Biomarker responses in the bivalve Chlamys farreri to the water-soluble fraction of crude oil

To investigate the effect of the water soluble fraction of crude oil(WSF) on marine bivalves, the scallop C hlamys farreri was exposed to three WSF concentrations(0.18 mg/L, 0.32 mg/L, and 0.51 mg/L, respectively) in seawater. Petroleum hydrocarbon contents in scallops and a suite of enzymes [7-Ethoxyresorufin-O-deethylase(EROD), aryl hydrocarbon hydroxylase(AHH), glutathione S-transferase(GST), and glutathione peroxidase(GPx)] in gills and digestive glands were monitored over 10 days. The results revealed that WSF affected the activity of the four enzymes in the gills and digestive glands. EROD activity in the gills was significantly induced in most individuals of the three test groups, while in the digestive gland it was significantly induced in the low-concentration group within 4 days but was inhibited in the middle- and high-concentration groups on days 1, 4, and 10. AHH activity in the gills of all treatment groups was significantly induced on day 1. In the digestive gland, AHH activity was induced in most individuals from the treatment groups. In all treatment groups, GST activity was significantly inhibited from days 2 to 10 in the gills and was induced after day 4 in the digestive gland. GPx activity in the gills was significantly inhibited throughout the exposure period in all treatment groups. There was no overall significant difference in GPx activity in the digestive gland between the control and treatment groups. Our results also revealed that petroleum hydrocarbon concentrations in the tissues increased linearly with exposure time. EROD activity in the digestive gland and GST and GPx activity in the gill tissue were negatively correlated with petroleum hydrocarbon body burden. These enzymes play important roles in detoxification and can act as potential biomarkers for monitoring petroleum hydrocarbon contaminants in the marine environment.

原油WSF对三种海洋鱼类肝微粒体EROD活性的诱导和恢复的比较

研究了实验室条件下原油水溶性组分(WSF)暴露对黑鲷、黄鳍鲷和褐菖鲉肝微粒体EROD活性的剂量-效应,时间-效应和恢复过程。实验结果表明,在剂量诱导实验中,褐菖鲉肝EROD活性在原油WSF浓度为50μg/dm3时呈现生物统计学上的显著差异,而黑鲷和黄鳍鲷肝EROD活性在75μg/dm3时才呈现生物统计学上的显著差异;褐菖鲉肝EROD活性诱导倍数最高,但黑鲷的诱导浓度范围较广。在时间诱导实验中,在40μg/dm3原油WSF暴露下黄鳍鲷肝EROD活性在2 d时首先呈现显著差异;三种鱼肝EROD活性均在第4天达到最高,并呈现显著性变化,此后随着暴露时间的延长而逐渐下降并接近对照组水平。在恢复实验中三种鱼肝EROD活性下降并恢复到对照组水平。研究结果表明:对于石油污染物,黑鲷、黄鳍鲷和褐菖鲉肝EROD活性都可以作为污染生化效应监测指标,然而就三种鱼类比较而言,褐菖鲉最敏感,更适合于作为石油类污染及其生化效应,尤其是低剂量效应的监测生物。

原油WSF对褐菖鲉肝微粒体CYP1A蛋白的诱导研究

1引言石油不仅是全球也是我国海洋环境最主要的污染物之一。其主要来源于工业排放,船舶运输、海上石油开采和溢油事故等。据报道,全球每年进入海洋的石油污染物达数百万吨至一千万吨,约占全世界石油总产量的0.5%[1]。近年来,我国海洋污染快速蔓延的势头虽然得到了一定程度的减缓,

原油污染对栉孔扇贝抗氧化酶活性的影响

以原油水溶性成分(water soluble fraction of crude oil,WSF)为污染物,采用暴露实验法,研究了栉孔扇贝(Chlamys farreri)鳃和消化腺组织中超氧化物歧化酶(Superoxide Dismutase,SOD)和过氧化氢酶(Catalase,CAT)活性的变化。结果表明,WSF污染下,鳃和消化腺组织SOD和CAT酶活性随暴露时间增加一般表现为降低-升高-降低的趋势,酶活性达到最高的时间随浓度不同而变化。第1天时消化腺SOD在0.08 mg/L浓度下被诱导,而后随时间增加表现为抑制效应;浓度为0.21和0.88 mg/L时消化腺SOD酶活性被抑制,随暴露时间延长而活性增加。暴露时间为4 d时,石油烃浓度在0.08和0.88 mg/L时鳃组织SOD酶活性均被抑制,而浓度为0.21 mg/L时被诱导。消化腺和鳃组织SOD可以作为扇贝被污染胁迫的指标。

3种海洋鱼类肝微粒体EROD活性的测定

根据鱼类的生态习性选择了暖温性近岸底层岩礁鱼类褐菖鲉和浅海底层鱼类黄鳍鲷和黑鲷作为实验动物,系统地研究了0#柴油WSF诱导组和对照组褐菖鲉肝微粒体EROD动力学反应系统的测定条件,确定了最适测定条件为:pH值7.60、温度15℃、底物7-乙氧基异吩恶唑浓度0.5μmol/L、样品蛋白量100—800μg、还原型辅酶II NADPH 70 nmol/mL。诱导组和对照组的最适反应条件没有差别,但是诱导组的酶活性比对照组的高;对照组和诱导组EROD的Km值分别为0.144μmol/L和0.357μmol/L,Vmax值分别为0.466 nmol min-1mg-1蛋白和2.360 nmol min-1mg-1蛋白。首次在我国建立了褐菖鲉肝微粒体EROD活性检测技术。此外,比较了上述3种实验鱼类肝微粒体EROD反应系统的最适pH值和最适温度。结果表明,与褐菖鲉不同,黄鳍鲷和黑鲷肝EROD反应最适pH值都是7.80,最适温度都是25℃。

海水中原油光降解与TiO_2光催化降解的比较研究

本文采取与海洋环境相似的条件(海水介质、UV-A光照),设计长实验周期30d,对单纯光降解和TiO_2催化降解原油的行为进行了比较研究,着重考察研究了TiO_2催化剂用量、硬脂酸包裹与否等条件对原油降解率的影响,通过紫外光谱、总有机碳分析仪、柱层析、气相色谱质谱(GC-MS)法,分析了原油水溶性成分(Water Soluble Fractions:WSF)、溶解有机碳(DOC)、原油组成的改变。结果表明原油光催化降解率高于光降解,TiO_2催化剂用量对原油降解率及WSF的组成和浓度有显著影响,催化剂是否包裹则影响不大。TiO_2质量分数为12.5%时原油降解率为39.14%,水体中DOC含量最高达到89.60mg/L,多环芳烃的降解率高达82.97%。估算的胶质降解率与芳香烃组分的降解率呈现正相关,光催化使得正构烷烃组分含量升高。

原油水溶液对海洋生物毒性影响的研究进展

目前,原油泄漏对海洋生物的影响为人关注。该文综述了海洋生物体内石油烃含量,原油水溶液对海洋生物的急性毒性、对海洋生物体内氧化酶系统多种酶活力及氧化产物含量、对生殖功能的影响及其分子生物学机制,结果提示,鱼类、软体类、甲壳类等海洋生物体内均检出石油烃;抗氧化酶可作为原油水溶液对海洋生物影响的生物标志物,石油烃的海水环境基准及风险评估方法有待尽快建立和完善,为人体健康风险评估奠定基础。