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References

  • Alonso, A., Sánchez, P. and Martínez, J.L. (2001) Environmental selection of antibiotic resistance genes. Environmental Microbiology 3, 19.
  • Campbell, J.I.A., Jacobsen, C.S. and Sørensen, J. (1995) Species variation and plasmid incidence among fluorescent Pseudomonas strains isolated from agricultural and industrial soils. FEMS Microbiology Ecology 18, 5162.
  • Duxbury, T. and Bicknell, B. (1983) Metal-tolerant bacterial populations from natural and metal-polluted soils. Soil Biology and Biochemistry 15, 243250.
  • Edwards, U., Rogall, T., Blöcker, H., Emde, M. and Böttger, E.C. (1989) Isolation and direct complete nucleotide determination of entire genes. Characterization of a gene coding for 16S ribosomal RNA. Nucleic Acids Research 17, 78437853.
  • Eisenstadt, E., Carlton, B.C. and Brown, B.J. (1994) Gene mutation. In Methods for General and Molecular Microbiology ed. Gerhardt, P. pp. 297316. Washington DC: American Society for Microbiology.
  • Ellis, R.J., Best, J.G., Fry, J.C., Morgan, P., Neish, B., Trett, M.W. and Weightman, A.J. (2002) Similarity of microbial and meiofaunal community analyses for mapping ecological effects of heavy-metal contamination in soil. FEMS Microbiology Ecology 20, 113122.
  • Ellis, R.J., Morgan, P., Weightman, A.J. and Fry, J.C. (2003) Cultivation-dependent and -independent approaches for determining bacterial diversity in heavy-metal-contaminated soil. Applied and Environmental Microbiology 69, 32233230.
  • Huysman, F., Verstraete, W. and Brookes, P.C. (1994) Effect of manuring practices and increased copper concentrations on soil microbial populations. Soil Biology and Biochemistry 26, 103110.
  • Jensen, L.E. and Nybroe, O. (1999) Nitrogen availability to Pseudomonas fluorescens DF57 is limited during decomposition of barley straw in bulk soil and in the barley rhizosphere. Applied and Environmental Microbiology 65, 43204328.
  • Kunito, T., Senoo, K., Saeki, K., Oyaizu, H. and Matsumoto, S. (1999) Usefulness of the sensitivity-resistance index to estimate the toxicity of copper on bacteria in copper-contaminated soils. Ecotoxicology and Environmental Safety 44, 182189.
  • Lane, D.J. (1991) 16S/23S rRNA sequencing. In Nucleic Acid Techniques in Bacterial Systematics ed. Stackebrandt, E. and Goodfellow, M. pp. 115175. New York: John Wiley and Sons.
  • Olson, B.H. and Thornton, I. (1982) The resistance patterns to metals of bacterial populations in contaminated land. Journal of Soil Science 33, 271277.
  • Powers, E.M. (1995) Efficacy of the Ryu non-staining KOH technique for rapidly determining Gram reactions of food-borne and waterborne bacteria and yeasts. Applied and Environmental Microbiology 61, 37563758.
  • Roane, T.M. and Kellogg, S.T. (1996) Characterization of bacterial communities in heavy metal contaminated soils. Canadian Journal of Microbiology 42, 593603.
  • Roane, T.M. and Pepper, I.L. (2000) Microbial responses to environmentally toxic cadmium. Microbiology Ecology 38, 358364.
  • Sauvé, S., Dumestre, A., McBride, M. and Hendershot, W. (1998) Derivation of soil quality criteria using predicted chemical speciation of Pb2+ and Cu2+. Environmental Toxicology and Chemistry 17, 14811489.
  • Smit, E., Leeflang, P. and Wernars, K. (1997) Detection of shifts in microbial community structure and diversity in soil caused by copper contamination using amplified ribosomal DNA restriction analysis. FEMS Microbiology Ecology 23, 249261.
  • Tom-Petersen, A., Leser, T., Marsh, T.L. and Nybroe, O. (2003) Effects of copper amendment on the bacterial community in agricultural soil analysed by T-RFLP technique. FEMS Microbiology Ecology 46, 5362.
  • Weinbauer, M.G., Beckmann, C. and Höfle, M.G. (1998) Utility of green fluorescent nucleic acid dyes and aluminium oxide membrane filters for rapid epifluorescence enumeration of soil and sediment bacteria. Applied and Environmental Microbiology 64, 50005003.
  • Witter, E. (1996) Towards zero accumulation of heavy metals in soils. Fertility Research 43, 225233.