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OALib Journal期刊
ISSN: 2333-9721
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高效还原铬的苏云金芽胞杆菌菌株筛选
DOI: 10.3724/SP.J.1145.2010.00879, PP. 879-882
Keywords: 苏云金芽胞杆菌,铬(vi),废水处理,还原能力
Abstract:
在1%接种量、初始铬(vi)浓度50mgl-1、ph7、30℃及180r/min条件下,从源自水样、土壤、植物、动物粪便、食品、昆虫及饲料的76个苏云金芽胞杆菌(bacillusthuringiensis,简称bt)菌株中筛选出2株具有高效铬(vi)还原能力的菌株brc-hzm7和brc-xq15,在24h之内可使50mgl-1铬(vi)低于0.5mgl-1,达到我国铬(vi)废水排放标准.另有34株菌株最少只需36~72h(36h时6株菌株、48h时4株菌株、60h时13株菌株、72h时11株菌株)就可使50mgl-1铬(vi)达到我国铬(vi)废水排放标准.bt具有对环境和人安全的优点,在快速净化含铬(vi)废水方面具有广阔的应用前景.表1图1参31
| [1] | 4caosl(曹树梁).铬渣危害和治理方法研究.铬盐工业,2007(1):26~44
|
| [2] | 5chenj(陈佳),liuyk(刘雅克),liuf(刘�).experimentalstudyonthechangesofchromiumlevelsinserumanditseffectsontheratsliver.chinjjointsurgeryelectrversion(中华关节外科杂志电子版),2008,2(3):41~45
|
| [3] | 13faisalm,hameeda,hasnains.chromium-resistantbacteriaandcyanobacteria:impactoncr(vi)reductionpotentialandplantgrowth.jindmicrobiolbiotechnol,2005,32(11~12):615~621
|
| [4] | 16chizm(池振明).modernmicrobialecology.beijing,china(北京):sciencepress,2005.279~281
|
| [5] | 18lihy(黎昊雁),zhanggx(章国祥).establishmentofassayfordetectingtwelvefoodbornepathogensbyusingvisualizeddnamicroarray.inspection&quarantinesci(检验检疫学刊),2009(3):17~21
|
| [6] | 19tianch(田春华),jizx(冀志霞),wugt(吴广涛),chensw(陈守文).formulationandstressresistanceofpolyγ-glutamate-gelatinmicrocapsulationofbacillusthuringiensis.chinjapplenvironbiol(应用与环境生物学报),2009,15(3):367~370
|
| [7] | 22zhangjm(张建民),songqw(宋庆文),zhuby(朱宝瑜),wenbf(温碧芳).biologytreatmentforcontainingelectroplatingcr6+wastewater.jnorthwestinsttextilesci&technol(西北纺织工学院学报),1999,13(4):421~424
|
| [8] | 23huy(胡勇),quanxj(全学军),tanhq(潭怀琴),zhaoyc(赵由才).studyonbiosorptionofcr(ⅵ)bybacteriax07.environprotsci(环境保护科学),2005,31(11):9~12
|
| [9] | 24wangj(王竞),taoy(陶颍),zhoujt(周集体),gongxy(宫小燕).biosorptionofchromium(ⅵ)ionsfromaqueoussolutionbyanovelbacterialexopolymers.technolwatertreat(水处理技术),2001,27(3):145~147
|
| [10] | 25gengzx(耿振香),suny(孙颖).microbialtreatmentofwastewatercontainingchromium(vi).chemeng(化学工程师),2003,95(2):6~9
|
| [11] | 27zhouqy(周群英),gaoty(高廷耀).environmentalengineeringmicrobiology.beijing,china:highereducationpress(北京:高等教育出版社),2001.122~126
|
| [12] | 28aoy(敖勇),huangb(黄兵).thestudyoffunusscreenedwhichtoremovalchromiuminwaterenvironmental.yunnangeogrenvironres(云南地理环境研究),2006,18(3):49~52
|
| [13] | 29yejs(叶锦韶),yihua(尹华),pengh(彭辉).advanceonstudyoftheresistancetoheavymetalbymicroorganisms.tech&equipenvironpollcontrol(环境污染治理技术与设备),2002,3(4):1~4
|
| [14] | 30linz,zhuy,kalabegishvilitl,tsibakhashviliny,holmanh.effectofchromateactiononmorphologyofbasalt-inhabitingbacteria.matsciengc-bios,2006,26(4):610~612
|
| [15] | 1caily(柴立元),longtf(龙腾发),tangl(唐宁),zhuangml(庄明龙),minxb(闵小波).experimentalstudyonmicrobialtreatmentofalkalinewastewatercontainingchromium[cr(vi)].jcentralsouthunivsci&technol(中南大学学报自然科学版),2005,36(5):816~819
|
| [16] | 2qujg(瞿建国),shenrx(申如香),xubx(徐伯兴),lifd(李福德).studyonmicrobiologicaltreatmentofwastewatercontaininghexavalentchromium.environprotchemind(化工环保),2005,25(1):1~4
|
| [17] | 3chenggj(程国军),hugj(胡光济),liyg(李友国).isolation,identificationandbioreductionofabacteriumstrainresistanttochromium(ⅵ).jsouth-centralunivnationalitiesnatscied(中南民族大学学报自然科学版),2008,27(3):29~31
|
| [18] | 6mengqh(孟庆恒),fus(傅珊),zhanghj(张海江),pengb(彭博).preliminaryassayingondistributionofmicrobesincrpollutedsoilandselectionofcraccumulativestrains.jagro-environsci(农业环境科学学报),2007,26(2):472~475
|
| [19] | 7zhouht(周海涛),baiyq(白毓谦).isolationofhexavalentchromium-reducingbacteriumanditsapplicationsinpurifyingchromium-contaminatedwastewater.joceanunivqingdao(青岛海洋大学学报),1991,21(3):104~109
|
| [20] | 8gaoxp(高小朋),zhangqq(张欠欠),xup(许平),fengjh(冯进辉).advancesinmicrobialreductionofcr(vi).microbiology(微生物学通报),2008,35(5):820~824
|
| [21] | 9romanenkov.patentspecification(ii)1475369.london,un:thepatentoffice,1997
|
| [22] | 10ohtakeh,fujiie,todak.bacterialreductionofhexavalentchromium:kineticaspectsofchromatereductionbyenterobactercloacaeho1.biocatbiotransform,1990,4(2~3):227~235
|
| [23] | 11komorik,rivasa,todak,ohtakeh.biologicalremovaloftoxicchromiumusinganenterobactercloacaestrainthatreduceschromateunderanaerobicconditions.biotechnolbioeng,1990,35(9):951~954
|
| [24] | 12pala,duttas,paulak.reductionofhexavalentchromiumbycell-freeextractofbacillussphaericusand303isolatedfromserpentinesoil.currmicrobiol,2005,51(5):327~330
|
| [25] | 14pattanapipitpaisalp,brownn,macaskiel.chromatereductionand16srrnaidentificationofbacteriaisolatedfromacr(vi)-contaminatedsite.appmicrobiolbiotechnol,2001,57(1~2):257~261
|
| [26] | 15myerscr,carstensbp,antholinewe,myersjm.chromium(vi)reductaseactivityisassociatedwiththecytoplasmicmembraneofanaerobicallygrownshewanellaputrefaciensmr-1.japplmicrobiol,2000,88(1):98~106
|
| [27] | 17liny(林毅),fanggw(方光伟),cailx(蔡丽希),pengk(彭锟).screeningandmolecularidentificationforheavymetal-resistantisolates.jquanzhounormunivnatsci(泉州师范学院学报自然科学),2005,23(2):73~76
|
| [28] | 20zhouxy(周学永),gaojb(高建保),wangw(汪威),yuzn(喻子牛),dangy(单国雁).thermodynamicsofadsorptionofchromium(vi)ontheinsecticidalpowderofbacillusthuringiensi.jagro-environsci(农业环境科学学报),2007,26(4):1292~1295
|
| [29] | 21shangby(尚邦懿).gb7467-87waterquality―determinationofchromium(vi)―1,5diphenylcarbohydrazidespectrophotometricmethod
|
| [30] | 26xiaow(肖伟),wangl(王磊),zhangsw(张思维),qiaowj(乔文杰),fuxh(付小花),rendm(任大明).isolation,identificationandhexavalentchromiumreductionstudiesofbacilluscereuss5.4.indmicrobiol(工业微生物),2007,37(6):1~6
|
| [31] | 31sarangia,krishnanc.comparisonofinvitrocr(vi)reductionbycfesofchromateresistantbacteriaisolatedfromchromatecontaminatedsoil.bioresourtechnol,2008,99(10):4130~4137
|
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