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OALib Journal期刊
ISSN: 2333-9721
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氨氧化古菌及其对环境因子的响应研究进展
DOI: 10.3724/SP.J.1145.2014.003024, PP. 1117-1123
Keywords: 氨氧化古菌,氨氧化细菌,环境因子,氨氮,群落结构,丰度
Abstract:
氨氧化是硝化过程的限速步骤,100多年来氨氧化细菌(ammonia-oxidizingbacteria,aob)一直被认为是氨氧化过程的主导微生物,氨氧化古菌(ammonia-oxidizingarchaea,aoa)的发现及其对不同环境因子的响应情况为氨氧化研究提供了新方向.本文概述了古菌氨氧化现象的发现,重点介绍了含盐水环境、淡水环境、土壤环境、污水处理系统以及极端环境下aoa的活性及其赋存状况,主要分析了不同环境因子(氨浓度、温度、盐度、溶解氧和ph等)对aoa群落结构和丰度的影响.研究表明aoa对氨和氧有较高的亲和力,从而使得其能在贫营养、低溶解氧和低ph条件下占主导,而aob则相反;同时,aoa对温度的响应范围更广.最后对aoa在堆肥过程中氮素的固定情况进行了简要描述,并就aoa今后的研究方向进行了展望.
| [1] | 1junierp,molinav,doradorc,hadaso,kimos,juniert,witzelkp,imhoffjf.phylogeneticandfunctionalmarkergenestostudyammonia-oxidizingmicroorganisms(aom)intheenvironment[j].applmicrobiolbiotechnol,2010,85(3):425-440
|
| [2] | 2kowalchukga,stephenjr.ammonia-oxidizingbacteria:amodelformolecularmicrobialecology[j].annurevmicrobiol,2001,55:485-529
|
| [3] | 3purkholdu,pommerening-rosera,juretschkos,schmidmc,koopshp,wagnerm.phylogenyofallrecognizedspeciesofammoniaoxidizersbasedoncomparative16srrnaandamoasequenceanalysis:implicationsformoleculardiversitysurveys[j].applenvironmicrobiol,2000,66(12):5368-5382
|
| [4] | 4schleperc,nicolgw.ammonia-oxidisingarchaea―physiology,ecologyandevolution[j].advmicrobphysiol,2010,57:1-41
|
| [5] | 5brianph,jessicakc,amandajw,weiguoh,enminz,liwj,dongh.areviewofthemicrobiologyoftherehaigeothermal[j].geosciencefront,2012,3(3):273-288
|
| [6] | 6胡安谊,焦念志.氨氧化古菌――环境微生物生态学研究的一个前沿热点[j].自然科学进展,2009,19(4):370-379
|
| [7] | 7simonhm,jahnce,bergerudlt,sliwinskimk,weimerpj,willisdk,goodmanrm.cultivationofmesophilicsoilcrenarchaeotesinenrichmentculturesfromplantroots[j].applenvironmicrobiol,2005,71(8):4751-4760
|
| [8] | 8ochsenreitert,selezid,quaisera,bonch-osmolovskayal,schleperc.diversityandabundanceofcrenarchaeotainterrestrialhabitatsstudiedby16srnasurveysandrealtimepcr[j].environmicrobiol,2003,5(9):787-797
|
| [9] | 9karnermb,delongef,karldm.archaealdominanceinthemesopelagiczoneofthepacificocean[j].nature,2001,409(6819):507-510
|
| [10] | 10venterjc,remingtonk,heidelbergjf,halpernal,ruschd,eisenja,wudy,paulseni,nelsonke,nelsonw,foutsde,levys,knapah,lomasmw,nealsonk,whiteo,petersonj,hoffmanj,parsonsr,baden-tillsonh,pfannkochc,rogersyh,smithho.environmentalgenomeshotgunsequencingofthesargassosea[j].science,2004,304(5667):66-74
|
| [11] | 11treuschah,leiningers,kletzina,schustersc,klenkhp,schleperc.novelgenesfornitritereductaseandamo-relatedproteinsindicatearoleofuncultivatedmesophiliccrenarchaeotainnitrogencycling[j].environmicrobiol,2005,7(12):1985-1995
|
| [12] | 12konnekem,bernhardae,delatorrejr,walkercb,waterburyjb,stahlda.isolationofanautotrophicammonia-oxidizingmarinearchaeon[j].nature,2005,437(7058):543-546
|
| [13] | 13spanga,hatzenpichlerr,brochier-armanetc,ratteit,tischlerp,spiecke,streitw,stahlda,wagnerm,schleperc.distinctgenesetintwodifferentlineagesofammonia-oxidizingarchaeasupportsthephylumthaumarchaeota[j].trendsmicrobiol,2010,18(8):331-340
|
| [14] | 20delatorrejr,walkercb,ingallsae,konnekem,stahlda.cultivationofathermophilicammoniaoxidizingarchaeonsynthesizingcrenarchaeol[j].environmicrobiol,2008,10(3):810-818
|
| [15] | 22kimjg,jungmy,parksj,rijpstrawi,sinninghedamstejs,madsenel,mind,kimjs,kimgj,rheesk.cultivationofahighlyenrichedammonia-oxidizingarchaeonofthaumarchaeotalgroupi.1bfromanagriculturalsoil[j].environmicrobiol,2012,14(6):1528-1543
|
| [16] | 23lehtovirta-morleyle,stoeckerk,vilcinskasa,prosserji,nicolgw.cultivationofanobligateacidophilicammoniaoxidizerfromanitrifyingacidsoil[j].pnas,2011,108(38):15892-15897
|
| [17] | 24wuchterc,abbasb,coolenmjl,herfortl,vanbleijswijkj,timmersp,strousm,teirae,herndlgj,middelburgjj,schoutens,damstejss.archaealnitrificationintheocean[j].pnas,2006,103(33):12317-12322
|
| [18] | 25santoroae,casciottikl.enrichmentandcharacterizationofammonia-oxidizingarchaeafromtheopenocean:phylogeny,physiologyandstableisotopefractionation[j].ismej,2011,5(11):1796-1808
|
| [19] | 32simsa,gajarajs,huz.seasonalpopulationchangesofammonia-oxidizingorganismsandtheirrelationshiptowaterqualityinaconstructedwetland[j].ecoleng,2012,40:100-107
|
| [20] | 33simsa,hortonj,gajarajs,mcintoshs,milesrj,muellerr,reedr,huzq.temporalandspatialdistributionsofammonia-oxidizingarchaeaandbacteriaandtheirratioasanindicatorofoligotrophicconditionsinnaturalwetlands[j].waterres,2012,46(13):4121-4129
|
| [21] | 34karnermb,delongef,karldm.archaealdominanceinthemesopelagiczoneofthepacificocean[j].nature,2001,409(6819):507-510
|
| [22] | 35francisca,robertskj,bemanjm,santoroae,oakleybb.ubiquityanddiversityofammonia-oxidizingarchaeainwatercolumnsandsedimentsoftheocean[j].pnas,2005,102(41):14683-14688
|
| [23] | 36nakagawat,morik,katoc,takahashir,tokuyamat.distributionofcold-adaptedammonia-oxidizingmicroorganismsinthedeep-oceanofthenortheasternjapansea[j].microbesenviron,2007,22(4):365-372
|
| [24] | 37mosier,ac,francisca.relativeabundanceanddiversityofammonia-oxidizingarchaeaandbacteriainthesanfranciscobayestuary[j].environmicrobiol,2008,10(11):3002-3016
|
| [25] | 40auguetjc,casamayoreo.ahotspotforcoldcrenarchaeotaintheneustonofhighmountainlakes[j].environmicrobiol,2008,10(4):1080-1086
|
| [26] | 43auguetjc,nomokonovan,camarerol,casamayoreo.seasonalchangesoffreshwaterammonia-oxidizingarchaealassemblagesandnitrogenspeciesinoligotrophicalpinelakes[j].applenvironmicrobiol,2011,77(6):1937-1945
|
| [27] | 45schleperc,nicolgw.ammonia-oxidisingarchaea―physiology,ecologyandevolution[j].advmicrobphysiol,2010,57:1-41
|
| [28] | 46leiningers,uricht,schloterm,schwarkl,qij,nicolgw,prosserji,schustersc,schleperc.archaeapredominateamongammonia-oxidizingprokaryotesinsoils[j].nature,2006,442(7104):806-809
|
| [29] | 48tournam,freitagte,nicolgw,prosserji.growth,activityandtemperatureresponsesofammonia-oxidizingarchaeaandbacteriainsoilmicrocosms[j].environmicrobiol,2008,10(5):1357-1364
|
| [30] | 49lul,jiaz.ureasegene-containingarchaeadominateautotrophicammoniaoxidationintwoacidsoils.environmicrobiol,2013,15(6):1795-1809
|
| [31] | 50shenjp,zhanglm,zhuyg,zhangjb,hejz.abundanceandcompositionofammonia-oxidizingbacteriaandammonia-oxidizingarchaeacommunitiesofanalkalinesandyloam[j].environmicrobiol,2008,10(6):1601-1611
|
| [32] | 51贺纪正,沈菊培,张丽梅.土壤中温泉古菌研究进展[j].生态学报,2009,29(9):5047-5055[hejz,shenjp,zhanglm.advanceintheresearchofsoilnon-thermophiliccrenarchaeota[j].actaecolsin,2009,29(9):5047-
|
| [33] | 52urakawah,tajimay,numatay,tsunedas.lowtemperaturedecreasesthephylogeneticdiversityofammonia-oxidizingarchaeaandbacteriainaquariumbiofiltrationsystems[j].applenvironmicrobiol,2008,74(3):894-900
|
| [34] | 53jint,zhangt,yanq.characterizationandquantificationofammonia-oxidizingarchaea(aoa)andbacteria(aob)inanitrogen-removingreactorusingt-rflpandqpcr[j].applenvironmicrobiol,2010,87(3):1167-1176
|
| [35] | 54kasugai,nakagakih,kurisuf,furumaih.predominanceofammonia-oxidizingarchaeaongranularactivatedcarbonusedinafull-scaleadvanceddrinkingwatertreatmentplant[j].waterres,2010,44(17):5039-5049
|
| [36] | 55kayeep,sonthiphandp,rongsayamanontc,limpiyakornt.archaealamoagenesoutnumberbacterialamoagenesinmunicipalwastewatertreatmentplantsinbangkok[j].microbecol,2011,62(4):776-788
|
| [37] | 56limpiyakornt,sonthiphandp,rongsayamanontc,polpraserc.abundanceofamoagenesofammonia-oxidizingarchaeaandbacteriainactivatedsludgeoffull-scalewastewatertreatmentplants[j].bioresourcetechnol,2011,102(4):3694-3701
|
| [38] | 57mussmannm,britoi,pitchera,sinninghedamstejs,hatzenpichlerr,richtera,nielsenjl,nielsenph,mullera,daimsh,wagnerm,headim.thaumarchaeotesabundantinrefinerynitrifyingsludgesexpressamoabutarenotobligateautotrophicammoniaoxidizers[j].pnas,2011,108(40):16771-16776
|
| [39] | 58yasudat,wakim,kurodak,hanajimad,fukumotoy,yamagishit,suway,suzukik.responsesofcommunitystructureofamoa-encodingarchaeaandammonia-oxidizingbacteriainammoniabiofilterwithrockwoolmixturestothegradualincreasesinammoniumandnitrate[j].japplmicrobiol,2013,114(3):746-761
|
| [40] | 59hugonim,etiens,bourgesa,leperec,domaizoni,malletc,bronnerg,debroasd,maryi.dynamicsofammonia-oxidizingarchaeaandbacteriaincontrastedfreshwaterecosystems[j].resmicrobiol,2013,164(4):360-370
|
| [41] | 60zhangt,yel,tongah,shaomf,loks.ammonia-oxidizingarchaeaandammonia-oxidizingbacteriainsixfull-scalewastewatertreatmentbioreactors[j].applenvironmicrobiol,2011,91(4):1215-1225
|
| [42] | 61gerhardww,mariondp,friedrichwg,wolfgangh,stan-lotterh.communitiesofarchaeaandbacteriainasubsurfaceradioactivethermalspringintheaustriancentralalps,andevidenceofammonia-oxidizingcrenarchaeota[j].applenvironmicrobiol,2007,73(1):259-270
|
| [43] | 64pratscherj,dumontmg,conradr.ammoniaoxidationcoupledtoco2fixationbyarchaeaandbacteriainanagriculturalsoil[j].pnas,2011,108(10):4170-4175
|
| [44] | 65martens-habbenaw,berubepm,urakawah,delatorrejr,stahlda.ammoniaoxidationkineticsdeterminenicheseparationofnitrifyingarchaeaandbacteria[j].nature,2009,461(7266):976-979
|
| [45] | 68limpiyakornt,furhackerm,haberlr,chodanont,srithepp,sonthiphandp.amoa-encodingarchaeainwastewatertreatmentplants:areview[j].applenvironmicrobiol,2013,97(4):1425-1439
|
| [46] | 69herrmannm,saundersam,schramma.archaeadominatetheammonia-oxidizingcommunityintherhizosphereofthefreshwatermacrophytelittorellauniflora[j].applenvironmicrobiol,2008,74(10):3279-3283
|
| [47] | 70chen,xp,zhuyg,xiay,shenjp,hejz.ammonia-oxidizingarchaea:importantplayersinpaddyrhizospheresoil?[j].environmicrobiol,2008,10(8):1978-1987
|
| [48] | 74zhanglm,huhw,shenjp,hejz.ammonia-oxidizingarchaeahavemoreimportantrolethanammonia-oxidizingbacteriainammoniaoxidationofstronglyacidicsoils[j].ismej,2012,6(5):1032-1045
|
| [49] | 75erguderth,boonn,wittebollel,marzoratim,verstraetew.environmentalfactorsshapingtheecologicalnichesofammonia-oxidizingarchaea[j].femsmicrobiolrev,2009,33(5):855-869
|
| [50] | 76oishir,tadac,asanor,yamamoton,suyamay,nakaiy.growthofammonia-oxidizingarchaeaandbacteriaincattlemanurecompostundervarioustemperaturesandammoniaconcentrations[j].microbecol,2012,63(4):787-793
|
| [51] | 77xiek,jiax,xup,huangx,guw,zhangf,yangs,tangs.improvedcompostingofpoultryfecesviasupplementationwithammoniaoxidizingarchaea[j].bioresourcetechnol,2012,120:70-77
|
| [52] | 78tournam,stieglmeierm,spanga,konnekem,schintlmeistera,uricht,engelm,schloterm,wagnerm,richtera,schleperc.nitrososphaeraviennensis,anammoniaoxidizingarchaeonfromsoil[j].pnas,2011,108(20):8420-8425
|
| [53] | 21jungmy,parksj,mind,kimjs,rijpstrawi,sinninghedamstejs,kimgj,madsenel,rheesk.enrichmentandcharacterizationofanautotrophicammonia-oxidizingarchaeonofmesophiliccrenarchaealgroupi.1afromanagriculturalsoil[j].environmicrobiol,2011,77(24):8635-8647
|
| [54] | 26matsutanin,nakagawat,nakamurak,takahashir,yoshiharak,tokuyamat.enrichmentofanovelmarineammonia-oxidizingarchaeonobtainedfromsandofaneelgrasszone[j].microbesenviron.,2011,26(1):23-29
|
| [55] | 27mincertj,churchmj,taylorlt,prestonc,karldm,delongef.quantitativedistributionofpresumptivearchaealandbacterialnitrifiersinmontereybayandthenorthpacificsubtropicalgyre[j].environmicrobiol,2007,9(5):1162-1175
|
| [56] | 28baiy,sunq,wend,tangx.abundanceofammonia-oxidizingbacteriaandarchaeainindustrialanddomesticwastewatertreatmentsystems[j].femsmicrobiolecol,2012,80(2):323-330
|
| [57] | 29zhangt,jint,yanq,shaom,wellsg,criddlec,hhpf.occurrenceofammonia-oxidizingarchaeainactivatedsludgesofalaboratoryscalereactorandtwowastewatertreatmentplants[j].japplmicrobiol,2009,107(3):970-977
|
| [58] | 30parkhd,wellsgf,baeh,criddlecs,francisca.occurrenceofammonia-oxidizingarchaeainwastewatertreatmentplantbioreactors[j].environmicrobiol,2006,72(8):5643-5647
|
| [59] | 31wangs,wangy,fengx,zhail,zhug.quantitativeanalysesofammonia-oxidizingarchaeaandbacteriainthesedimentsoffournitrogen-richwetlandsinchina[j].environmicrobiol,2011,90(2):779-787
|
| [60] | 38santoroae,francisca,desieyesnr,boehmab.shiftsintherelativeabundanceofammonia-oxidizingbacteriaandarchaeaacrossphysicochemicalgradientsinasubterraneanestuary[j].environmicrobiol,2008,10(4):1068-1079
|
| [61] | 39caoh,auguetjc,gujd.globalecologicalpatternofammonia-oxidizingarchaea.plosone,2013,8(2):e52853
|
| [62] | 41herrmannm,saundersam,schramma.effectoflaketrophicstatusandrootedmacrophytesoncommunitycompositionandabundanceofammonia-oxidizingprokaryotesinfreshwatersediments[j].applenvironmicrobiol,2009,75(10):3127-3136
|
| [63] | 42jianghc,donghl,yubs,lvg,dengsc,berzinsn,daimh.diversityandabundanceofammonia-oxidizingarchaeaandbacteriainqinghailake,northwesternchina[j].geomicrobiolj,2009,26(3):199-211
|
| [64] | 44houj,songcl,caoxy,zhouyy.shiftsbetweenammonia-oxidizingbacteriaandarchaeainrelationtonitrificationpotentialacrosstrophicgradientsintwolargechineselakes(laketaihuandlakechaohu)[j].waterres,2013,47(7):2285-2296
|
| [65] | 47nicolgw,leiningers,schlepec,prosserji.theinfluenceofsoilphonthediversity,abundanceandtranscriptionalactivityofammoniaoxidizingarchaeaandbacteria[j].environmicrobiol,2008,10(11):2966-2978
|
| [66] | 62sauderla,petersef,schoutens,neufeldjd.low-ammonianicheofammonia-oxidizingarchaeainrotatingbiologicalcontactorsofamunicipalwastewatertreatmentplant[j].environmicrobiol,2012,14(9):2589-2600
|
| [67] | 63avrahamis,jiaz,neufeldjd,murrelljc,conradr,kuselk.activeautotrophicammonia-oxidizingbacteriainbiofilmenrichmentsfromsimulatedcreekecosystemsattwoammoniumconcentrationsrespondtotemperaturemanipulation[j].applenvironmicrobiol,2011,77(20):7329-7338
|
| [68] | 66adairkl,schwartze.evidencethatammonia-oxidizingarchaeaaremoreabundantthanammonia-oxidizingbacteriainsemiaridsoilsofnorthernarizona,usa[j].microbecol,2008,56(3):420-426
|
| [69] | 67avrahamis,liesackw,conradr.effectsoftemperatureandfertilizeronactivityandcommunitystructureofsoilammoniaoxidizers[j].environmicrobiol,2003,5(8):691-705
|
| [70] | 71hejz,shenjp,zhanglm,zhuyg,zhengym,xumg,dih.quantitativeanalysesoftheabundanceandcompositionofammonia-oxidizingbacteriaandammonia-oxidizingarchaeaofachineseuplandredsoilunderlong-termfertilizationpractices[j].environmicrobiol,2007,9(9):2364-2374
|
| [71] | 72bengtsonp,sterngrenae,rouskj.archaealabundanceacrossaphgradientinanarablesoilanditsrelationshiptobacterialandfungalgrowthrates[j].applenvironmicrobiol,2012,78(16):5906-5911
|
| [72] | 73pereiraesmc,polyf,guillaumaudn,vanelsasjd,sallesjf.fluctuationsinammoniaoxidizingcommunitiesacrossagriculturalsoilsaredrivenbysoilstructureandph[j].frontmicrobiol,2012,3(77):1-22
|
| [73] | 14brochier-armanetc,boussaub,gribaldos,forterrep.mesophiliccrenarchaeota:proposalforathirdarchaealphylum,thethaumarchaeota[j].natrevmicrobiol,2008,6(3):245-252
|
| [74] | 15hallamsj,mincertj,schleperc,prestoncm,robertsk,richardsonpm,delongef.pathwaysofcarbonassimilationandammoniaoxidationsuggestedbyenvironmentalgenomicanalysesofmarinecrenarchaeota[j].plosbiol,2006,4(4):e95
|
| [75] | 16hayatsum,tagok,saitom.variousplayersinthenitrogencycle:diversityandfunctionsofthemicroorganismsinvolvedinnitrificationanddenitrification[j].soilsciplantnutr,2008,54(1):33-45
|
| [76] | 17zhangcl,yeq,huangzl,chenjw,songz,zhaow,bagwellc,inskeepwp,rossc,gaol,wiegelj,romanekcs,shockel,hedlundbp.globaloccurrenceofarchaealamoagenesinterrestrialhotsprings[j].environmicrobiol,2008,74(20):6417-6426
|
| [77] | 18reigstadlj,richtera,daimsh,uricht,schwarkl,schleperc.nitrificationinterrestrialhotspringsoficelandandkamchatka[j].femsmicrobiolecol,2008,64(2):167-174
|
| [78] | 19hatzenpichlerr,lebedevaev,spiecke,stoeckerk,richtera,daimsh,wagnerm.amoderatelythermophilicammonia-oxidizingcrenarchaeotefromahotspring[j].pnas,2008,105(6):2134-2139
|
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