中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
7期
1855-1862
,共8页
刘营%刘敏%杨毅%陆敏%于英鹏%汪青%郑鑫
劉營%劉敏%楊毅%陸敏%于英鵬%汪青%鄭鑫
류영%류민%양의%륙민%우영붕%왕청%정흠
PAHs%樟树叶片%上海市%来源
PAHs%樟樹葉片%上海市%來源
PAHs%장수협편%상해시%래원
PAHs%cinnamomum camphora leaves%Shanghai City%source apportionment
采用GC-MS对上海市中心城区樟树叶片中16种优控多环芳烃(PAHs)进行定量分析.结果表明,樟树叶片中∑16PAHs、致癌性PAHs、BaPeq含量范围分别为199.14~488.77、56.63~209.37、4.39~14.80ng/g(干质量),最高值均出现在工业区,其次是交通区、商业区,最低值均出现在公园绿地.各采样点樟树叶片不同环数PAHs分布特征相似,以3~4环为主,平均含量分布占∑16PAHs的31.60%和54.25%,其次为2环和5环PAHs,分别占5.83%和5.97%,6环最低,仅占2.35%;主要单体为菲(Phe)、(Chry)、荧蒽(Fl)、芘(Pyr),工业区萘(Nap)的含量显著高于其他功能区.运用因子分析法和特征比值法源解析表明,樟树叶片中PAHs主要来源于化石燃料的不完全燃烧.
採用GC-MS對上海市中心城區樟樹葉片中16種優控多環芳烴(PAHs)進行定量分析.結果錶明,樟樹葉片中∑16PAHs、緻癌性PAHs、BaPeq含量範圍分彆為199.14~488.77、56.63~209.37、4.39~14.80ng/g(榦質量),最高值均齣現在工業區,其次是交通區、商業區,最低值均齣現在公園綠地.各採樣點樟樹葉片不同環數PAHs分佈特徵相似,以3~4環為主,平均含量分佈佔∑16PAHs的31.60%和54.25%,其次為2環和5環PAHs,分彆佔5.83%和5.97%,6環最低,僅佔2.35%;主要單體為菲(Phe)、(Chry)、熒蒽(Fl)、芘(Pyr),工業區萘(Nap)的含量顯著高于其他功能區.運用因子分析法和特徵比值法源解析錶明,樟樹葉片中PAHs主要來源于化石燃料的不完全燃燒.
채용GC-MS대상해시중심성구장수협편중16충우공다배방경(PAHs)진행정량분석.결과표명,장수협편중∑16PAHs、치암성PAHs、BaPeq함량범위분별위199.14~488.77、56.63~209.37、4.39~14.80ng/g(간질량),최고치균출현재공업구,기차시교통구、상업구,최저치균출현재공완록지.각채양점장수협편불동배수PAHs분포특정상사,이3~4배위주,평균함량분포점∑16PAHs적31.60%화54.25%,기차위2배화5배PAHs,분별점5.83%화5.97%,6배최저,부점2.35%;주요단체위비(Phe)、(Chry)、형은(Fl)、비(Pyr),공업구내(Nap)적함량현저고우기타공능구.운용인자분석법화특정비치법원해석표명,장수협편중PAHs주요래원우화석연료적불완전연소.
Sixteen priority-controlled polycyclic aromatic hydrocarbons (PAHs) incinnamomum camphora leaves from Shanghai urban area were analyzed by GC-MS. The results showed that concentrations of total PAHs, carcinogenic PAHs and BaPeq ranged from 199.14to 488.77ng/g,56.63to 209.37ng/g and 4.39to 14.80ng/g, respectively with the highest values in industrial areas and lowest levels in park areas. The PAHs concentrations in traffic and business areas were much higher than those in park areas and lower than those in industrial areas. The PAHs were dominated by 3and 4ring compounds, which accounted for 31.60% and 54.25% of Σ16PAHs, respectively, while 2and 5rings PAHs accounted for 5.83% and 5.97% of Σ16PAHs, respectively, and 6rings PAHs only accounted for 2.35%. The most abundant PAHs were phenanthrene, chrysene, fluoranthene and pyrene. In industrial areas, concentrations of napalthene were significantly higher than those in other functional areas of Shanghai. The source apportionment showed that the PAHs mainly result from the incomplete combustion of fossil fuels.