[1] Purves D. Trace element contamination of the environment[M]. Amster-dam: The Netherlands, Elsevier,1985:28-51.
[2] Beath J M. Consider phytoremediation for waste site cleanup[J]. Chem Eng Prog,2000,96(7):61-69.
[3] Bullard R D. Dumping in Dixie: Race, Class, and Environmental Quality[M].3rd edition. New York: West view Press,2000:234.
[4] Wang G M, Edge W D, Woltf J O. Demographic uncertainty in ecological risk assessments[J].Ecological Modeling,2001,13(6):362- 364.
[5] Bart V, Jurgen S. Earthworm biomass as additional information for risk assessment of heavy metal biomagnigication: a case study for dredged sediment- derived soils and polluted floodplain soils[J]. Environmental Pollution,2004,129:363-375.
[6] 孙波,孙华,张桃林.红壤重金属复合污染修复的生态环境效应与评价指标[J].环境科学,2004,25(2):104-110.
[7] Sheoran V, Sheoran A, Poonia P. Role of hyperaccumulators in phytoextraction of metals from contaminated mining sites : a review [J].Crit. Rev. Environ. Sci. Technol,2011,41:168-214.
[8] Wuana R A, Okieimen F E. Heavy metals in contaminated soils: a review of sources, chemistry , risks and best available strategies for remediation[J].ISRN Ecology,2011:1-20.
[9] Zhou Q. Soil- quality guidelines related to combined pollution of chromium and phenol in agricultural environments[J].Hum Ecol Risk Assess,1996,2(3):591-607.
[10] 周启星.污染土壤修复标准建立的方法体系研究[J].应用生态学报,2004,15(2):316-320.
[11] Weiss D J, Rehkamper M, Schoenberg R, et al. Application of nontraditional stable-isotope systems to the study of sources and fate of metals in the environment[J].Environ Sci Technol,2008,42:655-664.
[12] 郑喜珅,鲁安怀,高翔.土壤中重金属污染现状与防治方法[J].土壤与环境,2002,11(1):79-84.
[13] Fakayode S, Onianwa P. Heavy metal contamination of soil, and bioaccumulation in Guinea grass (Panicum maximum) around Ikeja Industrial Estate, Lagos, Nigeria[J].Environmental Geology,2002, 43:145-150.
[14] Wang Q, Kim D, Dionysiou D D, et al. Sources and remediation for mercury contamination in aquatic systems- a literature review[J]. Environmental Pollution,2004,131:323-326.
[15] Erin LeGalley , Elisabeth Widom, Mark P S Krekeler, et al. Chemical and lead istope constraints on sources of metal pollution in street sediment and lichens in southwest Ohio[J].Applied Geochemistry, 2013,32:195-203.
[16] Sheppard S C, Grant C A, Sheppard M I, et al .Heavy metals in the environment risk indicator for agricultural inputs of trace elements to Canadian soils[J].J Environ Qual,2009,38(3):919-932.
[17] 陈芳,董元华,安琼,等.长期肥料定位试验条件下土壤中重金属的含量变化[J].土壤,2005,37(3):308-311.
[18] 乔莎莎,张永清,杨丽雯,等.有机肥对铅胁迫下小麦生长的影响[J].应用生态学报,2011,22(4):1094-1100.
[19] 曾希柏,苏世鸣,马世铭,等.我国农田生态系统重金属的循环与调控[J].应用生态学报,2010,21(9):2418-2426.
[20] 李东坡,武志杰,梁成华.土壤环境污染与农产品质量[J].水土保持通报,2008,28(4):172-177.
[21] Zheng C R, Tu C, Chen H M. Effects of combined heavy metal pollution on nitrogen mineralization potential, urease and phosphatase activities in a typic udic ferrisols[J].Pedosphere,1999,9: 251-258.
[22] Tonner G, Kunze C. The influence of heavy metals on nitrogen mineralization with regard to the relative proportions of fungi and bacteria[J].Angewandte Botanik,1990,64:345-355.
[23] 陈怀满.土壤中化学物质的行为与环境质量[M].北京:科学出版社,2002:46-74.
[24] 余慎,何振立,黄昌勇.重金属胁迫下土壤微生物和微生物过程研究进展[J].应用生态学报,2003,14(4):618-622.
[25] 张乃明,张守萍,武丕武.山西太原污灌区农田土壤汞污染状况及其生态效应[J].土壤通报,2001,32(2):95-96.
[26] 沈振国,陈怀满.土壤重金属污染生物修复的研究进展[J].农村生态环境,2000,16(2):39-44.
[27] 陈怀满.环境土壤学[M].北京:科学出版社,2005:398-399.
[28] Pope C J, Peters W A, Howard J B. Thermodynamic driving forces for PAH is isomerization and growth during thermal treatment of polluted soils[J].Journal of Hazardous Materials,2000,79(1/2):189- 208.
[29] Wei Y, Yang Y, Cheng N. Study of thermally immobilized Cu in analogue minerals of contaminated soils[J].Environ Sci Technol, 2001,35(2):416-421.
[30] Spalding B P. Fixation of radionuclides in soil and minerals by heating[J].Environ Sci Technol,2001,35(21):4327-4333.
[31] 沈飞,曹净,曹慧.土壤固化剂的发展现状及其前景展望[J].材料与装备,2008,12:62-66.
[32] 孙铁珩,周启星,李培军.污染生态学[M].北京:科学出版社,2001: 368-373.
[33] 杜志敏,郝建设,周静,等.四种改良剂对 Cu、 Cd 复合污染土壤中Cu、 Cd 形态和土壤酶活性的影响[J].生态环境学报,2011,20(10): 1507-1512.
[34] 蒋廷惠,占新华,徐阳春,等.钙对植物抗逆能力的影响及其生态学意义[J].应用生态学报,2005,16(5):971-976.
[35] USEPA. Introduction to Phytoremediation[R].Washington D C: USEPA,2000:3-12.
[36] 洪坚平.土壤污染与防治[M].北京:中国农业出版社,2011:216-244.
[37] Chane Y R L. Plant uptake of in organic waste constituents[M]. PARR J F, ends. Land treatment of hazardous wastes. Noyes Data Corp: Park Ridge,1983:50-76.
[38] Vangronsveld J, Herzig R, Weyens N. Phytoremediation of contaminated soils and groundwater: lessons from the field[J]. Environ Sci Pollute Res,2009,16:765-794.
[39] 沈振国,陈怀满.污染土壤的植物修复.土壤中化学物质的行为与环境质量[M].北京:科学出版社,2002:601-635.
[40] 刘威,束文圣,蓝崇钰.宝山堇菜(Viola baoshanensis)——一种新的镉超富集植物[J].科学通报,2003,48(19):2046-2049.
[41] Kumar P B N, DushenkovV, Motto H, et al. Phyto extraction: the use of plants to remove heavy metals from soils[J].Environmental Science and Technology,1995,29(5):1232-1238.
[42] 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,2002,22(3):207-210.
[43] Ford R C, Sparks D L. The nature of Zn precipitates formed in the presence of pyropyllite[J].Environ Sci Technol,2000,34:2479-2483.
[44] Song J, Zhao F J, Luo Y M, et al. Copper uptake by Elsholtzia splendens and Silene vulgaris and assessment of copper phytoavail ability in contaminated soils[J].Environmental Pollution,2004,128: 307-315.
[45] 吴龙华,周守标,毕德,等.中国景天科植物一新种——伴矿景天[J].土壤,2006,38(5):632-633.
[46] Pilon- Smits E. Phytoremediation[J].Annual Review of Plant Biology,2005,56(1):15-39.
[47] Gurska J, Wang W X, Gerhadt K E. Three year field test of a plant growth promoting rhizobacteria enhanced phytoremediation system at a hand farm for treatment of hydrocarbon waste[J].Environ Sci Technol,2009,43:4472-4479.
[48] 忻介六.土壤动物知识[M].北京:科学出版社,1986:5-12.
[49] 刘军,刘春生,纪洋,等.土壤动物修复技术作用的机理及展望[J].山东农业大学学报:自然科学版,2009,40(2):313-316.
[50] Gueriont M G. The ZIP family of metal transporters[J].Biochim Biophys Act a,2000(12):190-198.
[51] Hiroki M. Effects of heavy metal contamination on soil microbial population[J].Soil Sci-Plant Nur,1992,38:141-147.
[52] Justin D H, David J R, Shaheen S. Cadmium-specific formation of metal sulfide ‘Q- particles’ by klebsiella pneumoniae[J]. Microbiology,1997,143:2521-2530.
[53] Morgan J A W, Bending G D, White P J. Biological costs and benefits to plant- microbe interactions in the rhizosphere[J]. Experimental Botany,2005,56(417):1729-1739.
[54] 骆永明.污染土壤修复技术研究现状与趋势[J].化学进展,2009,21 (2/3):558-564.
[55] Kamaludeen S P B, Ramasamy K. Rhizoremediation of metals Hamessing microbial communities[J].Indian Journal of Microbiology,2008,48:80-88.
[56] 牛之欣,孙丽娜,孙铁珩.重金属污染土壤的植物2微生物联合修复研究进展[J].生态学杂志,2009,28(11):2366-2373.
[57] 林庆宇,李建平,闫研.超积累植物富集机制研究方法进展[J].分析化学,2008,36(3):405-412.
[58] Chen H M, Zheng C R, Tu C. Chemical methods and phytoremediation of soil contaminated with heavy metals[J]. Chemosphere,2000,41:229-234.
[59] 雷鸣,廖柏寒,秦普丰.土壤重金属化学形态的生物可利用性评价[J].生态环境,2007,16(5):1152-1157.
[60] Liao H, Wan H, Shaff J, et al. Phosphorus and aluminum interactions in soybean in relation to Al tolerance Exudation of specific organic acids from different regions of the intact root system[J].Plant Physiology,2006,141:674-684.
[61] Giasson P, Jaouich A, Gagn S, et al. Phytoremediation of zinc and cadmium: A study of arbuscular mycorrhizal hyphae[J]. Remediation Journal,2005,15:113-122.
[62] 牛之欣,孙丽娜,孙铁珩.重金属污染土壤的植物-微生物联合修复研究进展[J].生态学杂志,2009,28(11):2366-2373.
[63] 周启星.污染土壤修复标准建立的方法体系研究[J].应用生学报, 2004,15(2):316-320.
[64] 晁磊.污染土壤修复基准建立的方法体系、案例研究与评价[D].沈阳:中国科学院沈阳应用生态研究所,2007:20-27.
[65] Randall L. Getting the lead out cheaply: a review of the EPA’s proposed residential lead hazard standards[J].Environmental Science and Policy,2001,4:13-23.
[66] Landsdell S, McConnell S. Ecological considerations in setting soil criteria for total petroleum hydrocarbons (<C15) and naphthalene [C].In: Proceedings of the Fifth National Workshop on the Assessment of Site Contamination,1996:101-120.
[67] Oregon Department of Environmental Waste Management and Cleanup Divison[M].Soil cleanup manual,1994:15-20.
[68] 崔芳,袁博.污染土壤修复标准及修复效果评定方法的探讨[J].中国农学通报,2010,26(21):341-345.
[69] 孙铁珩,周启星,李培军.污染土壤修复原理与方法[M].北京:科学出版社,2005:180-195.
[70] 晁雷,周启星,陈芳.污染土壤修复效果评价方法的研究[J].环境污染治理技术与设备,2006,7(4):7-11.
[71] Palazzo A J, Legett D C. Effect and disposition of TNT in a terrestrial plant[J].Environ Qual,1986,15:49-52.
[72] Fletcher J. A brief overview of plant toxicity testing In Gorsuch JW (eds) Plants for toxicity assessment, 22 end vol[M].ASTM STP 1115, American Society for Testing and Materials, Philadelphia, 1991:5-11.
[73] Peterson M M, Hotst G L. TNT and 4- amino- 2,6- dinitrotoluene influence on the germination and early seeding development of tall fescue[J].Environ Pollut,1996,93:57-62.
[74] 易秀,刘秀华,周玉明.土壤质量的生态毒理学评价[J].农业环境保护,2001,20(5):345-347.
[75] 何振立,周启星,谢正苗.污染及有益元素的土壤化学平衡[M].北京:中国环境科学出版社,1998:209-243.
[76] Berkovits L A, Helguero F P. Copper toxicity and copper- zinc interaction[J].The Science of the Total Environment,1998,221(1):1- 10.
[77] Eduardo F S, Zhang C S. Hazard assessment on arsenic and lead in soils of Castromil gold mining area[J].Portugal. Applied Geochemistry,2004,19:887-898.
[78] Saint-Denis M, Narbonne J F, Arnaud C. Biochemical responses of the earthworm Eisenia fetida andrei exposed to contaminated artificial soil: effects of lead acetate[J].Sol Biology & Biochemistry, 2001,33:395-404.
[79] Minissi S, Caccese D, Passafiume F. Mutagenicity (micronucleus test in Vicia faba root tips), polycyclic aromatic hydrocarbons and heavy metal content of sediments collected in Tiber river and its tributaries within the urban area of Roma[J].Mutation Research, 1998,420:77-84.
[80] White P A, Claxton L D. Mutagens in contaminated soil:a review[J]. Mutation Research,2004,567:227-345.
[81] Nowak J, Kaklewski K, Klódka D. Influence of various concentrations of selenic acid (Ⅳ) on the activity of soil enzymes [J].The Science of the Total Environmen,2002,291:105-110.
[82] Ridban K, Tayfun A, Betul B, et al. Microbiological characteristics of soils contaminated with heavy metals[J].European Journal of Soil Biology,2004,40:95-102.
[83] 唐翔宇,朱永官.土壤中重金属对人体生物有效性的体外试验评估[J].环境与健康杂志,2004,21(3):183-185.
[84] USEPA. Guidelines for Ecological Risk Assessment[M].FRL-6011- 2,1998.
[85] 殷浩文.生态风险评价[M].上海:华东理工大学出版社,2001:53-92.
[86] Sergeant A. Management Objectives for Ecological Risk Assessment Developments at US EPA[J].Environmental Science & Policy,2000,3:295-298.
[87] UKDOE. A Guide to Risk Assessment and Risk Management for Environmental Protection[R].London, UK: Her Majesty’ s Stationery Office,1995:8-41.
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