铀与微生物相互作用研究进展
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摘要
易迁移的铀通过微生物的作用被固定到矿物晶格中是一种铀污染治理的潜在有效方式。本文简述了微生物固定铀的几种机制,以作用前后铀的价态变化为切入点,论述了近年来铀的微生物还原成矿尤其是微生物非还原成矿的研究进展及其存在的问题,并对铀与微生物作用的发展方向和应用前景进行了总结和展望。
Biomineralization of uranium can be considered as an effective approach for the immobilization of uranium.This paper briefly describes several mechanisms of uranium(Ⅵ) biomineralization.Focusing on the role of valence change of uranium during the biomineralization process,we review research progress and problems of reductive and non-reductive biomineralization of uranium in recent years.This paper also presents the development and potential application of the reaction of uranium with microorganisms in the future.
Biomineralization of uranium can be considered as an effective approach for the immobilization of uranium.This paper briefly describes several mechanisms of uranium(Ⅵ) biomineralization.Focusing on the role of valence change of uranium during the biomineralization process,we review research progress and problems of reductive and non-reductive biomineralization of uranium in recent years.This paper also presents the development and potential application of the reaction of uranium with microorganisms in the future.
引文
Abdelouas A.2006.Uranium mill tailings:geochemistry,mineralogy,and environmental impact.Elements,2(6):335-341
Bader M,Müller K,Foerstendorf H,Drobot B,Schmidt M,Musat N,Swanson J S,Reed D T,Stumpf T,Cherkouk A.2017.Multistage bioassociation of uranium onto an extremely halophilic archaeon revealed by a unique combination of spectroscopic and microscopic techniques.Journal of Hazardous Materials,327:225-232
Bernier-Latmani R,Veeramani H,Vecchia E D,Junier P,Lezama-Pacheco J S,Suvorova E I,Sharp J O,Wigginton N S,Bargar J R.2010.Non-uraninite products of microbial U(Ⅵ)reduction.Environmental Science&Technology,44(24):9456-9462
Brooks S C,Fredrickson J K,Carroll S L,Kennedy D W,Zachara J M,Plymale A E,Kelly S D,Kemner K M,Fendorf S.2003.Inhibition of bacterial U(Ⅵ)reduction by calcium.Environmental Science&Technology,37(9):1850-1858
Cho K,Zholi A,Frabutt D,Flood M,Floyd D,Tiquia S M.2012.Linking bacterial diversity and geochemistry of uranium-contaminated groundwater.Environmental Technology,33(14):1629-1640
Choudhary S,Sar P.2015.Interaction of uranium(Ⅵ)with bacteria:potential applications in bioremediation of U contaminated oxic Environments.Reviews in Environmental Science and Bio/Technology,14(3):347-355
Cumberland S A,Douglas G,Grice K,Moreau J W.2016.Uranium mobility in organic matter-rich sediments:A review of geological and geochemical processes.Earth-Science Reviews,159:160-185
Dittmar M.2011.The end of cheap uranium.Science of the Total Environment,461-462:792-798
Favre-Reguillon A,Lebuzit G,Foos J,Guy A,Draye M,Lemaire M.2003.Selective concentration of uranium from seawater by nanofiltration.Industrial&Engineering Chemistry Research,42(23):5900-5904
Finneran K T,Housewright,M E,Lovley D R.2002.Multiple influences of nitrate on uranium solubility during bioremediation of uranium-contaminated subsurface sediments.Environmental Microbiology,4(9):510-516
Frisbie S H,Mitchell E J,Sarkar B.2013.World Health Organization increases its drinking-water guideline for uranium.Environmental Science Processes&Impacts,15(10):1817-1823
Gavrilescu M,Pavel L V,Cretescu I.2009.Characterization and remediation of soils contaminated with uranium.Journal of Hazardous Materials,163(2-3):475-510
Gerber U,Zirnstein I,Krawczyk-Brsch E,Lünsdorf H,Arnold T,Merroun M L.2016.Combined use of flow cytometry and microscopy to study the interactions between the gram-negative betaproteobacterium Acidovorax facilis and uranium(Ⅵ).Journal of Hazardous Materials,317:127-134
Gorby Y A,Lovley D R.1992.Enzymic uranium precipitation.Environmental Science&Technology,26(1):205-207
Gregory K B,Lovley D R.2005.Remediation and recovery of uranium from contaminated subsurface Environments with electrodes.Environmental Science&Technology,39(22):8943-8947
Islam E,Sar P.2016.Diversity,metal resistance and uranium sequestration abilities of bacteria from uranium ore deposit in deep earth stratum.Ecotoxicology and Environmental Safety,127:12-21
Istok J,Senko J M,Krumholz L R,Watson D,Bogle M A,Peacock A,Chang Y J,White D C.2004.In situ bioreduction of technetium and uranium in a nitrate-contaminated aquifer.Environmental Science&Technology,38(2):468-475
Jiang S H,Kim M G,Kim S J,Jung H S,Lee S W,Noh D Y,Sadowsky M J,Hur H G.2011.Bacterial formation of extracellular U(Ⅵ)nanowires.Chemical Communications,47(28):8076-8078
Kapoor A,Viraraghavan T.1997.Heavy metal biosorption sites in Aspergillus niger.Bioresource Techonology,61:221-227
Karpas Z.2014.Analytical Chemistry of Uranium:Environmental,Forensic,Nuclear,and Toxicological Applications.New York:CRC Press
Kulkarni S,Misra C S,Gupta A,Ballal A,Apte S K.2016.Interaction of uranium with bacterial cell surfaces:Inferences from phosphatasemediated uranium precipitation.Applied and Environmental Microbiology,82(16):4965-4974
Li X L,Ding C C,Liao J L,Du L,Sun Q,Yang J J,Yang Y Y,Zhang D,Tang,J,Liu N.2017.Microbial reduction of uranium(Ⅵ)by Bacillus sp.DWC-2:A macroscopic and spectroscopic study.Journal of Environmental Sciences,53:9-15
Li X L,Ding C C,Liao J L,Du L,Sun Q,Yang J J,Yang Y Y,Zhang D,Tang J,Liu N.2016.Bioaccumulation characterization of uranium by a novel Streptomyces sporoverrucosus DWC-3.Journal of Environmental Sciences,41:162-171
Liang X J,Hillier S,Pendlowski H,Gray N,Cecl A,Gadd G M.2015.Uranium phosphate biomineralization by fungi.Environmental Microbiology,17(6):2064-2075
Lovley D R,Phillips E J P,Gorby Y A,Landa E R.1991.Microbial reduction of uranium.Nature,350(6317):413-416
Lovley D R,Phillips E J P.1992b.Bioremediation of uranium contamination with enzymatic uranium reduction.Environmental Science&Technology,26(11):1451-1465
Lovley D R,Phillips E J.1992a.Reduction of uranium by Desulfovibrio desulfuricans.Applied and Environmental Microbiology,58(3):850-856
Lovley D R,Roden E E,Phillips E J P,Woodward J C.1993a.Enzymatic iron and uranium reduction by sulfate-reducing bacteria.Marine Geology,113(1-2):41-53
Lovley D R,Widman P K,Woodward J C,Phillips E J.1993b.Reduction of uranium by cytochrome c3 of Desulfovibrio vulgaris.Applied and Environmental Microbiology,59(11):3572-3576
Macaskie L E,Bonthrone K M,Yong P,Goddard D T.2000.Enzymically mediated bioprecipitation of uranium by a Citrobacter sp.:Aconcerted role for exocellular lipopolysaccharide and associated phosphatase in biomineral formation.Microbiology,146(8):1855-1867
Macaskie L E,Empson R M,Cheetham A K,Grey C P,Skarnulis A J.1992.Uranium bioaccumulation by a Citrobacter sp.as a result of enzymically mediated growth of polycrystalline HUO2PO4.Science,257(5071):782-784
Martinez R J,Beazley M J,Taillefert M,Arakaki A K,Skolnick J,Sobecky P A.2007.Aerobic uranium(Ⅵ)bioprecipitation by metalresistant bacteria isolated from radionuclide-and metalcontaminated subsurface soils.Environmental Microbiology,9(12):3122-3133
Merroun M L,Nedelkova M,Ojeda J J,Reitz T,Fernndez M L,Arias J M,Romero-Gonzlez M,Selenska-Pobell S.2011.Bioprecipitation of uranium by two bacterial isolates recovered from extreme environments as estimated by potentiometric titration,TEMand X-ray absorption spectroscopic analyses.Journal of Hazardous Materials,197:1-10
Michael D.2013.The end of cheap uranium.Science of the Total Environment,461-462:792-798
Newsome L,Morris K,Shaw S,Trivedi D,Lloyd J R.2015.The stability of microbially reduced U(IV);impact of residual electron donor and sediment ageing.Chemical Geology,409:125-135
Pan X H,Chen Z,Chen F B,Cheng Y J,Lin Z,Guan X.2015.The mechanism of uranium transformation from U(Ⅵ)into nano-uramphite by two indigenous Bacillus thuringiensis strains.Journal of hazardous materials,297:313-319
Permogorov N.2016.“Membrane technologies for water treatment:removal of toxic trace elements with emphasis on arsenic,fluoride and uranium”.Johnson Matthey Technology Review,60(4):273-276
Reguera G,Mccarthy K D,Mehta T,Nicoll J S,Tuominen M T,Lovley D R.2005.Extracellular electron transfer via microbial nanowires.Nature,435(7045):1098-1101
Roh C,Kang C K,Lloyd J R.2015.Microbial bioremediation processes for radioactive waste.Korean Journal of Chemical Engineering,32(9):1720-1726
Salome K R,Beazley M J,Webb S M,Sobecky P A,Taillefert M.2017.Biomineralization of U(Ⅵ)phosphate promoted by microbially-mediated phytate hydrolysis in contaminated soils.Geochimica et Cosmochimica Acta,197:27-42
Sivaswamy V,Boyanov M I,Peyton B M,Viamajala S,Gerlach R,Apel W A,Sani R K,Dohnalkova A,Kemner K M,Borch T.2011.Multiple mechanisms of uranium immobilization by Cellulomonas sp.strain ES6.Biotechnology and Bioengineering,108(2):264-276
Spain A M,Krumholz L R.2011.Nitrate-reducing bacteria at the nitrate and radionuclide contaminated oak ridge integrated field research challenge site:a review.Geomicrobiology Journal,28(5-6):418-429
Stirling C H,Andersen M B,Warthmann R,Halliday A N.2015.Isotope fractionation of238U and235U during biologically-mediated uranium reduction.Geochimica et Cosmochimica Acta,163:200-218
Suzuki Y,Kelly S D,Kemner K M,Banfield J F.2002.Radionuclide contamination:Nanometre-size products of uranium bioreduction.Nature,419(6903):134-134
Tiedje J M.2002.Shewanella-the Environmentally versatile genome.Nature Biotechnology,20(11):1093-1094
Wall J D,Krumholz L R.2007.Uranium reduction.Annual Review of Microbiology,60(1):149-166
Wang Y,Frutschi M,Suvorova E,Phrommavanh V,Descostes M,Osman A A,Geipel G,Bernier-Latmani R.2013.Mobile uranium(IV)-bearing colloids in a mining-impacted wetland.Nature Communications,4:2942
Watson D B,Wu W M,Mehlhorn T,Tang G P,Earles J,Lower K,Gihring T M,Zhang G X,Phillips J,Boyanov M I,Spaldingb P,Schadt C,Kemner K M,Criddle C S,Jardine P M,Brooks S C.2013.In Situ bioremediation of uranium with emulsified vegetable oil as the electron donor.Environmental Science&Technology,47(12):6440-6448
Williams K H,Bargar J R,Lloyd J R,Lovley D R.2013.Bioremediation of uranium-contaminated groundwater:a systems approach to subsurface biogeochemistry.Current Opinion in Biotechnology,24(3):489-497
Winde F.2016.Uranium pollution in South Africa:past research and future needs.Hrvatski Geografski Glasnik,77(2):33-53
Woolfolk C A,Whiteley H R.1962.Reduction of inorganic compounds with molecular hydrogen by Micrococcus lactilyticus.I.Stoichiometry with compounds of arsenic,selenium,tellurium,transition and other elements.Journal of Bacteriology,84:647-658
Yamaguchi N,Taniyama I,Kimura T,Yoshioka K,Saito M.2016.Contamination of agricultural products and soils with radiocesium derived from the accident at TEPCO Fukushima Daiichi Nuclear Power Station:monitoring,case studies and countermeasures.Soil Science and Plant Nutrition,62(3):303-314
Zhang P,He Z L,Van Nostrand J D,Qin Y J,Deng Y,Wu L Y,Tu QC,Wang J J,Schadt C W,Fields M W,Hazen T C,Arkin A P,Stahl D A,Zhou J Z.2017.Dynamic succession of groundwater sulfate-reducing communities during prolonged reduction of uranium in a contaminated aquifer.Environmental Science&Technology,51(7):3609-3620
Zheng X Y,Wang X Y,Shen Y H,Lu X,Wang T S.2017.Biosorption and biomineralization of uranium(Ⅵ)by Saccharomyces cerevisiaeCrystal formation of chernikovite.Chemosphere,175:161-169
陈元初,赵声贵,梁毅.2011.我国核电工业及铀资源供应对策.中国矿业,20(1):19-22
陈志.2015.芽胞杆菌修复铅、铀和亚甲基蓝污染的相关机制研究.博士学位论文.福州:福建农林大学
陈祖伊,王兴无.2010.世界核电发展及铀供需态势展望.铀矿地质,26(2):120-128
程扬健.2012.微生物与毒性金属铬、铀相互作用机理研究及环境应用.博士学位论文.北京:中国科学院研究生院
连宾.2014.矿物-微生物相互作用研究进展:地质微生物专栏文章评述.矿物岩石地球化学通报,33(6):759-763
刘成东,梁良.2017.热液铀矿床的沥青铀矿研究进展.矿物岩石地球化学通报,36(2):339-344
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Bader M,Müller K,Foerstendorf H,Drobot B,Schmidt M,Musat N,Swanson J S,Reed D T,Stumpf T,Cherkouk A.2017.Multistage bioassociation of uranium onto an extremely halophilic archaeon revealed by a unique combination of spectroscopic and microscopic techniques.Journal of Hazardous Materials,327:225-232
Bernier-Latmani R,Veeramani H,Vecchia E D,Junier P,Lezama-Pacheco J S,Suvorova E I,Sharp J O,Wigginton N S,Bargar J R.2010.Non-uraninite products of microbial U(Ⅵ)reduction.Environmental Science&Technology,44(24):9456-9462
Brooks S C,Fredrickson J K,Carroll S L,Kennedy D W,Zachara J M,Plymale A E,Kelly S D,Kemner K M,Fendorf S.2003.Inhibition of bacterial U(Ⅵ)reduction by calcium.Environmental Science&Technology,37(9):1850-1858
Cho K,Zholi A,Frabutt D,Flood M,Floyd D,Tiquia S M.2012.Linking bacterial diversity and geochemistry of uranium-contaminated groundwater.Environmental Technology,33(14):1629-1640
Choudhary S,Sar P.2015.Interaction of uranium(Ⅵ)with bacteria:potential applications in bioremediation of U contaminated oxic Environments.Reviews in Environmental Science and Bio/Technology,14(3):347-355
Cumberland S A,Douglas G,Grice K,Moreau J W.2016.Uranium mobility in organic matter-rich sediments:A review of geological and geochemical processes.Earth-Science Reviews,159:160-185
Dittmar M.2011.The end of cheap uranium.Science of the Total Environment,461-462:792-798
Favre-Reguillon A,Lebuzit G,Foos J,Guy A,Draye M,Lemaire M.2003.Selective concentration of uranium from seawater by nanofiltration.Industrial&Engineering Chemistry Research,42(23):5900-5904
Finneran K T,Housewright,M E,Lovley D R.2002.Multiple influences of nitrate on uranium solubility during bioremediation of uranium-contaminated subsurface sediments.Environmental Microbiology,4(9):510-516
Frisbie S H,Mitchell E J,Sarkar B.2013.World Health Organization increases its drinking-water guideline for uranium.Environmental Science Processes&Impacts,15(10):1817-1823
Gavrilescu M,Pavel L V,Cretescu I.2009.Characterization and remediation of soils contaminated with uranium.Journal of Hazardous Materials,163(2-3):475-510
Gerber U,Zirnstein I,Krawczyk-Brsch E,Lünsdorf H,Arnold T,Merroun M L.2016.Combined use of flow cytometry and microscopy to study the interactions between the gram-negative betaproteobacterium Acidovorax facilis and uranium(Ⅵ).Journal of Hazardous Materials,317:127-134
Gorby Y A,Lovley D R.1992.Enzymic uranium precipitation.Environmental Science&Technology,26(1):205-207
Gregory K B,Lovley D R.2005.Remediation and recovery of uranium from contaminated subsurface Environments with electrodes.Environmental Science&Technology,39(22):8943-8947
Islam E,Sar P.2016.Diversity,metal resistance and uranium sequestration abilities of bacteria from uranium ore deposit in deep earth stratum.Ecotoxicology and Environmental Safety,127:12-21
Istok J,Senko J M,Krumholz L R,Watson D,Bogle M A,Peacock A,Chang Y J,White D C.2004.In situ bioreduction of technetium and uranium in a nitrate-contaminated aquifer.Environmental Science&Technology,38(2):468-475
Jiang S H,Kim M G,Kim S J,Jung H S,Lee S W,Noh D Y,Sadowsky M J,Hur H G.2011.Bacterial formation of extracellular U(Ⅵ)nanowires.Chemical Communications,47(28):8076-8078
Kapoor A,Viraraghavan T.1997.Heavy metal biosorption sites in Aspergillus niger.Bioresource Techonology,61:221-227
Karpas Z.2014.Analytical Chemistry of Uranium:Environmental,Forensic,Nuclear,and Toxicological Applications.New York:CRC Press
Kulkarni S,Misra C S,Gupta A,Ballal A,Apte S K.2016.Interaction of uranium with bacterial cell surfaces:Inferences from phosphatasemediated uranium precipitation.Applied and Environmental Microbiology,82(16):4965-4974
Li X L,Ding C C,Liao J L,Du L,Sun Q,Yang J J,Yang Y Y,Zhang D,Tang,J,Liu N.2017.Microbial reduction of uranium(Ⅵ)by Bacillus sp.DWC-2:A macroscopic and spectroscopic study.Journal of Environmental Sciences,53:9-15
Li X L,Ding C C,Liao J L,Du L,Sun Q,Yang J J,Yang Y Y,Zhang D,Tang J,Liu N.2016.Bioaccumulation characterization of uranium by a novel Streptomyces sporoverrucosus DWC-3.Journal of Environmental Sciences,41:162-171
Liang X J,Hillier S,Pendlowski H,Gray N,Cecl A,Gadd G M.2015.Uranium phosphate biomineralization by fungi.Environmental Microbiology,17(6):2064-2075
Lovley D R,Phillips E J P,Gorby Y A,Landa E R.1991.Microbial reduction of uranium.Nature,350(6317):413-416
Lovley D R,Phillips E J P.1992b.Bioremediation of uranium contamination with enzymatic uranium reduction.Environmental Science&Technology,26(11):1451-1465
Lovley D R,Phillips E J.1992a.Reduction of uranium by Desulfovibrio desulfuricans.Applied and Environmental Microbiology,58(3):850-856
Lovley D R,Roden E E,Phillips E J P,Woodward J C.1993a.Enzymatic iron and uranium reduction by sulfate-reducing bacteria.Marine Geology,113(1-2):41-53
Lovley D R,Widman P K,Woodward J C,Phillips E J.1993b.Reduction of uranium by cytochrome c3 of Desulfovibrio vulgaris.Applied and Environmental Microbiology,59(11):3572-3576
Macaskie L E,Bonthrone K M,Yong P,Goddard D T.2000.Enzymically mediated bioprecipitation of uranium by a Citrobacter sp.:Aconcerted role for exocellular lipopolysaccharide and associated phosphatase in biomineral formation.Microbiology,146(8):1855-1867
Macaskie L E,Empson R M,Cheetham A K,Grey C P,Skarnulis A J.1992.Uranium bioaccumulation by a Citrobacter sp.as a result of enzymically mediated growth of polycrystalline HUO2PO4.Science,257(5071):782-784
Martinez R J,Beazley M J,Taillefert M,Arakaki A K,Skolnick J,Sobecky P A.2007.Aerobic uranium(Ⅵ)bioprecipitation by metalresistant bacteria isolated from radionuclide-and metalcontaminated subsurface soils.Environmental Microbiology,9(12):3122-3133
Merroun M L,Nedelkova M,Ojeda J J,Reitz T,Fernndez M L,Arias J M,Romero-Gonzlez M,Selenska-Pobell S.2011.Bioprecipitation of uranium by two bacterial isolates recovered from extreme environments as estimated by potentiometric titration,TEMand X-ray absorption spectroscopic analyses.Journal of Hazardous Materials,197:1-10
Michael D.2013.The end of cheap uranium.Science of the Total Environment,461-462:792-798
Newsome L,Morris K,Shaw S,Trivedi D,Lloyd J R.2015.The stability of microbially reduced U(IV);impact of residual electron donor and sediment ageing.Chemical Geology,409:125-135
Pan X H,Chen Z,Chen F B,Cheng Y J,Lin Z,Guan X.2015.The mechanism of uranium transformation from U(Ⅵ)into nano-uramphite by two indigenous Bacillus thuringiensis strains.Journal of hazardous materials,297:313-319
Permogorov N.2016.“Membrane technologies for water treatment:removal of toxic trace elements with emphasis on arsenic,fluoride and uranium”.Johnson Matthey Technology Review,60(4):273-276
Reguera G,Mccarthy K D,Mehta T,Nicoll J S,Tuominen M T,Lovley D R.2005.Extracellular electron transfer via microbial nanowires.Nature,435(7045):1098-1101
Roh C,Kang C K,Lloyd J R.2015.Microbial bioremediation processes for radioactive waste.Korean Journal of Chemical Engineering,32(9):1720-1726
Salome K R,Beazley M J,Webb S M,Sobecky P A,Taillefert M.2017.Biomineralization of U(Ⅵ)phosphate promoted by microbially-mediated phytate hydrolysis in contaminated soils.Geochimica et Cosmochimica Acta,197:27-42
Sivaswamy V,Boyanov M I,Peyton B M,Viamajala S,Gerlach R,Apel W A,Sani R K,Dohnalkova A,Kemner K M,Borch T.2011.Multiple mechanisms of uranium immobilization by Cellulomonas sp.strain ES6.Biotechnology and Bioengineering,108(2):264-276
Spain A M,Krumholz L R.2011.Nitrate-reducing bacteria at the nitrate and radionuclide contaminated oak ridge integrated field research challenge site:a review.Geomicrobiology Journal,28(5-6):418-429
Stirling C H,Andersen M B,Warthmann R,Halliday A N.2015.Isotope fractionation of238U and235U during biologically-mediated uranium reduction.Geochimica et Cosmochimica Acta,163:200-218
Suzuki Y,Kelly S D,Kemner K M,Banfield J F.2002.Radionuclide contamination:Nanometre-size products of uranium bioreduction.Nature,419(6903):134-134
Tiedje J M.2002.Shewanella-the Environmentally versatile genome.Nature Biotechnology,20(11):1093-1094
Wall J D,Krumholz L R.2007.Uranium reduction.Annual Review of Microbiology,60(1):149-166
Wang Y,Frutschi M,Suvorova E,Phrommavanh V,Descostes M,Osman A A,Geipel G,Bernier-Latmani R.2013.Mobile uranium(IV)-bearing colloids in a mining-impacted wetland.Nature Communications,4:2942
Watson D B,Wu W M,Mehlhorn T,Tang G P,Earles J,Lower K,Gihring T M,Zhang G X,Phillips J,Boyanov M I,Spaldingb P,Schadt C,Kemner K M,Criddle C S,Jardine P M,Brooks S C.2013.In Situ bioremediation of uranium with emulsified vegetable oil as the electron donor.Environmental Science&Technology,47(12):6440-6448
Williams K H,Bargar J R,Lloyd J R,Lovley D R.2013.Bioremediation of uranium-contaminated groundwater:a systems approach to subsurface biogeochemistry.Current Opinion in Biotechnology,24(3):489-497
Winde F.2016.Uranium pollution in South Africa:past research and future needs.Hrvatski Geografski Glasnik,77(2):33-53
Woolfolk C A,Whiteley H R.1962.Reduction of inorganic compounds with molecular hydrogen by Micrococcus lactilyticus.I.Stoichiometry with compounds of arsenic,selenium,tellurium,transition and other elements.Journal of Bacteriology,84:647-658
Yamaguchi N,Taniyama I,Kimura T,Yoshioka K,Saito M.2016.Contamination of agricultural products and soils with radiocesium derived from the accident at TEPCO Fukushima Daiichi Nuclear Power Station:monitoring,case studies and countermeasures.Soil Science and Plant Nutrition,62(3):303-314
Zhang P,He Z L,Van Nostrand J D,Qin Y J,Deng Y,Wu L Y,Tu QC,Wang J J,Schadt C W,Fields M W,Hazen T C,Arkin A P,Stahl D A,Zhou J Z.2017.Dynamic succession of groundwater sulfate-reducing communities during prolonged reduction of uranium in a contaminated aquifer.Environmental Science&Technology,51(7):3609-3620
Zheng X Y,Wang X Y,Shen Y H,Lu X,Wang T S.2017.Biosorption and biomineralization of uranium(Ⅵ)by Saccharomyces cerevisiaeCrystal formation of chernikovite.Chemosphere,175:161-169
陈元初,赵声贵,梁毅.2011.我国核电工业及铀资源供应对策.中国矿业,20(1):19-22
陈志.2015.芽胞杆菌修复铅、铀和亚甲基蓝污染的相关机制研究.博士学位论文.福州:福建农林大学
陈祖伊,王兴无.2010.世界核电发展及铀供需态势展望.铀矿地质,26(2):120-128
程扬健.2012.微生物与毒性金属铬、铀相互作用机理研究及环境应用.博士学位论文.北京:中国科学院研究生院
连宾.2014.矿物-微生物相互作用研究进展:地质微生物专栏文章评述.矿物岩石地球化学通报,33(6):759-763
刘成东,梁良.2017.热液铀矿床的沥青铀矿研究进展.矿物岩石地球化学通报,36(2):339-344
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