15N tracers and microbial analyses reveal in situ N2O sources in contrasting water regimes of a drained peatland forest

IF 5.2 2区 农林科学 Q1 SOIL SCIENCE Pedosphere Pub Date : 2024-08-01 DOI:10.1016/j.pedsph.2023.06.006
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Abstract

Managed peatlands are a significant source of nitrous oxide (N2O), a powerful greenhouse gas and stratospheric ozone depleter. Due to the complexity and diversity of microbial N2O processes, different methods such as tracer, isotopomer, and microbiological technologies are required to understand these processes. The combined application of different methods helps to precisely estimate these processes, which is crucial for the future management of drained peatlands, and to mitigate soil degradation and negative atmospheric impact. In this study, we investigated N2O sources by combining tracer, isotopomer, and microbial analysis in a drained peatland forest under flooded and drained treatments. On average, the nitrification genes showed higher abundances in the drained treatment, and the denitrification genes showed higher abundances in the flooded treatment. This is consistent with the underlying chemistry, as nitrification requires oxygen while denitrification is anaerobic. We observed significant differences in labelled N2O fluxes between the drained and flooded treatments. The emissions of N2O from the flooded treatment were nearly negligible, whereas the N2O evolved from the nitrogen-15 (15N)-labelled ammonium (15NH4+) in the drained treatment peaked at 147 μg 15N m-2 h-1. This initially suggested nitrification as the driving mechanism behind N2O fluxes in drained peatlands, but based on the genetic data, isotopic analysis, and N2O mass enrichment, we conclude that hybrid N2O formation involving ammonia oxidation was the main source of N2O emissions in the drained treatment. Based on the 15N-labelled nitrate (15NO3-) tracer addition and gene copy numbers, the low N2O emissions in the flooded treatment came possibly from complete denitrification producing inert dinitrogen. At atomic level, we observed selective enrichment of mass 45 of N2O molecule under 15NH4+ amendment in the drained treatment and enrichment of both masses 45 and 46 under 15NO3- amendment in the flooded treatment. The selective enrichment of mass 45 in the drained treatment indicated the presence of hybrid N2O formation, which was also supported by the high abundances of archaeal genes.

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15N示踪剂和微生物分析揭示了排水泥炭地森林对比水情下的原位N2O来源
受管理的泥炭地是一氧化二氮(N2O)的重要来源,而一氧化二氮是一种强大的温室气体和平流层臭氧消耗剂。由于微生物氧化亚氮过程的复杂性和多样性,需要采用不同的方法(如示踪剂、同位素和微生物技术)来了解这些过程。不同方法的综合应用有助于精确估算这些过程,这对未来排水泥炭地的管理以及缓解土壤退化和对大气的负面影响至关重要。在这项研究中,我们通过结合示踪剂、同位素和微生物分析,对淹水和排水处理下的排水泥炭地森林中的一氧化二氮来源进行了调查。平均而言,排水处理的硝化基因丰度较高,而淹水处理的反硝化基因丰度较高。这与基本的化学原理是一致的,因为硝化需要氧气,而反硝化是厌氧的。我们观察到,在排水处理和淹水处理之间,标记的一氧化二氮通量存在明显差异。淹水处理的一氧化二氮排放量几乎可以忽略不计,而排水处理中由氮-15(15N)标记的铵(15NH4+)演化出的一氧化二氮达到了 147 μg 15N m-2 h-1 的峰值。这最初表明硝化作用是排水泥炭地中一氧化二氮通量背后的驱动机制,但根据遗传数据、同位素分析和一氧化二氮质量富集,我们得出结论,涉及氨氧化的混合一氧化二氮形成是排水处理中一氧化二氮排放的主要来源。根据 15N 标记的硝酸盐(15NO3-)示踪剂添加量和基因拷贝数,淹没处理中较低的 N2O 排放量可能来自产生惰性二氮的完全反硝化作用。在原子水平上,我们观察到在排水处理中添加 15NH4+ 时,N2O 分子的质量 45 有选择性富集,而在淹水处理中添加 15NO3- 时,质量 45 和 46 都富集。在排水处理中,质量 45 的选择性富集表明存在混合 N2O 的形成,这也得到了高丰度古菌基因的支持。
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来源期刊
Pedosphere
Pedosphere 环境科学-土壤科学
CiteScore
11.70
自引率
1.80%
发文量
147
审稿时长
5.0 months
期刊介绍: PEDOSPHERE—a peer-reviewed international journal published bimonthly in English—welcomes submissions from scientists around the world under a broad scope of topics relevant to timely, high quality original research findings, especially up-to-date achievements and advances in the entire field of soil science studies dealing with environmental science, ecology, agriculture, bioscience, geoscience, forestry, etc. It publishes mainly original research articles as well as some reviews, mini reviews, short communications and special issues.
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