生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
9期
1472-1477
,共6页
谭娟%吴健%吴建强%林根满%王敏
譚娟%吳健%吳建彊%林根滿%王敏
담연%오건%오건강%림근만%왕민
石油污染%滩涂%生物体%分布%健康风险
石油汙染%灘塗%生物體%分佈%健康風險
석유오염%탄도%생물체%분포%건강풍험
petroleum pollution%tidal marshes%organism%distribution%health risk
通过研究溢油事故污染区域中典型生物体内TPH(Total Petroleum Hydrocarbons)分布特征,对其进行暴露人体健康风险评估,从而为污染区域的生态系统修复与恢复工作提供指导依据。在研究区域受溢油污染并采取应急处置10个月后,采集了位于4个污染滩涂集中填放区和1个不受污染的对照区内的生物体和沉积物样品,采用紫外分光光度法和荧光分光光度法测得 TPH 含量。结果表明,污染区域中无齿螳臂相手蟹 Chiromantes dehaani)肌肉组织中的 TPH 含量分布范围为2.94~39.63 mg·kg-1,内脏中的TPH含量分布范围为8.62~155.41 mg·kg-1,内脏组织中的TPH含量高于肌肉组织,两者呈显著的相关性(Pearson相关系数r=0.9456)。受潮汐水动力等环境因素的影响,整个研究区域生物体内TPH的累积呈现不连续非均质特征。生物体肌肉和内脏组织中的TPH含量与沉积物中TPH含量具有明显的线性关系(y=283.3 x+100,r2=0.9901;y=60.701 x+100,r2=9038),溢油事故造成的沉积物污染是影响生物体内TPH累积的一个重要因素。同时,采用US EPA人体暴露风险评价方法进行人体健康风险评估,结果显示,污染区域生物体内TPH经口摄入的暴露风险指数ERI均值均大于1,分别为1.13、1.05、2.58、2.73,暴露风险处于不可接受水平。根据人体健康风险的可接受水平计算得出可接受的无齿螳臂相手蟹体内TPH安全值为34.4 mg·kg-1,进一步计算得出污染区域沉积物中TPH的修复目标值为2513 mg·kg-1。
通過研究溢油事故汙染區域中典型生物體內TPH(Total Petroleum Hydrocarbons)分佈特徵,對其進行暴露人體健康風險評估,從而為汙染區域的生態繫統脩複與恢複工作提供指導依據。在研究區域受溢油汙染併採取應急處置10箇月後,採集瞭位于4箇汙染灘塗集中填放區和1箇不受汙染的對照區內的生物體和沉積物樣品,採用紫外分光光度法和熒光分光光度法測得 TPH 含量。結果錶明,汙染區域中無齒螳臂相手蟹 Chiromantes dehaani)肌肉組織中的 TPH 含量分佈範圍為2.94~39.63 mg·kg-1,內髒中的TPH含量分佈範圍為8.62~155.41 mg·kg-1,內髒組織中的TPH含量高于肌肉組織,兩者呈顯著的相關性(Pearson相關繫數r=0.9456)。受潮汐水動力等環境因素的影響,整箇研究區域生物體內TPH的纍積呈現不連續非均質特徵。生物體肌肉和內髒組織中的TPH含量與沉積物中TPH含量具有明顯的線性關繫(y=283.3 x+100,r2=0.9901;y=60.701 x+100,r2=9038),溢油事故造成的沉積物汙染是影響生物體內TPH纍積的一箇重要因素。同時,採用US EPA人體暴露風險評價方法進行人體健康風險評估,結果顯示,汙染區域生物體內TPH經口攝入的暴露風險指數ERI均值均大于1,分彆為1.13、1.05、2.58、2.73,暴露風險處于不可接受水平。根據人體健康風險的可接受水平計算得齣可接受的無齒螳臂相手蟹體內TPH安全值為34.4 mg·kg-1,進一步計算得齣汙染區域沉積物中TPH的脩複目標值為2513 mg·kg-1。
통과연구일유사고오염구역중전형생물체내TPH(Total Petroleum Hydrocarbons)분포특정,대기진행폭로인체건강풍험평고,종이위오염구역적생태계통수복여회복공작제공지도의거。재연구구역수일유오염병채취응급처치10개월후,채집료위우4개오염탄도집중전방구화1개불수오염적대조구내적생물체화침적물양품,채용자외분광광도법화형광분광광도법측득 TPH 함량。결과표명,오염구역중무치당비상수해 Chiromantes dehaani)기육조직중적 TPH 함량분포범위위2.94~39.63 mg·kg-1,내장중적TPH함량분포범위위8.62~155.41 mg·kg-1,내장조직중적TPH함량고우기육조직,량자정현저적상관성(Pearson상관계수r=0.9456)。수조석수동력등배경인소적영향,정개연구구역생물체내TPH적루적정현불련속비균질특정。생물체기육화내장조직중적TPH함량여침적물중TPH함량구유명현적선성관계(y=283.3 x+100,r2=0.9901;y=60.701 x+100,r2=9038),일유사고조성적침적물오염시영향생물체내TPH루적적일개중요인소。동시,채용US EPA인체폭로풍험평개방법진행인체건강풍험평고,결과현시,오염구역생물체내TPH경구섭입적폭로풍험지수ERI균치균대우1,분별위1.13、1.05、2.58、2.73,폭로풍험처우불가접수수평。근거인체건강풍험적가접수수평계산득출가접수적무치당비상수해체내TPH안전치위34.4 mg·kg-1,진일보계산득출오염구역침적물중TPH적수복목표치위2513 mg·kg-1。
In order to provide guidance for ecosystem restoration in contaminated area, the Total Petroleum Hydrocarbon (TPH) distribution in typical organism (Chiromantes dehaani) around tidal marshes which were polluted after an oil spill accident was studied, and human exposure assessment approach by US EPA was applied to evaluate the human health risk. The sediments and organisms samples were collected in four contaminated areas and one non-contaminated area after taking emergency disposal, the TPH were measured using ultraviolet spectrophotometry and fluorescence spectrophotometry. The results showed that the content of TPH in Chiromantes dehaani’ visceral tissue, ranging from 8.62 mg·kg-1 to 155.41 mg·kg-1, was significantly higher than that in muscle tissue, ranging from 2.94 mg·kg-1 to 39.63 mg·kg-1. The TPH content in visceral tissue had a significantly positive correlation (Pearson correlation coefficient, r=0.945 6)with the content in muscle tissue. The accumulation of TPH in organisms presented discontinuous and heterogeneous due to the influence of environmental factors such as tidal and hydrodynamic. Meanwhile, the TPH in organisms and sediments have an obvious linear relationship(y=283.3 x+100, r2=0.990 1;y=60.701 x+100, r2=9 038), the TPH in sediments was an important factor for TPH biological accumulation. The human health risk assessment results indicated that exposure risk index values of TPH in Chiromantes dehaani around the pollution area exceeded 1, which were 1.13, 1.05, 2.58, 2.73 respectively, the exposure risk was unacceptable. It suggested that the acceptable level of TPH in Chiromantes dehaani is 34.4 mg·kg-1 according to the human health risk assessment, and the sediment remediation goal should be 2 513 mg·kg-1 according to relationship between TPH content in organism and sediment.
