近期论文
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[1]Liu,D.*,Fan,Q.,Papineau,D.,Yu,N.,Chu,Y.,Wang,H.,Qiu,X.,Wang,X.,Precipitationofprotodolomitefacilitatedbysulfate-reducingbacteria:Theroleofcapsuleextracellularpolymericsubstances.ChemicalGeology,2020,533,119415.
[2]Liu,D.*,Xu,Y.,Yu,Q.,Yu,N.,Qiu,X.,Wang,H.,Papineau,D.,Catalyticeffectofmicrobially-derivedcarboxylicacidsontheprecipitationofMg-calciteanddisordereddolomite:Implicationsforsedimentarydolomite.JournalofAsianEarthSciences,2020,193,104301.
[3]Liu,D.*,Yu,N.,Papineau,D.,Fan,Q.,Wang,H.*,Qiu,X.,She,Z.,Luo,G.,Thecatalyticroleofplanktonicaerobicheterotrophicbacteriainprotodolomiteformation:ResultsfromLakeJibuhulangtuNuur,InnerMongolia,China.GeochimicaetCosmochimicaActa,2019,263,31-49.
[4]Liu,D.*,Xu,Y.,Papineau,D.,Yu,N.,Fan,Q.,Qiu,X.,Wang,H.*,Experimentalevidenceforabioticformationoflow-temperatureproto-dolomitefacilitatedbyclayminerals.GeochimicaetCosmochimicaActa,2019,247,83-95.
[5]Liu,D.*,Zhang,Q.,Wu,L.,Zeng,Q.,Dong,H.,Bishop,M.E.,Wang,H.*,Humicacid-enhancedilliteandtalcformationassociatedwithmicrobialreductionofFe(III)innontronite.ChemicalGeology,2016,447,199-207.
[6]Liu,D.*,WangF.,Dong,H.,Wang,H.,Zhao,L.,Huang,L.,Wu,L.,BiologicalreductionofstructuralFe(III)insmectitesbyamarinebacteriumat0.1and20MPa.ChemicalGeology,2016,438,1-10.
[7]Liu,D.*,Dong,H.,Agrawal,A.,Singh,R.,Zhang,J.,Wang,H.,InhibitoryeffectofclaymineralonmethanogenesisbyMethanosarcinamazeiandMethanothermobacterthermautotrophicus,AppliedClayScience,2016,126,25-32.
[8]Liu,D.,Dong,H.*,Wang,H.*,Zhao,L.,Low-temperaturefeldsparandilliteformationthroughbioreductionofFe(III)-bearingsmectitebyanalkaliphilicbacterium,ChemicalGeology,2015,406,25-33.
[9]Liu,D.,Dong,H.*,Zhao,L.,Wang,H.*,SmectitereductionbyShewanellaspeciesasfacilitatedbycystineandcysteine,GeomicrobiologyJournal,2014,31,53-63.
[10]Liu,D.,Dong,H.*,Bishop,M.,Zhang,J.,Wang,H.*,Xie,S.,Wang,S.,Huang,L.,Eberl,D.,Microbialreductionofstructuralironininterstratifiedillite-smectitemineralsbyasulfate-reducingbacterium,Geobiology,2012,10(2),150-162.
[11]Liu,D.,Dong,H.*,Bishop,ME.,Wang,H.*,Agrawal,A.,Tritschler,S.,Eberl,D.,Xie,S.,ReductionofstructuralFe(III)innontronitebymethanogenMethanosarcinabarkeri,GeochimicaetCosmochimicaActa,2011,75(4),1057-1071.
[12]Liu,D.,Wang,H.*,Dong,H.*,Qiu,X.,Xie,S.,Dong,X.,CravottaIII,C.,MineraltransformationassociatedwithgoethitereductionbyMethanosarcinabarkeri,ChemicalGeology,2011,288(1-2),53-60.
[13]Liu,D.,Wang,H.*,Qiu,X.,Dong,H.*,ComparisonofreductionextentofFe(III)innontronitebyShewanellaputrefaciensandDesulfovibriovulgaris,JournalofEarthScience,2010,21(1),297-299.
[14]Liu,D.,Yang,X.,Wang,H.*,Li,J.,Su,N.,Impactofmontmorilloniteandcalciteonreleaseandadsorptionofcyanobacterialfattyacidsatambienttemperature,JournalofChinaUniversityofGeosciences,2008,19(5),526-533.
[15]许杨阳,刘邓*,于娜,邱轩,王红梅.微生物(有机)白云石成因模式研究进展与思考.地球科学,2018,43(S1),63-70.
[16]于娜,许杨阳,刘邓*,邱轩,范奇高,王红梅.内蒙古吉布胡郎图诺尔盐湖厌氧菌对白云石形成的催化作用.地球科学,2018,43(S1),53-62.
[17]张千帆,曾强,刘邓*,王红梅.腐殖酸对微生物还原绿脱石结构Fe(III)的促进作用.地质科技情报,2016,35(6),205-211.
其他合作论文
[1]Li,J.,Pancost,R.D.,Naffs,B.D.A.,Yang,H.,Liu,D.,Gong,L.,Xie,S.,Multipleenvironmentalandecologicalcontrolsonarchaeletherlipiddistributionsinsalineponds.ChemicalGeology,2019,529,119293.
[2]Wang,C.,Bendle,J.A.,Zhang,H.,Yang,Y.,Liu,D.,Huang,J.,Cui,J.,Xie,S.,Holocenetemperatureandhydrologicalchangesreconstructedbybacterial3-hydroxyfattyacidsinstalagmitefromcentralChina.QuaternaryScienceReviews,2018,192,97-105.
[3]Chen,R.,Liu,H.,Tong,M.,Zhao,L.,Zhang,P.,Liu,D.,Yuan,S.,ImpactofFe(II)oxidationinthepresenceofiron-reducingbacteriaonsubsequentFe(III)bio-reduction.ScienceoftheTotalEnvironment,2018,639,1007-1014.
[4]Li,J.,Naafs,B.D.A.,Pancost,R.D.,Yang,H.,Liu,D.,Xie,S.,DistributionofbranchedtetraetherlipidsinpondsfromInnerMongolia,NEChina:InsightintothesourceofbrGDGTs,OrganicGeochemistry,2017,112,127-136.
[5]Liu,X.,Yuan,S.,Tong,M.,Liu,D.,Oxidationoftrichloroethylenebythehydroxylradicalsproducedfromoxygenationofreducednontronite,WaterResearch,2017,113,72-79.
[6]Xie,S.,Liu,D.,Qiu,X.,Huang,X.,Algeo,T.J.,MicrobialrolesequivalenttogeologicalagentsofhightemperatureandpressureindeepEarth,ScienceChinaEarthSciences,2016,59(11),2098-2104.
[7]Tong,M.,Yuan,S.,Ma,S.,Jin,M.,Liu,D.,Cheng,D.,Liu,X.,Gan,Y.,Wang,Y.,Productionofabundanthydroxylradicalsfromoxygenationofsubsurfacesediments,EnvironmentalScience&Technology,2016,50(1),214-221.
[8]Singh,R.,Dong,H.,Liu,D.,Zhao,L.,Marts,AR.,Farquhar,E.,Tierney,DL.,Almquist,CB.,Briggs,BR.,ReductionofhexacalentchromiumbythethermophilicmethanogenMethanothermobacterthermautotrophicus,GeochimicaetCosmochimicaActa,2015,148,442-456.
[9]Singh,R.,Dong,H.,Liu,D.,Marts,A.R.,Tierney,D.L.,Almquist,C.B.,[Cobalt(III)-EDTA]-reductionbythermophilicmethanogenMethanothermobacterthermautotrophicus,ChemicalGeology,2015,411,49-56.
[10]Luo,G.,Xie,S.,Liu,D.,Algeo,TJ.,MicrobialinfluencesonpaleoenvironmentalchangesduringthePermian-Triassicboundarycrisis,ScienceChinaEarthSciences,2014,57,965-975.
[11]Zhao,L.,Dong,H.,Kukkadapu,R.,Agrawal,A.,Liu,D.,Zhang,J.,Edelmann,RE.,BiologicaloxidationofFe(II)inreducednontronitecoupledwithnitratereductionbyPseudogulbenkianiasp.strain2002,GeochimicaetCosmochimicaActa,2013,119,231-247.
[12]Zhang,J.,Dong,H.,Liu,D.,Agrawal,A.,MicrobialreductionofFe(III)insmectitemineralsbythermophilicmethanogenMethanothermobacterthermautotrophicus,GeochimicaetCosmochimicaActa,2013,106,203-215.
[13]Zhang,J.,Dong,H.,Liu,D.,Fisher,TB.,Wang,S.,Huang,L.,MicrobialreductionofFe(III)insmectite-illitemineralsbymethanogenMethanosarcinamazei,ChemicalGeology,2012,292-293,35-44.
[14]Qiu,X.,Wang,H.,Liu,D.,Gong,L.,Wu,X.,Xiang,X.,ThephysiologicalresponseofSynechococcuselongatustosalinity:Apotentialbiomarkerforancientsalinityinevaporativeenvironments,GeomicrobiologyJournal,2012,29(5),477-483.
[15]Xie,S.,Yang,H.,Luo,G.,Huang,X.,Liu,D.,Wang,Y.,Gong,Y.,Xu,R.,Geomicrobialfunctionalgroups:Awindowtotheinteractionbetweenlifeandenvironments,ChineseScienceBulletin,2012,57,2-19.
[16]Wang,S.,Dong,RM.,Dong,CZ.,Huang,L.,Jiang,H.,Wei,Y.,Feng,L.,Liu,D.,Yang,G.,Zhang,C.,Dong,H.,DiversityofmicrobialplanktonacrosstheThreeGorgesDamsoftheYangtzeRiver,China,GeoscienceFrontiers,2012,3,335-349.
[17]Li,J.,Yang,H.,Liu,D.,Huang,J.,ComparativeanalysisoflipidsinFunariahygrometricaHdewfromdifferenthabitats,JournalofEarthScience,2010,21(1),247-249.
[18]Wang,H.,Zeng,C.,Liu,Q.,Liu,D.,Qiu,X.,Gong,L.,CalciumcarbonateprecipitationinducedbyabacteriumstrainisolatedfromanoligotrophiccaveinCentralChina,FrontiersofEarthScienceinChina,2010,4(2),148-151.
[19]Wang,H.,Ma,X.,Liu,D.,Yang,X.,andLi,J.,Chemicalvariationfrombiolipidstosedimentaryorganicmatterinmodernoceansanditsimplicationtothegeobiologicalevaluationofancienthydrocarbonsourcerocks,FrontiersofEarthScienceinChina,2007,1(4),399-404.
[20]张蔚,胡小丽,邱轩,刘邓,冯亮,马丽媛,胡婧,王红梅.山东胜利油田沾3油藏微生物组特征.科学通报,2019,64(18),1930-1942.
[21]胡小丽,张蔚,刘邓,邱轩,王红梅.油藏嗜热菌与膨润土的相互作用及其对储层防膨的意义.微生物学报,2019,59(6),1197-1208.
[22]谢树成,殷鸿福,刘邓,邱轩.再谈古生物学向地球生物学的发展.地球科学,2018,43(11),3823-3836.
[23]王红梅,刘烁,刘邓.硫酸盐还原菌及异化铁还原菌对黄钾铁矾还原作用的对比.地球科学,2015,40(2),305-316.
[24]王红梅,吴晓萍,邱轩,刘邓.微生物成因的碳酸盐矿物研究进展.微生物学通报,2013,40(1),180-189.
[25]王红梅,马相如,刘邓,杨小芬,李继红.从生物脂类化合物到沉积有机质的变化及其对正演烃源岩有机质形成的启示.地球科学,2007,32(6),748-754.