土耳其地中海沿岸海洋沉积物中的多环芳烃：组成与来源

Polycyclic aromatic hydrocarbons (PAHs) in sea sediments of the Turkish Mediterranean coast, composition and sources.

作者信息

Tuncel Semra G, Topal Tansel

机构信息

Department of Chemistry, Middle East Technical University, 06531, Ankara, Turkey,

出版信息

Environ Sci Pollut Res Int. 2015 Mar;22(6):4213-21. doi: 10.1007/s11356-014-3621-1. Epub 2014 Oct 5.

DOI:10.1007/s11356-014-3621-1

PMID:25280504

Abstract

The concentrations of polycyclic aromatic hydrocarbons (PAHs) were determined in 25 surface sediment samples from five sites located at Oludeniz Lagoon of the Turkish Mediterranean coast. The total concentration of the PAHs (1.85 ± 1.39 mg/kg) was lower than the sediments from highly urbanized areas, while it was comparable with the sediments from similar locations. Acenaphthene and chrysene were dominant ones with the concentrations of 0.620 and 0.515 mg/kg, respectively. The isomeric ratios indicated that combustion is the predominant source of PAHs in the sediments. Factor analysis solution supports the same finding with three major factors accounting for 71.7% of the variability in the data. Factor 1 with 43.4% of the total variance identified as a pyrogenic source (coal combustion; 4 rings PAH and traffic related pollution; 5-6 rings PAHs). Factor 2 (explains 39% of the total variance) represents PAHs originating from traffic, and factor 3 (explains 12% of the total variance) represents petrogenic source. Our results suggest that combustion of fossil fuels affects most of the points, followed by combustion of biomass and human activity.

摘要

测定了土耳其地中海沿岸费特希耶泻湖五个地点的25个表层沉积物样本中多环芳烃（PAHs）的浓度。PAHs的总浓度（1.85±1.39毫克/千克）低于高度城市化地区的沉积物，但与类似地点的沉积物相当。苊和屈为主要成分，浓度分别为0.620毫克/千克和0.515毫克/千克。异构体比例表明，燃烧是沉积物中PAHs的主要来源。因子分析结果支持了这一发现，三个主要因子占数据变异性的71.7%。占总方差43.4%的因子1被确定为热解源（煤炭燃烧；4环PAH和交通相关污染；5 - 6环PAHs）。因子2（解释总方差的39%）代表来自交通的PAHs，因子3（解释总方差的12%）代表成岩源。我们的结果表明，化石燃料燃烧影响了大多数采样点，其次是生物质燃烧和人类活动。

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土耳其地中海沿岸海洋沉积物中的多环芳烃：组成与来源

Polycyclic aromatic hydrocarbons (PAHs) in sea sediments of the Turkish Mediterranean coast, composition and sources.

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