"Legionella Monitoring Results by Water Quality Characteristics in a Large Public Water System" by Jessie A. Gleason

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Legionella Monitoring Results by Water Quality Characteristics in a Large Public Water System

Environmental Science and Pollution Research (2023)

Jessie A. Gleason, New Jersey Department of Health
Robert Newby, New Jersey Department of Environmental Protection
John J. Gaynor, Montclair State University
Lee H. Lee, Montclair State University
Tinchun Chu, Seton Hall University
Alorah D. Bliese, Montclair State University
Calvin W. Taylor, Montclair State University
Paul Yoon, Seton Hall University
Suzanne DeLorenzo, Passaic Valley Water Commission
David Pranitis, Passaic Valley Water Commission
Joe Bella, Passaic Valley Water Commission

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Abstract

Legionella, the causative agent of Legionnaires’ disease, is an emerging concern for water utilities. Passaic Valley Water Commission (PVWC) is a public drinking water supplier, which provides treated surface water to approximately 800,000 customers in New Jersey. To evaluate the occurrence of Legionella in the PVWC distribution system, swab, first draw, and flushed cold water samples were collected from total coliform sites (n = 58) during a summer and winter sampling event. Endpoint PCR detection methods were combined with culture for Legionella detection. Among 58 total coliform sites during the summer, 17.2% (10/58) of first draw samples were positive for 16S and mip Legionella DNA markers and 15.5% (9/58) in flushed samples. Across both summer and winter sampling, a total of four out of 58 sites had low-level culture detection of Legionella spp. (0.5–1.6 CFU/mL) among first draw samples. Only one site had both a first and flush draw detection (8.5 CFU/mL and 1.1 CFU/mL) for an estimated culture detection frequency of 0% in the summer and 1.7% in the winter among flushed draw samples. No L. pneumophila was detected by culture. Legionella DNA detection was significantly greater in the summer than in the winter, and detection was greater in samples collected from areas treated with phosphate. No statistical difference was found between first draw and flush sample detection. Total organic carbon, copper, and nitrate were significantly associated with Legionella DNA detection.

Keywords

Legionella,
Public water,
Community water,
Water utility

Disciplines

Publication Date

March 13, 2023

DOI

10.1007/s11356-023-26198-9

Citation Information

Jessie A. Gleason, Robert Newby, John J. Gaynor, Lee H. Lee, et al.. "Legionella Monitoring Results by Water Quality Characteristics in a Large Public Water System" Environmental Science and Pollution Research (2023) p. 1 - 15 ISSN: 0944-1344
Available at: http://works.bepress.com/tin-chun_chu/52/