Three quantitative methods to continuously monitor Legionella in spring water.
- Author:
Ge-bin YAN
1
;
Huan-xin WANG
;
Tian QIN
;
Hai-jian ZHOU
;
Ma-chao LI
;
Ying XU
;
Ming-qiang ZHAO
;
Zhu-jun SHAO
;
Hong-yu REN
Author Information
- Publication Type:Journal Article
- MeSH: Environmental Monitoring; methods; Hot Springs; microbiology; Legionella; classification; isolation & purification; Microbiological Techniques; Water Microbiology
- From: Chinese Journal of Preventive Medicine 2013;47(7):637-640
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVETo compare the detection effect of Legionella pollution in spring water by three methods, namely traditional plating method, fluorescent quantitation PCR method and ethidium monoazide (EMA) fluorescent quantitation PCR method.
METHODSEvery month (except May), we collected 11 water samples from the 5 selected hot spring pools in one hot spring resort in Beijing in 2011. A total of 121 water samples were collected, and then were detected by the above three methods qualitatively and quantitatively.
RESULTSIn our study, the Legionella pollution rate was separately 74.4% (90/121), 100.0% (121/121) and 100.0% (121/121) by the above three methods. The quantitative value of Legionella in the 121 water samples detected by the three methods were around 0.10-216.00 colony-forming units (CFU)/ml, 1.47-1557.75 gene units (GU)/ml and 0.20-301.69 GU/ml, respectively. The median (25th and 75th percentiles) was 75.30 (32.51-192.10) GU/ml, 36.46 (16.08-91.21) GU/ml and 5.30 (0.00-33.70) CFU/ml, respectively. The difference in the quantitative value of Legionella detected by the three methods showed statistical significance (χ(2) = 187.900, P < 0.01). The quantitative value of Legionella detected by fluorescent quantitation PCR method was the highest, followed by the value Legionella detected by EMA-fluorescent quantitation PCR method and traditional plating method.
CONCLUSIONThe sensitivity of the PCR methods was higher than traditional plating method, in detecting Legionella pollution in spring water, especially the EMA- fluorescent quantitation PCR method, which was more suitable for detecting Legionella in water.