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Nitrate accumulation in aerobic hypolimnia: relative importance of benthic and planktonic nitrifiers in an oligotrophic lake.

机构信息

Freshwater Section, Ecology Division, Department of Scientific and Industrial Research, Taupo, New Zealand.

出版信息

Appl Environ Microbiol. 1981 Oct;42(4):565-73. doi: 10.1128/aem.42.4.565-573.1981.

DOI:10.1128/aem.42.4.565-573.1981
PMID:16345852
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC244062/
Abstract

Both nitrate and nitrous oxide accumulate in the hypolimnion of the oligotrophic Lake Taupo, New Zealand, throughout stratification. The two forms of oxidized nitrogen increase in concentration with increasing depth toward the sediments, where the dissolved concentrations of reduced nitrogen are two orders of magnitude higher than concentrations in the overlying water. Nitrification rates were measured by dark [C]CO(2) assays with and without the inhibitor nitrapyrin. The fastest rates were recorded for planktonic nitrifiers in the epilimnion and benthic species in the surficial 2.5 mm of the sediments. Nitrifying bacteria were least active in the deep hypolimnion. Deepwater accumulation of NO(3) in Lake Taupo must therefore be a product of benthic rather than planktonic nitrification.

摘要

在贫营养化的新西兰陶波湖分层期间,硝酸盐和一氧化二氮都在湖底缺氧层中积累。这两种形式的氧化氮随着向沉积物的深度增加而增加,其中还原氮的溶解浓度比上覆水的浓度高两个数量级。硝化速率通过暗 [C]CO(2) 测定法进行测量,其中包括和不包括抑制剂硝吡咯。最快的记录速率是在表水层中的浮游硝化菌和沉积物表面 2.5 毫米处的底栖物种中记录的。深水区的硝化细菌活性最低。因此,陶波湖深水层中 NO(3)的积累一定是底栖而非浮游硝化作用的产物。

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