有机改良剂中的碳成分在长达一年的厌氧土壤微观世界中驱动氮代谢。

Carbon components in organic amendments drive nitrogen metabolism in one-year-long anaerobic soil microcosms.

作者信息

Ma Yiming, Wu Qiaoyu, Wang Xinhui, Sui Weikang, Zhang Xiaojun

机构信息

State Key Laboratory of Microbial Metabolism, Joint International Research Laboratory of Metabolic and Developmental Sciences, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, Shanghai, China.

出版信息

Front Microbiol. 2025 Jun 2;16:1588169. doi: 10.3389/fmicb.2025.1588169. eCollection 2025.

DOI:10.3389/fmicb.2025.1588169

PMID:40539111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12177738/

Abstract

INTRODUCTION

Long-term studies on the dynamic changes in nitrogen metabolism and functional microbial communities under anaerobic conditions, particularly those driven by organic amendments, remain scarce.

METHODS

We conducted a year-long anaerobic microcosm experiment using three organic amendments-aerobically fermented pig-manure digestate (ACM), compost (ACP) and straw powder (ACS)-alongside an inorganic fertilizer-only control (ACN).

RESULTS

Temporal shifts revealed that organic amendments drove distinct nitrogen metabolism pathways. Amendments of digestate and compost promoted the proliferation of nitrogen-mineralizing bacteria such as and , leading to significant ammonium accumulation. After 12-month incubation, the ACM treatment caused a 75.6-fold increase in ammonium, a 43.4% rise in total nitrogen (TN), and a 27.0% increase in total organic carbon (TOC). In contrast, the ACS treatment exhibited superior nitrogen fixation, with an average of 1.69-fold higher rate than ACM and 5.30 fold higher than ACP The ACS treatment enriched cellulolytic nitrogen-fixing bacteria, including , and nitrogen-fixing archaea.

DISCUSSION

This study provides profound insights in to the unique nitrogen metabolism pathways influenced by organic amendments under anoxic conditions, ultimately offering valuable insights into improved soil fertility and sustainable nitrogen management practices in agricultural systems.

摘要

引言

关于厌氧条件下氮代谢和功能微生物群落动态变化的长期研究，尤其是那些由有机改良剂驱动的研究，仍然很少。

方法

我们进行了一项为期一年的厌氧微观实验，使用了三种有机改良剂——好氧发酵猪粪沼渣（ACM）、堆肥（ACP）和秸秆粉（ACS）——以及仅使用无机肥料的对照（ACN）。

结果

时间变化表明，有机改良剂驱动了不同的氮代谢途径。沼渣和堆肥的改良促进了诸如和等氮矿化细菌的增殖，导致铵显著积累。经过12个月的培养，ACM处理使铵增加了75.6倍，总氮（TN）增加了43.4%，总有机碳（TOC）增加了27.0%。相比之下，ACS处理表现出优异的固氮能力，平均速率比ACM高1.69倍，比ACP高5.30倍。ACS处理富集了包括和在内的纤维素分解固氮细菌以及固氮古菌。

讨论

本研究深入洞察了缺氧条件下有机改良剂影响的独特氮代谢途径，最终为改善农业系统土壤肥力和可持续氮管理实践提供了有价值的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c887/12177738/0d67a266b8a1/fmicb-16-1588169-g001.jpg

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有机改良剂中的碳成分在长达一年的厌氧土壤微观世界中驱动氮代谢。

Carbon components in organic amendments drive nitrogen metabolism in one-year-long anaerobic soil microcosms.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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