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References

  • Ahmed, W., Tucker, J., Harper, J., Neller, R. and Katouli, M. (2006) Comparison of the efficacy of an existing versus a locally developed metabolic fingerprint database to identify non-point sources of faecal contamination in a coastal lake. Water Res 40, 23392348.
  • Allsop, K. and Stickler, J.D. (1985) An assessment of Bacteroides fragilis group organisms as indicators of human faecal pollution. J Appl Bacteriol 58, 9599.
  • Australian and New Zealand Environment and Conservations Council with the Agriculture and Resource Management Council of Australia and New Zealand (2000) The Australian and New Zealand guidelines for fresh and marine water quality. Canberra: National Water Quality Management Strategy, ANZECC and ARMCANZ.
  • Bernhard, A.E. and Field, K.G. (2000) A PCR assay to discriminate human and ruminant faeces on the basis of host differences in Bacteroides-Prevotella genes encoding 16S rRNA. Appl Environ Microbiol 66, 45714574.
  • Bernhard, A.E., Goyard, T., Simonich, M.T. and Field, K.G. (2003) Application of a rapid method for identifying fecal pollution sources in a multi-use estuary. Water Res 37, 909913.
  • Dick, L.K., Bernhard, A.E., Brodeur, T.J., Santo Domingo, J.W., Simpson, J.M., Walters, S.P. and Field, K.G. (2005) Host distributions of uncultivated fecal Bacteroides reveal genetic markers for fecal source identification. Appl Environ Microbiol 71, 31843191.
  • Field, K.G. and Samadpour, M. (2007) Fecal source tracking, the indicator paradigm, and managing water quality. Water Res 41, 35173528.
  • Gawler, A.H., Beecher, J.E., Brandão, J., Carroll, N.M., Falcão, L., Gourmelon, M., Masterson, B., Nunes, B. et al. (2007) Validation of host-specific Bacteriodales 16S rRNA genes as markers to determine the origin of fecal pollution in Atlantic Rim countries of the European Union. Water Res 41, 37803784.
  • Gordon, D.M., Bauer, S. and Johnson, J.R. (2002) The genetic structure of Escherichia coli populations in primary and secondary habitats. Microbiology 148, 15131522.
  • Gourmelon, M., Caprais, M.P., Ségura, R., Mennec, C.L., Lozach, S., Piriou, J.Y. and Rincé, R.A. (2007) Evaluation of two library-independent microbial source tracking methods to identify sources of fecal contamination in French estuaries. Appl Environ Microbiol 73, 48574866.
  • Griffith, J.F., Weisberg, S.B. and McGee, C.D. (2003) Evaluation of microbial source tracking methods using mixed sources in aqueous test samples. J Water Health 1, 141151.
  • Kreader, C.A. (1995) Design and evaluation of Bacteroides DNA probes for the specific detection of human fecal pollution. Appl Environ Microbiol 61, 11711179.
  • Okabe, S., Okayama, N., Savichtcheva, O. and Ito, T. (2006) Quantification of host-specific Bacteroides–Prevotella 16S rRNA genetic markers for assessment of fecal pollution in freshwater. Appl Microbiol Biotechnol 74, 894901.
  • Seurinck, S., Verdievel, M., Verstraete, W. and Siciliano, S.D. (2006) Identification of human fecal pollution sources in a coastal area: a case study at Oostende (Belgium). J Water Health 4, 167175.
  • Sghir, A., Gramet, G., Suau, A., Rochet, V., Pochart, P. and Dore, J. (2000) Quantification of bacterial groups within human faecal flora by oligoneocletide probe hybridization. Appl Environ Microbiol 66, 22632266.
  • Stewart, J., Gardner, T., Ahmed, W., Brooks, P., Katouli, M., Sullivan, D., Tindale, N. and Roser, D. (2006) Source tracking of faecal indicators in non-sewered catchments. Brisbane, Australia: 9th International River Symposium, 4–7 September 2006.
  • Stoeckel, D.M., Mathes, M.V., Hyer, K.E., Hagedorn, C., Kator, H., Lukasik, J., O’Brien, T.L., Fenger, T.W. et al. (2004) Comparison of seven protocols to identify fecal contamination sources using Escherichia coli. Environ Sci Technol 38, 61076117.