中国水产科学
中國水產科學
중국수산과학
Journal of Fishery Sciences of China
2015年
5期
994-1006
,共13页
于紫玲%林钦%谷阳光%杜飞雁%柯常亮
于紫玲%林欽%穀暘光%杜飛雁%柯常亮
우자령%림흠%곡양광%두비안%가상량
红树林海域%海洋生物体%多环芳烃%风险评价
紅樹林海域%海洋生物體%多環芳烴%風險評價
홍수림해역%해양생물체%다배방경%풍험평개
mangrove areas%marine organism%PAHs%risk assessment
对湛江红树林海域24种海洋生物体内多环芳烃(PAHs)的含量水平、组成及食用安全性进行了研究。结果表明,鱼类、头足类、甲壳类和贝类生物体PAHs总量范围分别为191~548 ng/g(干重,下同)、348~460 ng/g、337~518 ng/g和380~491 ng/g,平均含量分别为349.2 ng/g、420.9 ng/g、424.3 ng/g、455.9 ng/g。各类生物体中PAHs含量存在一定的差异,平均含量由高到低依次为:贝类、甲壳类、头足类、鱼类。与国内外相比,湛江红树林生物体 PAHs含量处于中等偏下水平。组成分析与风险评价结果显示,湛江红树林海域鱼类、头足类、甲壳类和贝类生物体中主要以3环 PAHs 为主,苯并芘(BaP)含量处于欧盟规定的限值范围, PAHs 致癌风险尚处于可接受致癌风险水平(<10–5)。
對湛江紅樹林海域24種海洋生物體內多環芳烴(PAHs)的含量水平、組成及食用安全性進行瞭研究。結果錶明,魚類、頭足類、甲殼類和貝類生物體PAHs總量範圍分彆為191~548 ng/g(榦重,下同)、348~460 ng/g、337~518 ng/g和380~491 ng/g,平均含量分彆為349.2 ng/g、420.9 ng/g、424.3 ng/g、455.9 ng/g。各類生物體中PAHs含量存在一定的差異,平均含量由高到低依次為:貝類、甲殼類、頭足類、魚類。與國內外相比,湛江紅樹林生物體 PAHs含量處于中等偏下水平。組成分析與風險評價結果顯示,湛江紅樹林海域魚類、頭足類、甲殼類和貝類生物體中主要以3環 PAHs 為主,苯併芘(BaP)含量處于歐盟規定的限值範圍, PAHs 緻癌風險尚處于可接受緻癌風險水平(<10–5)。
대담강홍수림해역24충해양생물체내다배방경(PAHs)적함량수평、조성급식용안전성진행료연구。결과표명,어류、두족류、갑각류화패류생물체PAHs총량범위분별위191~548 ng/g(간중,하동)、348~460 ng/g、337~518 ng/g화380~491 ng/g,평균함량분별위349.2 ng/g、420.9 ng/g、424.3 ng/g、455.9 ng/g。각류생물체중PAHs함량존재일정적차이,평균함량유고도저의차위:패류、갑각류、두족류、어류。여국내외상비,담강홍수림생물체 PAHs함량처우중등편하수평。조성분석여풍험평개결과현시,담강홍수림해역어류、두족류、갑각류화패류생물체중주요이3배 PAHs 위주,분병비(BaP)함량처우구맹규정적한치범위, PAHs 치암풍험상처우가접수치암풍험수평(<10–5)。
Polycyclic aromatic hydrocarbons (PAHs) are a large group of anthropogenic pollutants that contain two or more fused aromatic rings in linear, angular, or clustered arrangements. PAHs are introduced into marine environments through events such as atmospheric deposition, accidental oil spills, transport accidents, combustion of fuels, municipal, and urban runoff. PAHs elicit particular concern, and 16 PAHs were listed as priority pollutants by the US EPA because of their health risk as potential carcinogens and mutagens. Because of their lipophilic properties and resistance to deg-radation, PAHs can accumulate in organic tissue. Consequently, alarming concentrations of these compounds have been found in many marine species. Levels, composition profiles, and health risk assessment of PAHs were studied in 24 species of marine organisms collected from Zhanjiang mangroves. PAH concentrations were determined using gas chromatography coupled with mass spectroscopy. The results demonstrated that the total concentration of PAHs in 11 species of marine fishes, 3 species cephalopods, 6 species crustaceans, and 4 species shellfish ranged from 191–548 ng/g (dry weight), 348–460 ng/g, 337–518 ng/g, and 380–491 ng/g, respectively, and their average levels were 349.2 ng/g, 420.9 ng/g, 424.3 ng/g, and 455.9 ng/g, respectively. The average PAH concentrations differed among species and in the following decreasing order:shellfish>crustaceans>cephalopods>marine fishes. Compared with PAH levels of other coastal areas of the world, the PAH levels from Zhanjiang mangroves were low to moderate. The composition of PAHs was characterized by three rings of PAHs. Potential risk assessments demonstrated that the levels of benzo[a]pyrene in fishes, cephalopods, crustaceans, and shellfish from Zhanjiang mangroves were within the EU limits and were considered acceptable (<10?5).