淹水消失和施肥条件下硝化和反硝化细菌基因的一氧化二氮产生及mRNA表达分析

Nitrous oxide production and mRNA expression analysis of nitrifying and denitrifying bacterial genes under floodwater disappearance and fertilizer application.

作者信息

Riya Shohei, Takeuchi Yuki, Zhou Sheng, Terada Akihiko, Hosomi Masaaki

机构信息

Department of Chemical Engineering, Faculty of Engineering, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo, 184-8588, Japan.

Eco-environmental Protection Research Institute, Shanghai Academy of Agricultural Sciences, 1000 Jinqi Road, Shanghai, 201403, China.

出版信息

Environ Sci Pollut Res Int. 2017 Jun;24(18):15852-15859. doi: 10.1007/s11356-017-9231-y. Epub 2017 May 23.

DOI:10.1007/s11356-017-9231-y

PMID:28537019

Abstract

A pulse of nitrous oxide (NO) emission has been observed following the disappearance of floodwater by drainage. However, its mechanism is not well understood. We conducted a column study to clarify the mechanism for NO production during floodwater disappearance by using a microsensor and determining the bacterial gene expression. An increase in NO flux was observed following floodwater disappearance after the addition of NH, with a corresponding increase in the concentrations of NO and dissolved NO in the oxic and anoxic soil layers, respectively. The transcription level of the bacterial amoA mRNA did not change, while that of nirK mRNA increased sharply after an hour of floodwater disappearance. An additional anoxic soil slurry experiment demonstrated that the addition of NO induced the expression of nirK gene and caused a concomitant increase in NO production. These findings suggest that NO production in the oxic layers is important as it provides a substrate and induces the synthesis of denitrification enzymes in the anoxic layer during NO production.

摘要

排水导致洪水消退后，观察到一氧化二氮（NO）排放脉冲。然而，其机制尚不清楚。我们进行了一项柱实验，通过使用微传感器并测定细菌基因表达来阐明洪水消退期间NO产生的机制。添加NH后洪水消退，观察到NO通量增加，同时分别在好氧和缺氧土壤层中NO和溶解态NO浓度相应增加。细菌amoA mRNA的转录水平没有变化，而nirK mRNA的转录水平在洪水消退一小时后急剧增加。另外的缺氧土壤泥浆实验表明，添加NO诱导nirK基因表达并导致NO产生随之增加。这些发现表明，好氧层中NO的产生很重要，因为它提供了一种底物，并在NO产生过程中诱导缺氧层中反硝化酶的合成。

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淹水消失和施肥条件下硝化和反硝化细菌基因的一氧化二氮产生及mRNA表达分析

Nitrous oxide production and mRNA expression analysis of nitrifying and denitrifying bacterial genes under floodwater disappearance and fertilizer application.

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