Cryptosporidium and Giardia Recoveries in Natural Waters by Using Environmental Protection Agency Method 1623

Author:

DiGiorgio Carol L.1,Gonzalez David A.2,Huitt Christopher C.2

Affiliation:

1. Municipal Water Quality Investigations Unit, Department of Water Resources, State of California, Sacramento, California 95814

2. Water Quality Assessment Field Support Unit, Department of Water Resources, State of California, West Sacramento, California 95605

Abstract

ABSTRACT Relatively few studies have examined recoveries from source waters by using Environmental Protection Agency method 1623 with organism spike doses that are environmentally realistic and at turbidity levels commonly found in surface waters. In this study, we evaluated the filtration capacities and recovery efficiencies of the Gelman Envirochek (standard filter) and the Gelman Envirochek high-volume (HV) sampling capsules under environmental conditions. We also examined the performance of method 1623 under ambient conditions with matrix spike experiments using 10 organisms/liter. Under turbid conditions, the HV capsule filtered approximately twice the volume filtered by the standard filter, but neither could filter 10 liters without clogging. In low-turbidity waters, oocyst, but not cyst, recoveries were significantly higher when the HV capsule was used. In turbid waters, organism recoveries were lower than those in nonturbid waters and were not significantly different for the different filters. When the HV capsule was used, Cryptosporidium recoveries ranged from 36 to 75%, and Giardia recoveries ranged from 0.5 to 53%. For both organisms, recoveries varied significantly by site. Turbidity could explain variation in Giardia recoveries ( r 2 = 0.80) but not variation in Cryptosporidium recoveries ( r 2 = 0.16). The inconsistent recoveries across sites suggested that the background matrix of the ambient water affected recovery by method 1623. A control sample collected at the height of the winter rainy season detected one organism, highlighting the difficulty of using this method to accurately measure pathogen abundance under natural conditions. Our findings support the use of the HV filter under field conditions but suggest that designing a cost-effective and statistically valid monitoring program to evaluate sources and loads of protozoan pathogens may be difficult.

Publisher

American Society for Microbiology

Subject

Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology

Reference11 articles.

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2. Immunomagnetic Separation of Cryptosporidium parvum from Source Water Samples of Various Turbidities

3. Connell, K., C. C. Rodgers, H. L. Shank-Givens, J. Scheller, M. L. Pope, and K. Miller. 2000. Building a better protozoa data set. J. Am. Water Works Assoc.92:30-43.

4. Federal Register. 2001. Guidelines establishing test procedures for the analysis of pollutants: analytical methods for biological pollutants in ambient water, proposed rule. Fed. Regist.66:45811-45829.

5. Hsu, B. M., and C. Huang. 2000. Recovery of Giardia and Cryptosporidium from water by various concentration, elution, and purification techniques. J. Environ. Qual.29:1587-1593.

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