Centro de Investigacion en Alimentación y Desarrollo A.C., Culiacan, Mexico.
Environ Monit Assess. 2012 Jul;184(7):4271-7. doi: 10.1007/s10661-011-2262-9. Epub 2011 Jul 29.
Monitoring of waterborne pathogens is improved by using concentration methods prior to detection; however, direct microbial enumeration is desired to study microbial ecology and human health risks. The aim of this work was to determine Salmonella presence in river water with an ultrafiltration system coupled with the ISO 6579:1993 isolation standard method (UFS-ISO). Most probable number (MPN) method was used directly in water samples to estimate Salmonella populations. Additionally, the effect between Salmonella determination and water turbidity was evaluated. Ten liters or three tenfold dilutions (1, 0.1, and 0.01 mL) of water were processed for Salmonella detection and estimation by the UFS-ISO and MPN methods, respectively. A total of 84 water samples were tested, and Salmonella was confirmed in 64/84 (76%) and 38/84 (44%) when UFS-ISO and MPN were used, respectively. Salmonella populations were less than 5 × 10(3) MPN/L in 73/84 of samples evaluated (87%), and only three (3.5%) showed contamination with numbers greater than 4.5 × 10(4) MPN/L. Water turbidity did not affect Salmonella determination regardless of the performed method. These findings suggest that Salmonella abundance in Sinaloa rivers is not a health risk for human infections in spite of its persistence. Thus, choosing the appropriate strategy to study Salmonella in river water samples is necessary to clarify its behavior and transport in the environment.
采用浓缩方法在检测前监测水源性病原体可提高检测的准确性;然而,为了研究微生物生态学和人类健康风险,直接进行微生物计数是必要的。本研究的目的是利用超滤系统结合 ISO 6579:1993 分离标准方法(UFS-ISO)检测河水中的沙门氏菌。最可能数(MPN)法直接用于水样中,以估计沙门氏菌的数量。此外,还评估了沙门氏菌检测与水浊度之间的关系。对 10 升水或 3 个 10 倍稀释液(1、0.1 和 0.01 mL)分别采用 UFS-ISO 和 MPN 方法进行沙门氏菌检测和估计。共检测了 84 个水样,UFS-ISO 和 MPN 方法分别确认了 64/84(76%)和 38/84(44%)的水样中存在沙门氏菌。在评估的 84 个样本中,有 73 个(87%)样本的沙门氏菌数量小于 5×10(3)MPN/L,只有 3 个(3.5%)样本的污染数量大于 4.5×10(4)MPN/L。无论采用哪种方法,水浊度都不会影响沙门氏菌的检测。这些发现表明,尽管沙门氏菌在锡那罗亚河中的存在,但不会对人类感染造成健康风险。因此,选择适当的策略来研究河水中的沙门氏菌,以澄清其在环境中的行为和传输是必要的。
