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时间:2020-03-27
《BDE209胁迫对翡翠贻贝(Perna viridis)SOD、MDA和GSH的影响.pdf》由会员上传分享,免费在线阅读,更多相关内容在行业资料-天天文库。
1、农业环境科学学报2012,31(6):1053—1059JournalofAgro—EnfironmentScienceBDE209胁迫对翡翠贻贝Pernaviridis)SOD、MDA和GSH的影响黄志斐1,一,张结1,马胜伟1,王贺威1一,巩秀玉1.3,蔡文贵-,陈海刚1,贾晓平-+(1.广东省渔业生态环境重点实验窀,农业部南海渔业资源环境科学观测实验站,中国水产科学研究院南海水产研究所,广州510300;2.上海海洋大学海洋科学学院.上海201306;3-卜海海洋大学水产与生命学院上海210306)摘要:采用半静态实验方法,研究不同浓度B
2、DE209(0.1.1,】OⅢ噼·I,1)在胁迫1,3、7、15d和清洁海水中释放3、7d后,翡翠贻贝(Pernaviridis)外套膜和内脏团超氧化物歧化酶(SupemxideDismutase.SOD)活性、丙二醛(Malondialdehyde,MDA)含量和谷胱甘肽(Glutathione.GSH)含量的变化规律。结果表明,BDE209胁迫后.翡翠贻贝2组织SOD活性先是受到明显的诱导作用,之后随胁迫时间延长被湿著性抑制(P<0.01);BDE209对翡翠贻贝外套膜MDA含昔的影响旱诱导一抑制反复变化.对内脏团MDA含量的影响表现为明显
3、的诱导效应.其中胁迫第3d时的诱导率最高,为22.83%。翡翠贻贝外套膜(.SIt含量在BDE209胁迫初期就被显著诱导(P4、OD;MDA;GSH中图分类号:X503.225文献标志码:A文章编号:1672—2043(2012)06—1053--07EffectsofBDE209ontheSOD.M[DA.GSHofPernaviridisHUANGZhi-feil0ZHANGZhel,MASheng-weil,WANGHe-weil‘GONGXiu-yu”,CAIWen-guil,CHENHal-gan91,JIAXiao-ping”(1.KeyLabofFisheryEcologyandEnvironment,ScientificObservingandExper5、imentalStationofSouthChinaSeaFisheryResources&Environment,MinistryofAgnculture,P.R.China,SouthChinaSeaFisheriesResearchInstitute,ChineseAcademyofFisherySciences,Guangzhou510300,China;2.CollegeofMarineSciences。ShanghaiOceanUniversity,Shanghai201306.China;3.CoHegeofFisheriesan6、dLifeSciences。ShanghaiOceanUniversity,Shanghai201306,China).Abstract:Asakindofpersistentorganicpollutants(POPs),deca-hromodiphenylether(BDE209)belongstOpolybrominateddiphenylethers(PBDEs),whichwereproducedin1960andusedlargelyallamundtheworld.Becauseofthecharacteristicsofdi珩c7、ultdegradation,bioac—cumulationandbiologicaltoxicity,B1)E209cancausethegreaterharmontheenvironmentandorganisms.Therefore,itisnecessarytOstrengthenthelmsealrchonthetoxiceffectandmechanismofBDE209011themarineorganisms.Thesemi—staticexperimentswerecarriedoutbysetting3concentrat8、iongroups(0.1。lmg·L‘1and10”g。I。。)ofBDE209IostudytIlevariationtrendsoftheact
4、OD;MDA;GSH中图分类号:X503.225文献标志码:A文章编号:1672—2043(2012)06—1053--07EffectsofBDE209ontheSOD.M[DA.GSHofPernaviridisHUANGZhi-feil0ZHANGZhel,MASheng-weil,WANGHe-weil‘GONGXiu-yu”,CAIWen-guil,CHENHal-gan91,JIAXiao-ping”(1.KeyLabofFisheryEcologyandEnvironment,ScientificObservingandExper
5、imentalStationofSouthChinaSeaFisheryResources&Environment,MinistryofAgnculture,P.R.China,SouthChinaSeaFisheriesResearchInstitute,ChineseAcademyofFisherySciences,Guangzhou510300,China;2.CollegeofMarineSciences。ShanghaiOceanUniversity,Shanghai201306.China;3.CoHegeofFisheriesan
6、dLifeSciences。ShanghaiOceanUniversity,Shanghai201306,China).Abstract:Asakindofpersistentorganicpollutants(POPs),deca-hromodiphenylether(BDE209)belongstOpolybrominateddiphenylethers(PBDEs),whichwereproducedin1960andusedlargelyallamundtheworld.Becauseofthecharacteristicsofdi珩c
7、ultdegradation,bioac—cumulationandbiologicaltoxicity,B1)E209cancausethegreaterharmontheenvironmentandorganisms.Therefore,itisnecessarytOstrengthenthelmsealrchonthetoxiceffectandmechanismofBDE209011themarineorganisms.Thesemi—staticexperimentswerecarriedoutbysetting3concentrat
8、iongroups(0.1。lmg·L‘1and10”g。I。。)ofBDE209IostudytIlevariationtrendsoftheact
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