用于计数天然水体中活性异养微生物的14C-最可能数法。
14C-most-probable-number method for enumeration of active heterotrophic microorganisms in natural waters.
作者信息
Lehmicke L G, Williams R T, Crawford R L
出版信息
Appl Environ Microbiol. 1979 Oct;38(4):644-9. doi: 10.1128/aem.38.4.644-649.1979.
Abstract
A most-probable-number method using 14C-labeled substrates is described for the enumeration of aquatic populations of heterotrophic microorganisms. Natural populations of microorganisms are inoculated into dilution replicates prepared from the natural water from which the organisms originated. The natural water is supplemented with a 14C-labeled compound added so as to approximate a true environmental concentration. 14CO2 evolved by individual replicates is trapped in NaOH and counted by liquid scintillation techniques for use in scoring replicates as positive or negative. Positives (14CO2 evolution) are easily distinguished from negatives (no 14CO2 evolution). The results from a variety of environments using the 14CO2 procedure agreed well with previously described methods, in most instances. The 14C-most-probable-number method described here reduces handling procedures over previously described most-probable-number procedures using 14C-labeled substrates. It also appears to have advantages over other enumeration methods in its attempt to approximate natural conditions more closely.
摘要
描述了一种使用14C标记底物的最大可能数法,用于对异养微生物的水生种群进行计数。将微生物的自然种群接种到由其来源的天然水制备的稀释复制品中。向天然水中添加14C标记的化合物,使其接近真实的环境浓度。各个复制品释放的14CO2被捕获在NaOH中,并通过液体闪烁技术进行计数,以将复制品评定为阳性或阴性。阳性(有14CO2释放)很容易与阴性(无14CO2释放)区分开来。在大多数情况下,使用14CO2程序对各种环境得出的结果与先前描述的方法非常吻合。这里描述的14C最大可能数法比先前描述的使用14C标记底物的最大可能数程序减少了处理步骤。在更接近自然条件的尝试中,它似乎也比其他计数方法具有优势。
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