Luo F, Liu Y H, Li X M, et al. Biosorption of lead ion by chemicallymodified biomass of marine brown algae Laminariajaponica[J]. Chemosphere, 2006, 64:1122-1127.
Malik A. Metal bioremediation through growing cells [J]. Environment International, 2004, 30: 261-278.
[4]
Matheickal J T, Yu Q M, Woodbum G M. Biosorption of cadmium( Ⅱ )from aqueous solutions by pre-treated biomass of marine alga Durvillaeapotatorum[J]. Water Research, 1999, 33 : 335-342.
[5]
Merroun M L, Ben Omar N, Gonzalez-Munoz M T, et al. Myxococcus xanthus biomass as biosorbent for lead [J]. Journal of Applied Microbiology, 1998, 84 : 63-67.
[6]
Murugesan G S, Sathishkumar M, Swaminathan K. Arsenic removal from groundwater by pretreated waste tea fungal biomass[J]. Bioresource Technology, 2006, 97:483-487.
[7]
Nuhoglu Y, Oguz E. Removal of copper( Ⅱ ) from aqueous solutions by biosorption on the cone biomass of Thuja orientalis [J]. Process Biochemistry, 2003, 38:1 627-1 631.
[8]
Ozer A, Ozer D. Comparative study of the biosorption of Pb ( Ⅱ ), Ni ( Ⅱ ) and Cr ( Ⅵ ) ions onto S. cerevisiae: determination of biosorption heats[J]. Journal of Hazardous Materials B, 2003, 100:219-229.
[9]
Pagnanelli F, Mainelli S, Veglio F, et al. Heavy metal removal by olive pomace:biosorbent characterisation and equilibrium modeling[J]. Chemical Engineering Science, 2003, 58:4 709-4 717.
[10]
Puranik P R, Paknikar K M. Biosorption of lead and zinc from solutions using Streptoverticillium cinnamoneum waste biomass [J]. Jouranal of Biotechnology, 1997, 55 : 113-124.
[11]
Rosen B P. Transport and detoxification systems for transition metals, heavy metals and metalloids in eukaryotic and prokaryotic microbes[J]. Comparative Biochemistry and Physiology - Part A :Molecular & Integrative Physiology, 2002, 133:689-693.
[12]
Sag Y, Kutsal T. The simuhaneous biosorption of Cr( Ⅵ ), Fe( Ⅲ ) and Cu( Ⅱ ) on Rhizopus arrhizus[J]. Process Biochemistry, 1998, 33:571- 579.
[13]
Abu Al-Rub F A, El-Naas M H, Ashour I, et al. Biosorption of copper on Chlorellavulgaris from single, binary and ternary metal aqueous solutions[J]. Process Biochemistry, 2006.41 : 457-464.
[14]
Akar T, Tunali S. Biosorption characteristics ofA spergillus flavus biomass for removal of Pb ( Ⅱ ) and Cu ( Ⅱ ) ions from an aqueous solution[J]. Bioresource Technology, 2006, 97:1 780-1 787.
[15]
Aksu Z, Acikel U. Modelling of a single-staged bioseparation process for simultaneous removal of iron ( Ⅲ ) and chromium ( Ⅵ ) by using Chlorella vulgaris [J]. Biochemical Engineering Journal, 2000, 4 : 229- 238.
[16]
An H K, Park B Y, Kim D S. Crab shell for the removal of heavy metals from aqueous solution[J]. Water Research, 2001, 35 : 3 551-3 556.
[17]
Bayramoglu G, Tuzun I, Celik G, et al. Biosorption of mercury ( Ⅱ ), cadmium ( Ⅱ ) and lead ( Ⅱ ) ions from aqueous system by microalgae Chlamydomonas reinhardtii immobilized in alginate beads[J]. International Journal of Mineral Processing, 2006, 81 : 35-43.
[18]
Baytak S, Turker A R. The use of Agrobacterium tumefacients immobilized on Amberlite XAD-4 as a new biosorbent for the column preconcentration of iron ( Ⅲ ), cobalt ( Ⅱ ), manganese ( Ⅱ ) and chromium ( Ⅲ )[J]. Talanta, 2005, 65, 938-945.
[19]
Beolchini F, Pagnanelli F, Toro L et al. Biosorption of copper by Sphaerotilus natans immobilised in polysulfone matrix:equilibrium and kinetic analysis[J]. Hydrometallurgy, 2003, 70 : 101-112.
[20]
Bill F. Environmental ecology[M]. Academic Press, 1995.
[21]
Cabuka A, Akar T, Tunali S, et al. Biosorption characteristics of Bacillus sp. ATS-2 immobilized in silica gel for removal of Pb( Ⅱ )[J]. Journal of Hazardous Materials B, 2006, 136 : 317-323.
[22]
Chang J S, Law R, Chang C C. Biosorption of lead, copper and cadmium by biomass of Pseudomonas aeruginosa PU21 [J]. Water Research, 1997,31:1 651-1 658.
[23]
Cimino G, Passerini A, Toscano G. Removal of toxic cations and Cr (Ⅵ) from aqueous solution by hazelnut shell [J]. Water Research, 2000, 34 : 2 955-2 962.
[24]
Davis T A, Volesky B, Mucci A. A review of the biochemistry of heavy metal biosorption by brown algae[J]. Water Research, 2000, 37:4 311- 4 330.
[25]
Davis T A, Volesky B, Vieira R H S F. Sargassum seaweed as biosorbent for heavy metals[J]. Water Research, 2000, 34:4 270-4 278.
[26]
Diniz V, Volesky B. Desorption of lanthanum, europium and ytterbium from Sargassum [J]. Separation and Purification Technology, 2006, 50: 71-76.
[27]
El-Sheekh M M, El-Shouny W A, Osman M E H, et al. Growth and heavy metals removal efficiency of Nostoc muscorum and Anabaena subcylindrica in sewage and industrial wastewater effluents [J]. Environmental Toxicology and Pharmacology, 2005, 19 : 357-365.
Gonzalez-Munoz M T, Merroun M L, Ben Omar N, et al. Biosorption of uranium by Myxococcus xanthus [J]. International Biodeterioration & Biode gradation, 1997, 40:107-114.
[32]
Han R P, Li H K, Li Y H, et al. Biosorption of copper and lead ions by waste beer yeast[J]. Journal of Hazardoas Materials B, 2006, 137:1569-1576.
[33]
黄淑惠.真菌孢子和棉籽壳吸附金(Au^3+)的研究[J].黄金,1994,2(1):40—44.
[34]
Kaewsarn P. Biosorption of copper( Ⅱ ) from aqueous solutions by pretreated biomass of marine algae Padina sp.[J]. Chemosphere, 2002, 47 : 1 081-1 085.
[35]
Kaewsarn P, Yu Q M. Cadmium( Ⅱ ) removal from aqueous solutions by pre-treated bionmss of marine alga Padina sp. [J]. Environmental Pollution, 2001, 112 : 209-213.
Kapoor A, Viraraghavan T. Fungi biosorption-an ahemative treatment option for heavy metal bearing wastewaters:a review[J]. Bioresource Technology, 1995 : 53 : 195-206.
[38]
Kratochvil D, Volesky B. Advances in the biosorption of heavy metals[J]. Trends In Biotechnology, 1998, 16: 291-300.
[39]
Lecoeur S, Videmann B, Bemy P H. Evaluation of metallothionein as a biomarker of single and combined Cd/Cu exposure in Dreissena polymorpha[J]. Environmental Research, 2004, 94 : 184-191.
[40]
Liu N, Luo S H, Yang Y Y, et al. Biosorption of americium-241 by Saccharomyces cerevisiae [J]. Journal of Radioanalytical and Nuclear Chemistry, 2002, 252:187-191.
[41]
Liu Y Y, Fu J K, Hu H B, et al. Properties and characterization of Au^3+- adsorption by mycelial waste of Streptomyces aureofaciences [J]. Chincse Science Bulletin, 2001, 46:1709-1712.
[42]
Lo W H, Chua H, Lam K H, et al. A comparative investigation on the biosorption of lead by filamentous fungal biomass[J]. Chemosphere, 1999, 39 : 2723-2736.
[43]
Loaec M, Olier R, Guezennec J. Uptake of lead, cadmium and zinc by a novel bacterial exopolysaccharide[J]. Water Research, 1997, 31 : 1171- 1179.
[44]
Lovley D R, Coatest J D. Bioremediation of metal contamination [J]. Current Opinion in Biotechnology, 1997, 8 : 255-259.
[45]
盛连喜.现代环境科学导论[M].北京:化学工业出版社,2002,1.
[46]
宋永昌 由文辉 王祥荣主编.城市生态学[M].上海:华东师范大学出版社,2000.125-131.
[47]
Suhasini I P, Sriram G, Asolekar S R, et al. Biosorptive removal and recovery of cobalt from aqueous systems [J]. Process Biochemistry, 1999, 34 : 239-247.
Suzuki Y, Kametani T, Maruyama T. Removal of heavy metals from aqueous solution by nonliving Ulva seaweed as biosorbent [J]. Water Research, 2005, 39:1 803-1 808.
[50]
Texier A C, Andres Y, Faur-Brasquet C, et al. Fixed-bed study for lanthanide (La, Eu, Yb) ions removal from aqueous solutions by immobilized Pseudomonas aeruginosa:experimental data and modelization[J]. Chemosphere, 2002, 47 : 333-342.
[51]
Tobin J M, Roux J C. Mucor biosorbent for chromium removal from tanning effluent[J]. Water Research, 1998, 32:1 407-1 416.
[52]
Tunali S, Kiran I, Akar T. Chromium( Ⅵ ) biosorption characteristics of Neurospora crassa fungal biomass[J]. Minerals Engineering, 2005, 18: 681-689.
[53]
Ucun H, Bayhan Y K, Kaya Y, et al. Biosorption of chromium(Ⅵ ) from aqueous solution by cone biomass of Pinus sylvestris [J]. Bioresource Technology, 2002, 85:155-158.
[54]
Veglio F, Beolchini F. Removal of metals by biosorption:a review[J]. Hydrometallurgy, 1997, 44 : 301-316.
[55]
Vijver M G, Gestel C A M V, Lanno R P, et al. Internal metal sequestration and its ecotoxicological relevance:a review[J]. Environmental Science & Technology, 2004, 38 : 4 705-4 712.
[56]
Volesky B. Detoxifieation of metal-bearing effluents: biosorption for the next century[J]. Hydrometallurgy, 2001, 59: 203-216.
[57]
Wang J L, Chen C. Biosorption of heavy metals by Saccharomyces cerevis iae : A review[J]. Biotechnology Advances, 2006, 24: 427-451.
[58]
Williams C J, Aderhold D, Edyvean R G J. Comparison between biosorbents for the removal of metal ions from aqueous solutions[J]. Water Research, 1998, 32 : 216-224.
[59]
Wong J P K, Wong Y S, Tam N F Y. Nickel biosorption by two chlorella species, C-Vulgaris (a commercial species) and C-Miniata (a local isolate)[J]. Bioresource Technology, 2000, 73 : 133-137.
[60]
Xie J Z, Chang H L, Kilbane II J J. Removal and recovery of metal ions from wastewater using biosorbents and chemically modified biosorbents[J]. Bioresource Technology, 1996, 57:127-136.
Yan G Y, Viraraghavan T. Heavy-metal removal from aqueous solution by fungus Mucor rouxii[J]. Water Research, 2003, 37 :4 486-4 496.
[63]
Yang J B, Volesky B. Biosorption of uranium on Sargassum biomass[J]. Water Research, 1999, 33 : 3 357-3 363.
[64]
Yavuz H, Denizli A, Gungunes H, et al. Biosorption of mercury on magnetically modified yeast cells[J]. Separation and Purification Technology, 2006, 52: 253-260.
[65]
ZHANGDan(张丹) GAOJianwei(高建伟) YINYigao(殷义高) etal.Effect of factors on copper biosorption by macrofungi Auriculariapolytricha[J].生态环境,2006,15(2):295-298.
