧生成的颗粒物中多环芳烃的排放特性研究

将马尾松、赤桉、甜叶桉树和锦熟黄杨四种木柴,使用普通家用木柴燃烧加热炉在两种条件下进行燃烧,采集燃烧所排放的颗粒物样品并分析,获得了颗粒物中多环芳烃(Polycyclic Aromatic Hydrocarbons简写为PAHs)的排放因子及单个多环芳烃化合物的分布规律。结果显示:在颗粒物中检测出的多环芳烃化合物主要是分子量较大并被称为基因致毒性类的多环芳烃化合物,实验还发现:在四种木柴中,马尾松具有最高的多环芳烃化合物的排放因子,其次是赤桉和锦熟黄杨,最低的是甜叶桉树。两种不同的燃烧条件相比,慢燃烧比快燃烧所产生的总多环芳烃化合物和基因致毒性多环芳烃化合物的量都要高。     

典型废酸油渣中54种VOCs和16种PAHs的分布特征研究

通过运用GC-MS方法对3家润滑油生产企业废酸油渣中的54种挥发性有机物(VOCs)和16种多环芳烃(PAHs)进行定性及定量分析。结果表明,54种VOCs有12种被检出,检出率为22.2%,其中1,2,4-三甲苯在75个样品中均有检出,检出率为100%。54种VOCs质量分数为ND～12.5 mg/kg,其中质量分数较高的化合物为苯(0.6～11.9 mg/kg)、萘(1.0～12.5 mg/kg)、1,2,4-三甲苯(0.5～10.2 mg/kg)。16种PAHs有12种被检出,检出率为75%,其中萘、菲、芘、苯并[a]蒽和■在58个样品中均有检出,检出率为100%。16种PAHs质量分数为2～2 160 mg/kg,其中质量分数较高的化合物为■(25～2 160 mg/kg)、芘(10～207 mg/kg)、苯并[a]蒽(5～108 mg/kg)。同一个企业不同油样之间的VOCs和PAHs检出种类和质量分数存在明显差异,各目标物质量分数与总量之间并不完全相关,这与油源、生产工艺以及样品的风化程度有关。客观上,大部分样本存在不均匀性,因此桶装废酸油渣样品检测应关注采样环节,应根据样品特点采集足够的样本数,保证测定结果真实可靠。     

Quantification and source identification of polycyclic aromatic hydrocarbons in sediment, soil, and water spinach from Hanoi, Vietnam

Polycyclic aromatic hydrocarbons (PAHs) were quantified in sediment, soil, and plant material from Hanoi, Vietnam, and an aquatic production system in peri-urban Hanoi. The sum of the concentration of 16 US-EPA priority PAHs ( summation PAH16) ranged between 0.44 and 6.21 mg kg(-1) dw in sediment and between 0.26 and 1.35 mg kg(-1) dw in soil, with decreasing concentrations from the urban area to the peri-urban area, indicating contributions from urban and industrial sources. Double plots of diagnostic source ratios indicate that PAHs originate from mixed petrogenic and pyrogenic sources, the latter being predominant. The predominance of low molecular weight (LMW) PAHs in the sediment samples suggests that petrogenic sources are more prevalent in the water environment than in the soil. In contrast, high molecular weight (HMW) PAHs dominated in water spinach which probably reflects the plant's uptake of particle-bound PAHs that originate from pyrogenic sources.     

Contamination, source identification, and risk assessment of polycyclic aromatic hydrocarbons in agricultural soil of Shanghai, China

The level, distribution, compositional pattern, and possible sources of polycyclic aromatic hydrocarbons (PAHs) in agricultural soil of Shanghai were investigated. The concentrations ranged from 140.7 to 2,370.8 μg kg(?-1) for 21 PAHs and from 92.2 to 2,062.7 μg kg(?-1) for 16 priority PAHs, respectively. The higher level of PAHs was mainly distributed in the south and west of Shanghai region, and the lower concentration was found in Chongming Island. Generally, the composition pattern of PAHs was characterized with high molecular weight PAHs, the seven possible carcinogenic PAHs accounted for 4.8-50.8% of the total PAHs, and fluoranthene, pyrene, and benzo[b]fluoranthene were the most dominant components in soil samples. The correlation analysis suggested that low molecular weight PAHs and high molecular weight PAHs were originated from different sources and further corroborated that total organic carbon was a key soil property affecting the fate of persistent organic pollutants in the environment. The isomer ratios and principal component analysis indicated that PAHs in the investigated areas were derived primarily from combustion of biomass, coal, and petroleum. Compared to the soil quality standards of the Netherlands, all the target PAHs (except Ant) in most samples exceeded their target values. The Nemerow composite index based on the same soil quality standard showed that 69.4% of the soil samples were heavily polluted. The total BaP(eq) of ten Dutch target PAHs in 72% soil samples were higher than the reference total carcinogenic potency. Therefore, the agricultural soil in Shanghai is suffering from serious PAHs contamination.     

Vertical distribution of polycyclic aromatic hydrocarbons (PAHs) in Hunpu wastewater-irrigated area in northeast China under different land use patterns

The concentrations of polycyclic aromatic hydrocarbons (PAHs) were determined in groundwater and soil profiles from upland field and paddy field in the Hunpu wastewater-irrigated area of northeast China. In the study area, the peak concentrations of total PAHs were within or just below the topsoil, and the contents decline with depth at various trend verified by the Spearman's rank correlation test. The total PAH concentrations in upland soil layers ranged from 46.8 to 2,373.0 microg/kg (dry wt.), while the concentrations in paddy soil layers ranged from 23.1 to 1,179.1 microg/kg (dry wt.). The 16 priority PAHs were all detected in the analyzed soil samples, and naphthalene (Nap), phenanthrene (Phe), fluoranthene (Fla), chrysene (Chr), and benzo[a]pyrene (Bap) were selected for further study in terms of their vertical distributions. The concentrations of both total and individual PAHs in upland soil were generally higher than those in the corresponding layers of paddy soil. The concentrations of total and individual PAH were notably different between the corresponding horizons in upland and paddy soil were probably attribute to the different sources and properties of the PAHs and soil; different methods of soil tillage and plant growing. Special PAH compound ratios, such as phenanthrene/anthracene, fluoranthene/pyrene, LMW/HMW, and parent PAH ratios (Ant/178, Fla/202, BaA/228, and Ilp/276) were used to identify the source of soil PAHs. The data suggests that the possible sources of PAHs in the Hunpu wastewater-irrigation area are the incomplete combustion of coal, petroleum and crude oil, automobile exhausts. These sources lead to pollution of the soil and groundwater by wet/dry deposition and vertical downward migration.     

搬迁化工厂区土壤中多环芳烃污染及来源分析

分析南通某搬迁化工厂区土壤中16种优控多环芳烃（PAHs）污染物的含量特征及污染水平。结果表明，车间和仓库土壤中多环芳烃总量为200—300ng／g，在南通市耕地土壤污染水平范围内。停车场土壤中PAHs含量为3435ng／g，污染水平高于普通耕地，与交通干线两侧土壤相当，土壤中PAHs以4环及4环以上PAHs为主，为汽车尾气污染，若继续用于道路或停车场等功能无需进行PAHs修复。