应用与环境生物学报2004,10(5):667~670ChinJApplEnvironBiol=ISSN10062687X2004210225极低频电磁场及与铅联合作用对发光细菌Vibrioqinghaiensis发光的影响3刘33喻云梅翁恩琪(华东师范大学环境科学系上海200062)摘要观察了50Hz,0.1~9.6mT,10~30min的电磁场暴露及其与铅的联合作用对淡水发光细菌青海弧菌(Vib2rioqinghaiensissp.nov)发光的影响.结果表明,电磁场暴露能增强发光细菌的发光,在6.4mT附近,增强作用最为强烈,在0.2~0.4mT附近,增强作用显得最为微弱,提示ELFEMFs对发光细菌的效应具有剂量“窗口”特性;Pb(0.2~1.6mgL-1)能抑制发光细菌发光,并随着Pb剂量的增大,抑制效应愈明显,呈明显的线性负相关;电磁场与Pb合并作用,Pb并没有改变电磁场对发光细菌效应的包括剂量窗口在内的特性,但3.2~9.6mT的电磁场暴露提高了发光细菌对Pb剂量变化的敏感性.图3表3参9关键词极低频电磁场;铅;发光细菌CLCX837.02EFFECTSOFEXTREMELYLOWFREQUENCYELECTROMAGNETICFIELDSANDITSCOMBINEDEFFECTWITHLEADONTHELUMINESCENCEOFVIBRIOQINGHAIENSIS3LIUYun33,YUYunmei&WENGEnqi(DepartmentofEnvironmentalScience,EastChinaNormalUniversity,Shanghai200062,China)AbstractTheeffectsofextremelylowfrequencyelectromagneticfields(ELFEMFs)anditscombinedeffectwithleadontheluminescenceofluminescentbacteriaVibrioqinghaiensissp.nov(StrainQ67)werestudiedinthispaper.Resultsindi2catedthatanexposureto50Hz,0.1~9.6mTEMFsfor10~30minsignificantlyenhancedtheluminescence.Theen2hancementwasmostevidentwhenEMFsdensitywasaround6.4mTandweakestatabout0.2~0.4mT,whichsuggeststheexistenceofdose”windows”duringtheinteractionbetweenEMFsandthebacterialorganisms.Exposuretolead(0.2~1.6mgL-1)inhibitedtheluminescence,andtheinhibitionbecamestrongerwiththeincrementofleaddose.WhenELFEMFsandleadwereappliedsimultaneously,theresultssuggestedthatleadcouldnotchangethecharacteristicsofELFEMFs′effectsontheluminescenceincludingdose”windows”.However,undertheexposuretoEMFsof3.2~9.6mTtheluminescentbacteriabecamemoresensitivetotheincrementofleaddose.Fig3,Tab3,Ref9Keywordsextremelylowfrequencyelectromagneticfields;lead;luminescentbacteriaCLCX837.02极低频电磁场(extremelylowfrequencyelectromagneticfields,ELFEMFs)是指频率为0~3000Hz的电磁场,我们日常生活中接触最多的ELFEMFs是50Hz(欧美国家多为60Hz)的工频电磁场.随着电力事业的迅猛发展和家用电器的广泛普及,ELFEMFs已逐渐成为威胁人体以及其他生物体健康和安全的环境污染因子[1].发光细菌在代谢过程中伴随着发光,通过监测发光细菌发光的变化,可推断其代谢过程是否受到影响[2].发光细菌急性毒性试验已被用来检测环境化学污染物的毒性[3].极低频电磁场是否会影响发光细菌的发光效应呢?我们选择了淡水发收稿日期:2003209205接受日期:20032102283上海市重点学科生态学资助SupportedbytheShanghaiPriorityA2cademicDiscipline(Ecology)33通讯作者Correspondingauthor光细菌青海弧菌,观察了ELFEMFs对其发光的影响;此外,考虑到环境电磁场污染往往和化学污染物同时存在,又观察了它和铅暴露的联合作用.1材料与方法1.1材料淡水发光细菌青海弧菌(Vibrioqinghaiensissp.nov,strainQ67)冻干粉,由华东师范大学生物系朱文杰教授提供.测定前将发光细菌冻干粉置于4℃下复苏10min,然后取1mL4℃预冷的0.85%NaCl溶液注入粉剂瓶内,震荡混匀,再加入3mLNaCl溶液,配制成n=109~1010mL-1的细菌悬液备用.电磁场发生器,由华东师范大学教学仪器厂研制,参数为:正弦波、50Hz、0~15mT连续可调,用CT3-A型特斯拉计和SR-12A型示波器监测.©1994-2008ChinaAcademicJournalElectronicPublishingHouse.Allrightsreserved.http://www.cnki.netRS9901生物发光光度计,上海容圣电子仪器公司生产.1.2暴露与测定每支样品管内包含2mL0.85%NaCl溶液和100μL细菌悬液.样品管分为2组:空白对照管和测试管.测试管再分为4小组:电磁场假暴露管...
