Paoli, G. 2002. Microbial risk assessment: Lessons learned and future directions. Presented at 1st International Conference on Microbiological Risk Assessment: Foodborne Hazards. College Park, Maryland: University of Maryland.

Pipes, W.O., H.A. Minnigh, B. Moyer, and M.A. Troy. 1986. Comparison of Clark’s presence-absence test and the membrane filter method for coliform detection in potable water supplies. Applied and Environmental Microbiology 52: 439-443.

Quintero-Betancourt, W., E.M. Peele, and J.B. Rose. 2002. Cryptosporidium parvum and Cyclospora cayetanensis: A review of laboratory methods for detection of these waterborne parasites. Journal of Microbiological Methods 49: 209-224.

Ray, B. 1989. Injured Index and Pathogenic Bacteria: Occurrence and Detection in Foods, Water, and Feeds. Boca Raton, Florida: CRC Press.

Reynolds, K.S., C.P. Gerba, and I.L. Pepper. 1996. Detection of infectious enteroviruses by an integrated cell culture-PCR procedure. Applied and Environmental Microbiology 62(4): 1424-1427.

Reynolds, K.S., C.P. Gerba, and I.L. Pepper. 1997. Rapid PCR-based monitoring of infectious enteroviruses in drinking water. Water Science and Technology 35(11-12): 423-427.

Rose, J.B., D.E. Huffman, and A. Gennaccaro. 2002. Risk and control of waterborne cryptosporidiosis. FEMS Microbiology Reviews 26: 113-123.

Sidhu, S.S. 2000. Phage display in pharmaceutical biotechnology. Current Opinion in Biotechnology 11(6): 610-616.

Slifko, T.R., D.E. Huffman, D. Bertrand, J.H. Owens, W. Jakubowski, C.N. Haas, and J.B. Rose. 2002. Comparison of animal infectivity and cell culture systems for evaluation of Cryptosporidium parvum oocycts. Experimental Parasitology 101: 97-106.

Smith, R.J., A.T. Newton, C.R. Harwood, and M.R. Barer. 2002. Active but nonculturable cells of Salmonella enterica serovar Typhimurium do not infect or colonize mice. Microbiology 148(Part 9): 2717-2726.

Sobsey, M.D., K.J. Schwab, and T.R. Handzel. 1990. A simple membrane filter method to concentrate and enumerate male-specific RNA coliphages. Journal of the American Water Works Association 82(9): 52-59.

Sobsey, M.D., D.A. Battigelli, G.A. Shin, and S. Newland. 1998. RT-PCR amplification detects inactivated viruses in water and wastewater. Water Science and Technology 38(12): 91-94.

Sobsey, M.D. 1999. Methods to identify and detect microbial contaminants in drinking water. Pp. 173-205 in Identifying Future Drinking Water Contaminants. Washington, D.C.: National Academy Press.

Sobsey, M.D. 2001. Microbial detection: Implications for exposure, health effects, and control. Pp 89-113 in Microbial Pathogens and Disinfection By-Products in Drinking Water: Health Effects and Management of Risks, G.F. Craun, F.S. Hauchman, and D.E. Robinson, eds. Washington, D.C.: ILSI Press.

Veal, D.A., D. Deere, B. Ferrari, J. Piper, and P.V. Attfield. 2000. Fluorescence staining and flow cytometry for monitoring microbial cells. Journal of Immunological Methods 243(1-2): 191-210.

Zhen, B., Y.J. Song, Z.B. Guo, J. Wang, M.L. Zhang, S.Y. Yu, and R.F. Yang. 2002. In vitro selection and affinity function of the aptamers to Bacillus anthracis spores by SELEX. Acta Biochimica et Biophysica Sinica 34(5): 635-642.

Ziegler, N.R., and H.G. Halvorson. 1935. Application of statistics to problems in bacteriology. IV. Experimental comparison of the dilution method, the plate count, and the direct count for the determination of bacterial populations. Journal of Bacteriology 29: 609-634.

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