[1] 钟晓兰,周生路,李江涛,等.长江三角洲地区土壤重金属污染的空间变异特征-以江苏省太仓市为例[J].土壤学报,2007,44(1):34-40.
[2] 付建华.中国土壤修复的研究现状[A].中国环境科学学会学术年会优秀论文集[C].北京:中国环境科学出版社, 2008:1056-1057.
[3] 王旭,张豪,张松林,等.土壤重金属污染及修复技术的研究进展[J].甘肃农业,2011(3):60-62.
[4] 张玉斌.重金属污染现状及防控策略[J]. 环境保护与循环经济,2012(6):4-7
[5] 周启星,宋玉芳.污染土壤修复原理与方法[M].北京:科学出版社, 2004.
[6] 骆永明,滕应. 中国土壤污染退化状况及防治对策[J].土壤,2006,38 (5):505-508.
[7] Cao X D, Ma Q Y, Rhue D R, et al. Mechanisms of lead, copper, and zinc retention by phosphate rock[J]. Environmental Pollution, 2004,131(3):435-444.
[8] 陈怀满,郑春荣,涂从,等.中国重金属污染现状与防治对策[J]. Ambio,1999,28(2):130-134.
[9] 温志良,莫大伦.土壤污染研究现状与趋势[J].重庆环境科学,2000, 22(3):55-57.
[10] 刘传德,王强,于波,等.农田土壤重金属污染的特点和治理对策[J].农技服务,2008(07):118-119.
[11] 陈靖,林振景,孟媛媛,等.土壤重金属污染的植物修复及超富集植物的研究进展[J].中国环境管理干部学院学报,2011,21(l):69-71.
[12] Baker A J M, McGrath S P, Sidoli C M D, et al. The possibility of in situ heavy metal deconta- mination of polluted soils using crops of metal- accumulating plants[J].Resources, Conservation and Recycling, 1994,11:41-49.
[13] 汤叶涛,仇容亮,曾晓雯,等.一种新的多金属超富集植物——圆锥南芥(Arabis paniculata L.)[J].中山大学学报,2005,44(4):135-136.
[14] Chaney R L, Malik M, Li Y M , et al. Phytoremediation of soil metals[J]. Current Opinion in Biotechnology,1997,8(3):279-284.
[15] Pilon S E. Phytoremediation[J]. Annual review of Plant Biology, 2005(56):15-39.
[16] Dushenkov V, Kumar P B A N, Harry M, et al. Rhizofiltration: The use of plants to remove heavy metals from agueous stream[J]. Environmental Science and Technology,1995(29):1239-1245.
[17] Cunningham S D, Berti W R, Huang J W. Phytoremediation of contaminated soils[J]. Trends in Biotechnology, 1995,13(9):393- 397.
[18] 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.
[19] 胡洁,梁慧锋.重金属污染土壤的植物修复技术[J].广东化工,2011, 38(4):160-161.
[20] Banuelos G S, Ajwa H A, Mackey B, et al. Evaluation of different plant species used for phytoremediation of high soil selenium[J]. Journal of Environmentai Ouaiity,1997,26(3):639-646.
[21] Meagher R B. Phytoremediation of toxic elemental and organic pollutants[J]. Current, Opinion on Plant Biology,2000,3(2):153-162.
[22] 沈德中.污染环境的生物修复[M].北京:化学工业出版社,2002.
[23] Dushenkov S, Vasudev D. Removal of Uranium from Water Using Terrestrial Plants[J]. Environmental Science and Technology,1997, 31(12):3468-3474.
[24] 陈兴兰,杨成波.土壤重金属污染、生态效应及植物修复技术[J].环境整治,2010(3):58-62.
[25] Hansen D, Duda P J, Zayed A, et al. Selenium removal by constructed wetlands: role of biological volatilization[J]. Environmental Science and Technology, 1998,32:591-597.
[26] 能凤娇,刘鸿雁,马莹,等.根际促生菌在植物修复重金属污染土壤中的应用研究进展[J].中国农学通报,2013(05):187-191.
[27] 贾建丽,于妍,王晨.环境土壤学[M]. 北京:化学工业出版社,2012: 48.
[28] Ahmad F, Ahmad I, Khan M S. Screening of free-living rhizosphere bacteria for their mul- tiple plant growth promoting activities[J]. Microbiological Research,2008,163(2):173-181.
[29] Cattelan A J, Hartel P G, Fuhrmann J J. Screening for plantgrowthpromoting rhizobacteria to promote early soybean growth[J]. Soil Science Society of America Journal,1999(63):1670-1680.
[30] Ma Y, Rajkumar M, Freitas H. Isolation and characterization of Ni mobilizing PGPB from serpentine soils and their potential in promoting plant growth and Ni accumulation by Brassica sp[J]. Chemosphere,2009(75):719-725.
[31] 屈冉,孟伟,李俊生,等.土壤重金属污染的植物修复[J].生态学杂志, 2008,27 (04):626-631.
[32] 万敏,周卫,林葆.不同镉积累类型小麦根际土壤低分子量有机酸与镉的生物积累[J].植物营养与肥料学报,2003,9(3):331-336.
[33] 骆永明. 金属污染土壤的植物修复[J].土壤,1999,31(5):261-265.
[34] Kramer U. Free histidine as a metal chelator in plants that accumulate nickel [J].Nature,1996,379:635-638.
[35] Brooks R R, Lee J, Reeves R D, et al. Detection of nickeliferous rocks by analysis of herbarium specimens of indicator plants[J]. Journal of Geochemical Exploration,1977(7):49-57
[36] Chaney R L, Malik M, Li Y M, et al. Phytoremediation of soil metals[J]. Current Opinion in Biotechnology,1997,8(3):279-284.
[37] 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.
[38] Ma Y, Prasad M N, Rajkumar M, et al. Plant growth promoting rhizobacteria and end- ophytes accelerate phytoremediation of metalliferous soils[J]. Biotechnology advances,2011,29(2):248-258.
[39] Anderson T A, Guthrie E A, Walton B T. Bioremediation in the rhizosphere[J]. Environmental Science and Technology,1993,27(13): 2630-2636.
[40] 白彦真,谢英荷,张小红.重金属污染土壤植物修复技术研究进展[J].山西农业科学,2012,40(6):695-697.
[41] 魏巧,李元,祖艳群.修复重金属污染土壤的超富集植物栽培措施研究进展[J].云南农业大学学报,2008,23(01):103.
[42] 陈一萍.重金属超积累植物的研究进展[J].环境科学与管理,2008, 33(03):20.
[43] Blaylock M J, Salt D E, Dushenkov S, et al. Enhanced accumulation of Pb in indian mustard by soil- applied chelating agents[J]. Environmental Science Technology,1997(31):860-865.
[44] Ebbs S D, Kochian L V. Phytoextraction of zinc by oat (Avena sativa), barley (Hordeum vulgare), and indian mustard (Brassica junea)[J]. Environmental Science Technology,1998(32):802-806.
[45] Antiochia R, Campanella L, Ghezzi P, et al. The use of vetiver for remediation of heavy metal soil contamination[J]. Analytical and Bioanalytical Chemistry,2007,388(4):947-956.
[46] 封功能,陈爱辉,刘汉文,等.土壤中重金属污染的植物修复研究进展[J].江西农业学报. 2008,20(12):70-73.
[47] 樊有赋,陈晔,詹寿发,等. 超积累植物与重金属污染的植物修复技术[J].河北农业科学,2007,11(5):73-75.
[48] 陈同斌,韦朝阳.As超富集植物蜈蚣草及其对 As的富集特征[J].科学通报,2002,16(2):47-51.
[49] 薛生国,陈英旭,林琦,等.中国首次发现的锰超积累植物-商陆[J].生态报,2003,23(5):937.
[50] 杨兵,蓝崇钰,束文圣.香根草在铅锌尾矿上生长及其对重金属的吸收[J].生态学报,2005,25(1):45-50.
[51] 杨肖娥,龙新宪.东南景天(Sedum alfredii--一种新的锌超积累植物[J].科学通报,2002,47(13):1003-1007.
[52] 茹淑华,苏德纯,王激清.土壤镉污染特征及污染土壤的植物修复技术机理[J].中国生态农业学报,2006,14(04):29-33.
[53] 时伟宇,李国军,李华.重金属污染土壤根际环境的调节与植物修复研究进展[J].科技情报开发与经济,2007,17(33):139-140.
[54] 闫晓明,何金柱,苗青松.污染土壤植物修复技术研究进展[J].中国生态农业学报,2004,12(03):131-133.
[55] 王林,周启星.农艺措施强化重金属污染土壤的植物修复[J]. 中国生态农业学报,2008,16(03):772-777.
[56] 刘晓冰,邢宝山,周克琴,等.污染土壤植物修复技术及其机理研究[J]. 中国生态农业学报,2005,13(01):143-151.
[57] Pilon- Smits E. Phytoremediation[J]. Annual Review of Plant Biology,2005,56(1):15-39.
[58] 张继舟,王宏韬,袁磊,等.重金属污染土壤的植物修复技术研究[J].中国农学通报,2013,29(14):134-139
[59] 王庆海,却晓娥.治理环境污染的绿色植物修复技术[J].中国生态农业学报,2013,21(2):261-266.
|