Havelaar A H, van Olphen M, Drost Y C
Laboratory of Water and Food Microbiology, National Institute of Public Health and Environmental Protection, Bilthoven, The Netherlands.
Appl Environ Microbiol. 1993 Sep;59(9):2956-62. doi: 10.1128/aem.59.9.2956-2962.1993.
Culturable enteroviruses were detected by applying concentration techniques and by inoculating the concentrates on the BGM cell line. Samples were obtained from a wide variety of environments, including raw sewage, secondary effluent, coagulated effluent, chlorinated and UV-irradiated effluents, river water, coagulated river water, and lake water. The virus concentrations varied widely between 0.001 and 570/liter. The same cell line also supported growth of reoviruses, which were abundant in winter (up to 95% of the viruses detected) and scarce in summer (less than 15%). The concentrations of three groups of model organisms in relation to virus concentrations were also studied. The concentrations of bacteria (thermotolerant coliforms and fecal streptococci) were significantly correlated with virus concentrations in river water and coagulated secondary effluent, but were relatively low in disinfected effluents and relatively high in surface water open to nonhuman fecal pollution. The concentrations of F-specific RNA bacteriophages (FRNA phages) were highly correlated with virus concentrations in all environments studied except raw and biologically treated sewage. Numerical relationships were consistent over the whole range of environments; the regression equations for FRNA phages on viruses in river water and lake water were statistically equivalent. These relationships support the possibility that enteric virus concentrations can be predicted from FRNA phage data.
通过采用浓缩技术并将浓缩物接种到BGM细胞系上来检测可培养的肠道病毒。样本取自多种环境,包括原污水、二级出水、混凝出水、氯化和紫外线照射后的出水、河水、混凝河水以及湖水。病毒浓度在0.001至570/升之间差异很大。同一细胞系也支持呼肠孤病毒的生长,呼肠孤病毒在冬季数量丰富(占检测到的病毒的95%),而在夏季则很少(不到15%)。还研究了三组模式生物的浓度与病毒浓度的关系。细菌(耐热大肠菌群和粪链球菌)的浓度与河水和混凝二级出水中的病毒浓度显著相关,但在消毒后的出水中相对较低,在受到非人类粪便污染的地表水中相对较高。F特异性RNA噬菌体(FRNA噬菌体)的浓度与除原污水和生物处理后的污水外的所有研究环境中的病毒浓度高度相关。在整个环境范围内,数值关系是一致的;河水中和湖水中FRNA噬菌体与病毒的回归方程在统计学上是等效的。这些关系支持了从FRNA噬菌体数据预测肠道病毒浓度的可能性。