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氮和淹水对小麦根际反硝化菌基因丰度、群落结构和活性的影响。

Effect of nitrogen and waterlogging on denitrifier gene abundance, community structure and activity in the rhizosphere of wheat.

机构信息

Bio-Protection Research Centre, Lincoln University, Lincoln, Christchurch, New Zealand.

出版信息

FEMS Microbiol Ecol. 2013 Mar;83(3):568-84. doi: 10.1111/1574-6941.12015. Epub 2012 Oct 17.

Abstract

Microbial denitrification plays a key role in determining the availability of soil nitrogen (N) to plants. However, factors influencing the structure and function of denitrifier communities in the rhizosphere remain unclear. Waterlogging can result in root anoxia and increased denitrification, leading to significant N loss from soil and potential nitrous oxide (N(2)O) emissions. This study investigated denitrifier gene abundance, community structure and activity in the rhizosphere of wheat in response to anoxia and N limitation. Denitrifier community structure in the rhizosphere differed from that in bulk soil, and denitrifier gene copy numbers (nirS, nirK, nosZ) and potential denitrification activity were greater in the rhizosphere. Anoxia and N limitation, and in particular a combination of both, reduced the magnitude of this effect on gene abundance (in particular nirS) and activity, with N limitation having greater impact than waterlogging in rhizosphere soil, in contrast to bulk soil where the impact of waterlogging was greater. Increased N supply to anoxic plants improved plant health and increased rhizosphere soil pH, which resulted in enhanced reduction of N(2)O. Both anoxia and N limitation significantly influenced the structure and function of denitrifier communities in the rhizosphere, with reduced root-derived carbon postulated to play an important role.

摘要

微生物反硝化作用在决定土壤氮(N)可被植物利用方面起着关键作用。然而,影响根际反硝化菌群落结构和功能的因素仍不清楚。水涝会导致根部缺氧和反硝化作用增加,从而导致土壤中大量的 N 损失和潜在的氧化亚氮(N(2)O)排放。本研究调查了根际小麦对缺氧和 N 限制的反硝化菌基因丰度、群落结构和活性的响应。根际的反硝化菌群落结构与体相土壤不同,根际的反硝化菌基因拷贝数(nirS、nirK、nosZ)和潜在反硝化活性更高。缺氧和 N 限制,特别是两者的组合,降低了这种对基因丰度(特别是 nirS)和活性的影响,与根际土壤相比,N 限制的影响大于水涝,而在体相土壤中,水涝的影响更大。向缺氧植物提供更多的 N 可以改善植物健康并增加根际土壤 pH 值,从而增强对 N(2)O 的还原。缺氧和 N 限制都显著影响了根际反硝化菌群落的结构和功能,据推测,减少的根源性碳可能发挥了重要作用。

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