Aas E,Baussant T,Balk L et al.,PAH Metabolites in Bile,Cytochrome P4501A and DNA Adducts as Environmental Risk Parameters for Chronic Oil Exposure:a Laboratory Experiment with Atlantic Cod.Aquatic.Toxicol.,2000,51:241-258
[2]
Cossu C,Doyotte A,Babut M et al.,Anoxidant Biomarkers in Freshwater Bivalves,Unio Tumidus,in Response to Different Contamination Profiles of Aquatic Sediments.Ecotox.Environ.Safe,2000,45:106-121
[3]
Niyogia S,Biswasa S,Sarkerb S et al.,Antioxidant Enzymes in Brackishwater Oyster,Saccostrea Cucullata as Potential Biomarkers of Polyaromatic Hydrocarbon Pollution in Hooghly Estuary(India):Seasonality and Its Consequences.Sci.Total Environ.,2001,281:237-246
[4]
Almeidaa J A,Dinizb Y S,Marquesa,S F G et al.,The Use of the Oxidative Stress Responses as Biomarkers in Nile Tilapia (Oreochromis Niloticus) Exposed to in Vivo Cadmium Contamination.Environ.Int.,2002,27:673-679
[5]
Cheung C C C,Siu W H L,Richardson B J et al.,Antioxidant Responses to Benzo[a] pyrene and Aroclor 1254 Exposure in the Green-Lipped Mussel.Perna Viridis Environ.Pollut.,2004,128:393-403
Sole M,Porte C,Barcelo D,Vitellogenin Induction and Other Biochemical Responses in Carp,Cyprinus Carpio,After Experimental Injection with 17 Alpha-Ethynylestradiol.Arch.Environ.Toxicol.,2000,38:494-500
[8]
Bello S M,Franks D G,Stegeman J J et al.,Acquired Resistence to Ah Receptor Agonists in a Population of Atlantic Killifish(Fundulus heteroclitus)Inhabiting a Marine Superfund Site:in Vivo and in Vitro Studies on the Inducibility of Xenobiotic Metabolizing Enzymes.Toxicol.Sci.,2001,60:77-91
[9]
Lenaz G,Role of Mitochondria in Oxidative Stress and Ageing.Biochem.Biophys.Acta/Bioenergetics.,1998,1366:53-67
[10]
St-Pierre J,Buckingham J A,Roebuck S J et al.,Topology of Superoxide Production from Different Sites in the Mitochondrial Electron Transport Chain.J.Biol.Chem.,2002,277(22):44784-44790
[11]
Takeshita K,Fujii K,Anzai K et al.,In vivo Monitoring of Hydroxyl Radical Generation Caused by X-Ray Irradiation of Rats Using the Spin Trapping/EPR Technique.Free Radic.Biol.Med.,2004,36 (9):1134-1143
[12]
Ringwood A H,Conners D E,Keppler C J et al.,Biomarker Studies With Juvenile Oysters (Crassostrea Virginica) Deployed in Situ.Biomarkers,1999,4:400-414
[13]
Roméo M,Bennani N,Gnassia-Barelli M et al.,Cadmium and Copper Display Different Responses Towards Oxidative Stress in the Kidney of the Sea Bass Dicentrarchus Labrax.Aquat.Toxicol.,2000,48:185-194
[14]
Di Giulio R T,Benson W H,Sanders B M et al.,Biochemical Mechanisms:Metabolism,Adaptation,and Toxicity.In Fundamentals of Aquatic Toxicity.Effects,Environmental Fate,and Risk Assessment,ed.Rand G,Taylor and Francis,London,1995
[15]
Livingstone D R,Organic Xenobiotic Metabolism in Marine Invertebrates.In Advances in Comparative and Enviromental Physiology.1991,Vol.7,ed.Gilles R,pp.45-185.Springer,Berlin
[16]
Selote D S,Bharti S,Khanna-Chopra R,Drought Acclimation Reduces O-2 Accumulation and Lipid Peroxidation in Wheat Seedlings.Biochem.Bioph.Res.Co.,2004,314:724-729
[17]
Shi H H,Wang X R,Luo Y et al.,Electron Paramagnetic Resonance Evidence of Hydroxyl Radical Generation and Oxidative Damage Induced by Tetrabromobisphenol A in Carassius Auratus.Aquat.Toxicol.,2005,74:365-371
[18]
Luo Y,Wang X R,Shi H H et al.,EPR Investigation of in Vivo Free Radical Formation and Oxidative Stress Induced by 2,4-Dichlorophenol in the Freshwater Fish Carassius Auratus.Environ.Toxicol.Chem.,2005,24(9):2145-2153
[19]
Sun Y Y,Yu H X,Zhang J F et al.,Bioaccumulation,Depuration and Oxidative Stress in Fish Carassius auratus Under Phenanthrene Exposure.Chemosphere,2005(In press)
[20]
Mercure F,Holloway A C,Tocher D R et al.,Influence of Plasma Lipid Changes in Response to 17-Estradiol Stimulation on Plasma Growth Hormone,Somatostatin,and Thyroid Hormone Levels in Immature Rainbow Trout.J.Fish.Biol.,2001,59:605-615
[21]
Liehr J G,Roy D,Free Radical Generation by Redox Cycling of Estrogens.Free Radic.Bio.Med.,1990,8:415-423
[22]
Luo Y,Su Y,Lin R Z et al.,α-Chlorophenol Induced ROS Gereration in Fish Carassius Auratus Based on the EPR Method.Chemosphere,2006(in press)
[23]
Bierkens J,Maes J,Vander P F.Induction of Heat-Shock Protein 70 in Raphidocelis Subcapitata as a Monitoring Tool for Environmental Pollution.In:In6itox 96;9th international Workshop on in Vitro toxicology,Papendael,1996,p5.05
[24]
Bierkens J,Maes J,Vander P F.,Dose-Dependent Induction of Heat-Shock Protein 70 Synthesis in Raphi Docelis Subcapitata Following Exposure to Different Classes of Environmental Pollutants.Environ.Pollution,1998,101:91-97
[25]
Kammenga J E,Arts M S J,Oude-Breuil W J M,HSP60 as a Potential Biomarker of Toxic Stress in the Nematode Plectus Acuminatus.Arch.Environ.Contam.Toxicol.,1998,34:253-258
Kille P,Sturzenbaum S R,Galay M,Molecular Diagnosis of Pollution Impact in Earthworms:Toward Integrated Biomonitoring.Pedobiologia,1999,43(6):602-607
[29]
Behnisch P A,Hosoe K,Sakai S,Combinatorial Bio/Chemical Analysis of Dioxin and Dioxin and Dioxin-Like Compounds in Waste Recycling,Feed/Food,Humans/Wildwife and the Environment.Environ.Int.,2001,27(6):441-442
[30]
Van der Oost R,Beyer J,Vermeulen N P E,Fish Bioaccumulation and Biomarkers in Environmental Risk Assessment:a Review.Environmental Toxicology and Pharmacology,2003,13:57-149
[31]
Cheung C C C,Zheng G J,Lam P K S et al.,Relationships Between Tissue Concentrations of Chlorinated Hydrocarbons (Polychlorinated Biphenyls and Chlorinated Pesticides) and Antioxidative Responses of Marine Mussels,Perna viridis.Mar.Pollut.Bull.,2002,45:181-191
[32]
Pascual P,Pedrajas J R,Toribio F et al.,Effect of Food Deprivation on Oxidative Stress Biomarkers in Fish (Sparus aurata) Chem-Biol.Interact.,2003,145:191-199
[33]
Oruc E O,Sevgiler Y,Uner N,Tissue-Specific Oxidative Stress Responses in Fish Exposed to 2,4-D and Azinphosmethyl.Comp.Biochem.Phys.C,2004,137:43-51
[34]
Zhang J F,Shen H,Wang X R et al.,Effects of Chronic Exposure of 2,4-Dichlorophenol on the Antioxidant System in Liver of FreshWater Fish.Carasius Auratus.Chemosphere,2004,55:167-174
[35]
Stegeman J J,Brouwer M,Richard T D G et al.,Molecular Responses to Environmental Contamination:Enzyme and Protein Systems as Indicators of Chemical Exposure and Effect.In:Huggett R J,Kimerly R A,Mehrle P M,Jr Bergman H L (Eds.),Biomarkers:Biochemical,Physiological and Histological Markers of Anthropogenic Stress.Lewis Publishers,Chelsea,MI,USA(1992),pp.235-335
[36]
Burdon R H,Superoxide and Hydrogen Peroxide in Relation to Mammalian Cell Proliferation.Free Radic.Biol.Med.,1995,18:775-779
[37]
Rahman L,MacNee W,Lung Glutathione and Oxidative Stress:Implications in Cigarette Smoke-Induced Airwats Disease.Free Radic.Biol.Med.,2000,28:1405-1420
[38]
Halliwell B,Gutteridge J M C,Free Radicals in Biology and Medicine,3rd ed.Oxford University Press,Oxford,UK,1999
[39]
Abele D,Burlando B,Viarengo A et al.,Exposure to Elevated Tempreratures and Gydrogen Peroxide Elicits Oxidative Stress and Antioxidant Response in the Antarctic Intertidal Limpet Nacella Concinna.Comp.Biochem.Phys.C,1998,117:123-129
[40]
Livingstone D R,Garcia Martinez P,Michel X et al.,Oxyradical Generation as a Pollution-Mediated Mechnism of Toxicity in the Common Mussel,Mytilus Edulis L.,and Other Mollusks.Fountional Ecology,1990,4:415-424
[41]
Livingstone D R,F(O)rlin L,George S,Molecular Biomarkers and Toxic Consequences of Impact by Organic Pollution in Aquatic Organisms.In Water Quality and Stress Indicators in Marine and Freshwater Syetems:Linking levels of Organization.ed.Sutcliffe.D W,1994,pp.154-171.Freshwater Biological Association,Ambleside,UK
[42]
Di Giulio R T,Benson W H,Sanders B M et al.,Biochemical Mechanisms:Metabolism,Adaptation,and Toxicity.In Fundamentals of Aquatic Toxicity.Effects,Environmental Fate,and Risk Assessment.ed.Rand G,Taylor and Francis,1995,London
[43]
Livingstone D,Contaminant-Stimulated Reactive Oxygen Species Production and Oxidative Damage in Aquatic Organisms.Mar.Pollut.Bull.,2001,42:656-666
[44]
Gawel J E,Ahner B A,Friedland A J et al.,Role for Heavy Metal in Forests Decline Indicated by Phytochelatin Measurements.Nature,1996,381:64-65
[45]
Hu S,Wu M,Cadmium Sequestration in the Marine Marcoalga Kappaphycus Alvarezii.Mol.Mar.Biol.Biotech.,1998,7:97-104
[46]
Sun Q et al.,Effects of Exogenous Organic Chelates on Phytochelatins Production and Its Relationship with Cd Toxicity in Wheat (Triticum aestivum L.) Under Cd Stress.Chemosphere,2005,60(1):22-31
