土壤重金属污染生物修复技术研究进展
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摘要
土壤重金属污染具有普遍性、隐蔽性、表聚性、不可逆性等特点,已经成为环境污染治理中的热点、难点问题。重金属污染生物修复技术是在植物修复技术、微生物修复技术、微生物-植物联合修复的基础上发展起来的,具有绿色环保、经济高效等优点,在重金属污染土壤修复领域具有很大的发展空间。文章从土壤重金属污染现状入手,综述了植物修复、微生物修复、植物-微生物联合修复等技术的国内外研究状况,着重介绍了特殊的解磷微生物-植物复合体系在修复土壤重金属污染中的应用,分析了目前解磷微生物在重金属修复过程中存在的问题,并提出了今后研究的方向,为重金属污染土壤的修复提供新思路。
引文
[1]董立萍.解磷菌修复土壤铅污染效应优化及机理探索[D].西北大学,2014.
[2]Mani,D.,Kumar,C.Biotechnological advances in bioremediation of heavy metals contaminated ecosystems:an overview with special reference to phytoremediation[J].International Journal of Environmental Science and Technology,2013,11(3):843-872.
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[6]黄益宗,郝晓伟,雷鸣,等.重金属污染土壤修复技术及其修复实践[J].农业环境科学学报,2013,32(3):409-417.
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[8]刘小宁,马剑英,张慧文,等.植物修复技术在土壤重金属污染中应用的研究进展[J].中国沙漠,2009,29(05):859—865.
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[34]向捷,陈永华,向敏,等.土壤重金属污染修复技术比较研究[J].安徽农业科学,2014,42(22):7367-7369+7377.
[35]李韵诗,冯冲凌,吴晓芙,等.重金属污染土壤植物修复中的微生物功能研究进展[J].生态学报,2015,35(20):6881-6890.
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[38]申鸿,刘于,李晓林,等.丛枝菌根真菌(Glomus caledonium)对铜污染土壤生物修复机理初探[J].植物营养与肥料学报,2005,11(2):199-204.
[39]刘灵芝,张玉龙,李培军,等.铅锌矿区分离丛枝菌根真菌对万寿菊生长与吸镉的影响[J].土壤学报,2012,49(01):43-49.
[40]马海艳.铜矿废弃地优势植物根际土壤细菌多样性及铜抗性菌株强化植物富集铜作用的研究[D].南京农业大学,2008.
[41]He L.Y.,Zhang Y.F.,Ma H.Y.,et al.Characterization of copper-resistant bacteria and assessment of bacterial communities in rhizosphere soils of copper-tolerant plants[J].Applied Soil Ecology,2010,44(1):49-55.
[42]王曙光,中青,贾寿山,等.小麦叶片气孔性状与产量和抗旱性的关系[J].应用生态学报,2013,24(06):1609-1614.
[43]Dushenkov,V.,Kumar,P.B.,Motto,H.,et al.Rhizofiltration:the use of plants to remove heavy metals from aqueous streams[J].Environmental science&technology,1995,29(5),1239-1245.
[44]何茂.磷酸盐固定重金属污染土壤中Pb和Cd的研究[D].西安建筑科技大学,2013.
[45]王碧玲.含磷物质修复铅锌矿污染土壤的机理和技术[D].浙江大学,2008.
[46]Miretzky,P.,Fernandez-Cirelli,A.,Phosphates for Pb immobilization in soils:a review[J].Environmental Chemistry Letters,2008,6(3):121-133.
[47]Oves M.,Khan M.S.,Zaidi A.Chromium reducing and plant growth promoting novel strain Pseudomonas aeruginosa OSG41 enhance chickpea growth in chromium amended soils[J].European Journal of Soil Biology,2013,56:72-83.
[48]Ahemad M.,Kibret M.Recent trends in microbial biosorption of heavy metals:a review[J].Biochemistry&Molecular Biology,2013,1(1):19-26.
[49]Misra N.,Gupta G.,Jha P.N.Assessment of mineral phosphate-solubilizing properties and molecular characterization of zinc-tolerant bacteria[J].Journal of basic microbiology,2012,52(5):549-558.
[50]Park J.H.,Bolan N.,Megharaj M.,et al.Concomitant rock phosphate dissolution and lead immobilization by phosphate solubilizing bacteria(Enterobacter sp.)[J].Journal of environmental management,2011,92(4):1115-1120.
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[52]Kumar K.V.,Singh N.,Behl H.M.,et al.Influence of plant growth promoting bacteria and its mutant on heavy metal toxicity in Brassica juncea grown in fly ash amended soil[J].Chemosphere,2008,72(4):678-683.
[53]Behera B.C.,Singdevsachan S.K.,Mishra R.R.,et al.Diversity,mechanism and biotechnology of phosphate solubilizing microorganism in mangrove-A review[J].Biocatalysis and Agricultural Biotechnology,2014,3(2):97-110.
[54]Li K.,Ramakrishna W.Effect of multiple metal resistant bacteria from contaminated lake sediments on metal accumulation and plant growth[J].Journal of Hazardous Materials,2011,189(1):531-539.
[55]He H.,Ye Z.,Yang D.,et al.Characterization of endophytic Rahnella sp.JN6 from Polygonum pubescens and its potential in promoting growth and Cd,Pb,Zn uptake by Brassica napus[J].Chemosphere,2013,90(6):1960-1965.
[56]任永霞.陕北矿区重金属污染土壤的微生物一植物联合修复技术研究[D].西北大学,2011.
[57]Ma Y.,Prasad M.N.V,Rajkumar M.,et al.Plant growth promoting rhizobacteria and endophytes accelerate phytoremediation of metalliferous soils[J].Biotechnology advances,2011,29(2):248-258.
[2]Mani,D.,Kumar,C.Biotechnological advances in bioremediation of heavy metals contaminated ecosystems:an overview with special reference to phytoremediation[J].International Journal of Environmental Science and Technology,2013,11(3):843-872.
[3]王厚杰.马关县矿区土壤重金属污染及植物修复特性的研究-以小白河流域为例[D].成都理工大学,2012.
[4]Ibekwe A.M.,Angle,J.S.,Chaney R.L,et al.Enumeration and N_2 fixation potential of Rhizobium leguminosarum biovar trifolii grown in soil with varying pH values and heavy metal concentrations[J].Agriculture,Ecosystems and Environment,1997,61:103-111.
[5]杨启良,武振中,陈金陵,等.植物修复重金属污染土壤的研究现状及其水肥调控技术展望[J].生态环境学报,2015,26(06):1075—1084.
[6]黄益宗,郝晓伟,雷鸣,等.重金属污染土壤修复技术及其修复实践[J].农业环境科学学报,2013,32(3):409-417.
[7]白洁,孙学凯,王道涵.土壤重金属污染及植物修复技术综述[J].环境保护与循环经济,2008,03:49—51.
[8]刘小宁,马剑英,张慧文,等.植物修复技术在土壤重金属污染中应用的研究进展[J].中国沙漠,2009,29(05):859—865.
[9]陈同斌,韦朝阳,黄泽春,等.砷超富集植物蜈蚣草及其对砷的富集特征[J].科学通报,2002,47(03):207—210.
[10]周国华,黄怀曾,何红蓼.重金属污染土壤植物修复及进展[J].环境污染治理技术与设备,2002,3(06):33—39.
[11]韦朝阳,陈同斌.重金属污染植物修复技术的研究与应用现状[J].地球科学进展,2002,17(6):833—839.
[12]Terry,N.,Carlson,C.,Raab,T.K.,et al.Rates of Selenium Volatilization among Crop Species[j].Journal of Environment Quality,1992,21(3):341-344.
[13]王海慧,郇恒福,罗瑛,等.土壤重金属污染及植物修复技术[J].中国农学通报,2009,25(11):210—214.
[14]邢艳帅,乔冬梅,朱桂芬,等.土壤重金属污染及植物修复技术研究进展[J].中国农学通报2014,30(17):208—214.
[15]熊璇,唐浩,黄沈发,等.重金属污染土壤植物修复强化技术研究进展[J].环境科学与技术,2012,35(61):185—208.
[16]魏本杰.微生物强化植物修复重金属污染土壤[D].湖南工业大学,2014.
[17]Mohd S.A.,Birtaut C.,Tanweer A.Bioremediation of Arsenic and Lead by Plants and Microbes from Contaminated Soil[J].Research in Plant Sciences,2013,68-73.
[18]Huang,J.H.Impact of Microorganisms on Arsenic Biogeochemistry:A Review[J].Water,Air,&Soil Pollution,2014,225(2):2-25.
[19]李飞宇.土壤重金属污染的生物修复技术[J].环境科学与技术,2011,34(12H):148—151.
[20]Banerjee,S.,Gothalwal,R.,Sahu,P.K.,et al.Microbial Observation in Bioaccumulation of Heavy Metals from the Ash Dyke of Thermal Power Plants of Chhattisgarh,India[J].Advances in Bioscience andBiotechnology,2015,06(02),131-138.
[21]滕应,骆永明,李振高.污染土壤的微生物多样性研究[J].土壤学报,2006,43(6):1018—1026.
[22]Vaxevanidou,K.,Christou,C.,Kremmydas,G.F.,et al.Role of indigenous arsenate and iron(Ⅲ)respiring microorganisms in controlling the mobilization of arsenic in a contaminated soil sample[J].Bulletin of environmental contamination and toxicology,2015,94(3):282-288.
[23]Villegas-Torres,M.F.,Bedoya-Reina,O.C.,Salazar,C.,et al.Horizontal arsC gene transfer among microorganisms isolated from arsenic polluted soil[J].International Biodeterioration&Biodegradation,2011,65(1):147-152.
[24]王发园,林先贵.丛枝菌根一植物修复重金属污染土壤研究中的热点[J].生态环境,2006,15(5):1086—1090.
[25]靳治国.耐铅锡菌株的筛选及其在污染土壤修复中的应用[D].西南大学,2010.
[26]Diels L,Leysen R.,Van Roy S.,et al.Precipitating metals or degrading xenobiotic organic compounds with membrane immobilized microorganisms[J].Molecular biotechnology,1999,149-158.
[27]Gong,R.,Ding,Y.,Liu,H.,et al.Lead biosorption and desorption by intact and pretreated spirulina maxima biomass[J].Chemosphere,2005,58(1):125-130.
[28]Van Roy,S.,Vanbroekhoven,K.,Dejonghe,W.,et al.Immobilization of heavy metals in the saturated zone by sorption and in situ bioprecipitation processes[J].Hydrometallurgy,2006,83(1-4):195-203.
[29]Rai,U.N.,Dubey,S.,Shukla,O.P.,et al.Screening and identification of early warning algal species for metal contamination in fresh water bodies polluted from point and non-point sources[J].Environmental monitoring and assessment,2008,144(1-3):469-481.
[30]耿印印,王旭梅,王红旗,等.污染土壤中耐镉菌株的筛选、鉴定及吸附试验研究[J].东北农业大学学报,2010,41(11):59-65.
[31]樊霆,叶文玲,陈海燕,等.农田土壤重金属污染状况及修复技术研究[J].生态环境学报,2013,22(10):1727-1736.
[32]Wang,B.,Wang,C.,Li,J.,et al.Remediation of alkaline soil with heavy metal contamination using tourmaline as a novel amendment[J].Journal of Environmental Chemical Engineering,2014,2(3):1281-1286.
[33]Diagne,N.,Ngom M.,Djighaly P.,et al.Remediation of heavy metal contaminated soils and enhancement of their fertility with actinorhizal plants.2015.
[34]向捷,陈永华,向敏,等.土壤重金属污染修复技术比较研究[J].安徽农业科学,2014,42(22):7367-7369+7377.
[35]李韵诗,冯冲凌,吴晓芙,等.重金属污染土壤植物修复中的微生物功能研究进展[J].生态学报,2015,35(20):6881-6890.
[36]Pilon S E.Phytoremediation[J].Annual review of Plant Biology,2005,56(06):15-39.
[37]陈秀华.丛枝菌根真菌对重金属、稀土元素污染土壤生物修复研究[D].华中农业大学,2007.
[38]申鸿,刘于,李晓林,等.丛枝菌根真菌(Glomus caledonium)对铜污染土壤生物修复机理初探[J].植物营养与肥料学报,2005,11(2):199-204.
[39]刘灵芝,张玉龙,李培军,等.铅锌矿区分离丛枝菌根真菌对万寿菊生长与吸镉的影响[J].土壤学报,2012,49(01):43-49.
[40]马海艳.铜矿废弃地优势植物根际土壤细菌多样性及铜抗性菌株强化植物富集铜作用的研究[D].南京农业大学,2008.
[41]He L.Y.,Zhang Y.F.,Ma H.Y.,et al.Characterization of copper-resistant bacteria and assessment of bacterial communities in rhizosphere soils of copper-tolerant plants[J].Applied Soil Ecology,2010,44(1):49-55.
[42]王曙光,中青,贾寿山,等.小麦叶片气孔性状与产量和抗旱性的关系[J].应用生态学报,2013,24(06):1609-1614.
[43]Dushenkov,V.,Kumar,P.B.,Motto,H.,et al.Rhizofiltration:the use of plants to remove heavy metals from aqueous streams[J].Environmental science&technology,1995,29(5),1239-1245.
[44]何茂.磷酸盐固定重金属污染土壤中Pb和Cd的研究[D].西安建筑科技大学,2013.
[45]王碧玲.含磷物质修复铅锌矿污染土壤的机理和技术[D].浙江大学,2008.
[46]Miretzky,P.,Fernandez-Cirelli,A.,Phosphates for Pb immobilization in soils:a review[J].Environmental Chemistry Letters,2008,6(3):121-133.
[47]Oves M.,Khan M.S.,Zaidi A.Chromium reducing and plant growth promoting novel strain Pseudomonas aeruginosa OSG41 enhance chickpea growth in chromium amended soils[J].European Journal of Soil Biology,2013,56:72-83.
[48]Ahemad M.,Kibret M.Recent trends in microbial biosorption of heavy metals:a review[J].Biochemistry&Molecular Biology,2013,1(1):19-26.
[49]Misra N.,Gupta G.,Jha P.N.Assessment of mineral phosphate-solubilizing properties and molecular characterization of zinc-tolerant bacteria[J].Journal of basic microbiology,2012,52(5):549-558.
[50]Park J.H.,Bolan N.,Megharaj M.,et al.Concomitant rock phosphate dissolution and lead immobilization by phosphate solubilizing bacteria(Enterobacter sp.)[J].Journal of environmental management,2011,92(4):1115-1120.
[51]周世伟,徐明岗.磷酸盐修复重金属污染土壤的研究进展[J].生态学报,2007,27(7):3043—3050.
[52]Kumar K.V.,Singh N.,Behl H.M.,et al.Influence of plant growth promoting bacteria and its mutant on heavy metal toxicity in Brassica juncea grown in fly ash amended soil[J].Chemosphere,2008,72(4):678-683.
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