Tyndall R L, Ironside K S, Metler P L, Tan E L, Hazen T C, Fliermans C B
Zoology Department, University of Tennessee, Knoxville 37796-0816.
Appl Environ Microbiol. 1989 Mar;55(3):722-32. doi: 10.1128/aem.55.3.722-732.1989.
Pathogenic Naegleria fowleri is the causative agent of fatal human amoebic meningoencephalitis. The protozoan is ubiquitous in nature, and its presence is enhanced by thermal additions. In this investigation, water and sediments from a newly created cooling lake were quantitatively analyzed for the presence of thermophilic amoebae, thermophilic Naegleria spp., and the pathogen Naegleria fowleri. During periods of thermal additions, the concentrations of thermophilic amoebae and thermophilic Naegleria spp. increased as much as 5 orders of magnitude, and the concentration of the pathogen N. fowleri increased as much as 2 orders of magnitude. Concentrations of amoebae returned to prior thermal perturbation levels within 30 to 60 days after cessation of thermal additions. Increases in the thermophilic amoeba concentrations were noted in Savannah River oxbows downriver from the Savannah River plant discharge streams as compared with oxbows upriver from the discharges. Concentrations of thermophilic amoebae and thermophilic Naegleria spp. correlated significantly with temperature and conductivity. Air samples taken proximal to the lake during periods of thermal addition showed no evidence of thermophilic Naegleria spp. Isoenzyme patterns of the N. fowleri isolated from the cooling lake were identical to patterns of N. fowleri isolated from other sites in the United States and Belgium.
致病性福氏耐格里阿米巴是人类致命性阿米巴脑膜脑炎的病原体。这种原生动物在自然界中普遍存在,热添加会增加其数量。在本研究中,对一个新形成的冷却湖的水和沉积物进行了定量分析,以检测嗜热阿米巴、嗜热耐格里属物种以及病原体福氏耐格里阿米巴的存在情况。在热添加期间,嗜热阿米巴和嗜热耐格里属物种的浓度增加了多达5个数量级,病原体福氏耐格里阿米巴的浓度增加了多达2个数量级。热添加停止后30至60天内,阿米巴的浓度恢复到之前热扰动水平。与排放口上游的河湾相比,在萨凡纳河工厂排放溪流下游的萨凡纳河河湾中,嗜热阿米巴的浓度有所增加。嗜热阿米巴和嗜热耐格里属物种的浓度与温度和电导率显著相关。在热添加期间,在靠近湖泊的地方采集的空气样本中没有发现嗜热耐格里属物种的迹象。从冷却湖分离出的福氏耐格里阿米巴的同工酶模式与从美国和比利时其他地点分离出的福氏耐格里阿米巴的模式相同。