Ma Ying-ge, Cheng Jin-ping, Jiao Fei, Duo Ke-xin, Rong Zheng, Li Ming, Wang Wen-hua
School of Environmental Science and Engineering, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai, 200240, People's Republic of China.
Environ Monit Assess. 2008 Nov;146(1-3):127-38. doi: 10.1007/s10661-007-0065-9. Epub 2007 Dec 11.
Distribution and risk assessment of polycyclic aromatic hydrocarbons (PAHs) in drinking water resources have been carried out for the first time in Henan Province, China. Water samples collected from four river systems and their tributaries, as well as groundwater resources, were analyzed according to EPA method 525.2. Total of 68 water samples were collected in 18 cities in Henan province in May, August and November, 2001. Concentrations of sum of 16 priority PAHs in water samples ranged from 15 to 844 ng/L with a mean value of 178 +/- 210 ng/L (n = 68). The spatial and temporal distribution of PAHs showed that the Huanghe and the Huaihe river systems had relatively higher concentrations of total PAHs. Higher concentrations of total PAHs were observed in August and November than in May, with respective mean values of 262, 232 and 33.6 ng/L. Ratios of Ant/(Ant + Phe) and Flur/(Flur + Pyr) were calculated to evaluate the possible sources of PAH contamination, which indicated that the coal combustion sources were the main contributors to PAHs in most drinking water resources. Some petrogenic (or pyrolytic) sources of PAHs were also found. The toxic equivalency factors (TEFs) were used to calculate benzo[a]pyrene equivalents (BaPE) for water samples. The average value of BaPE was 0.6 ng/L. The values in most stations were much lower than the guideline values in drinking water of Chinese Environmental Protection Agency (CEPA, 2.8 ng/L) and the US Environmental Protection Agency (US EPA, 200 ng/L). Overall, the drinking water resources in Henan province showed some carcinogenic potential.
中国河南省首次开展了饮用水源中多环芳烃(PAHs)的分布及风险评估。按照美国环保署方法525.2对采集自四个河系及其支流以及地下水源的水样进行了分析。2001年5月、8月和11月在河南省18个城市共采集了68个水样。水样中16种优先PAHs的总浓度在15至844 ng/L之间,平均值为178±210 ng/L(n = 68)。PAHs的时空分布表明,黄河和淮河水系的总PAHs浓度相对较高。8月和11月观测到的总PAHs浓度高于5月,其平均值分别为262、232和33.6 ng/L。计算了Ant/(Ant + Phe)和Flur/(Flur + Pyr)的比值以评估PAH污染的可能来源,结果表明煤炭燃烧源是大多数饮用水源中PAHs的主要贡献者。还发现了一些PAHs的石油源(或热解源)。利用毒性当量因子(TEFs)计算了水样的苯并[a]芘当量(BaPE)。BaPE的平均值为0.6 ng/L。大多数监测站的值远低于中国环境保护总局(CEPA,2.8 ng/L)和美国环境保护局(US EPA,200 ng/L)饮用水中的指导值。总体而言,河南省的饮用水源显示出一定的致癌潜力。
