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长期施肥对黄泥田土壤有机碳化学结构与固碳细菌群落结构的影响

魏圆慧余益辉李子钧丁文杰涂文龙毛艳玲

中国农业科学2026，Vol.59Issue(5)：1020-1033,14.

中国农业科学2026，Vol.59Issue(5)：1020-1033,14.DOI:10.3864/j.issn.0578-1752.2026.05.008

长期施肥对黄泥田土壤有机碳化学结构与固碳细菌群落结构的影响

Effects of Long-Term Fertilization on Soil Organic Carbon Structure and Carbon-Fixing Bacterial Community Structure in Yellow-Mud Paddy Soil

魏圆慧 ¹余益辉 ¹李子钧 ¹丁文杰 ¹涂文龙 ¹毛艳玲²

作者信息

1. 福建农林大学资源与环境学院,福州 350002||土壤生态系统健康与调控福建省高校重点实验室,福州 350002
2. 福建农林大学资源与环境学院,福州 350002||土壤生态系统健康与调控福建省高校重点实验室,福州 350002||自然生物资源保育利用福建省高校工程研究中心,福州 350002
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摘要

Abstract

[Objective]Soil organic carbon(SOC)stability is significantly influenced by the functional group composition and carbon-fixing microorganisms.This study compared the differences in soil organic carbon structure and cbbL bacterial community structure under long-term fertilization regimes,so as to provide an understanding of the carbon sequestration potential and mechanisms of yellow-mud paddy soil.[Method]In this study,the effects of no fertilization(CK),chemical fertilizer(NPK),chemical fertilizer+rice straw returning(NPKS)and chemical fertilizer+organic manure(NPKM)treatments on the characteristics of organic carbon functional groups and the community structure of carbon sequestration bacteria were studied by using 13C nuclear magnetic resonance(NMR)and Fourier transform technology to determine the organic carbon structure and the community structure of carbon-fixing bacteria by high-throughput sequencing technology,respectively.[Result]The co-chemical fertilizer and manure application(NPKS and NPKM)significantly increased the total SOC content in yellow-mud paddy soil,while the SOC content decreased with increasing soil depth.The contents of MOC and POC,as well as the POC/SOC ratio,decreased with soil depth,while the MOC/SOC ratio showed the opposite trend.NPKS and NPKM treatments also increased the content of aliphatic and aromatic carbon compounds,then enhancing the stability and complexity of soil organic carbon,with subsoil organic carbon being more stable than surface soil.Analysis of the α-diversity index of carbon-fixing bacteria in the soil revealed that fertilization significantly increased the diversity index of carbon-fixing bacteria,with the NPKM treatment showing the best results.The dominant bacterial phylum in paddy soil was Proteobacteria,and fertilization increased the relative abundance of this phylum to varying extents.The dominant genera were Sulfuricaulis and Sulfuritortus.In the subsoil,compared with the surface soil,the relative abundance of photoautotrophic microorganisms was reduced,while the relative abundance of chemo lithotrophic microorganisms was increased.[Conclusion]Therefore,combined organic amendments(straw or manure)with chemical fertilizers not only enhanced SOC stability but also increased the diversity and abundance of carbon-fixing bacteria,restructuring their communities.NPKM was the most effective in stabilizing SOC and promoting microbial diversity,highlighting its role in sustainable yellow-mud paddy soil management.

关键词

黄泥田土壤/长期施肥/有机无机肥配施/土壤有机碳结构/固碳细菌

Key words

yellow-mud paddy soil/long-term fertilization/co-chemical fertilizer and manure application/soil organic carbon structure/carbon-fixing bacteria

引用本文复制引用

魏圆慧,余益辉,李子钧,丁文杰,涂文龙,毛艳玲..长期施肥对黄泥田土壤有机碳化学结构与固碳细菌群落结构的影响[J].中国农业科学,2026,59(5):1020-1033,14.

基金项目

福建省财政厅项目(KKY22005XA)、福建农林大学科技创新专项基金项目(KFB24124A) （KKY22005XA）

中国农业科学

ISSN：0578-1752

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