Improvement in soil organic carbon turnover and microbial community niche differentiation with the addition of commercial organic fertilizers in wheat-green manure systems
文献类型: 外文期刊
第一作者: Cheng, Liyang
作者: Cheng, Liyang;He, Hao;Li, Junhua;Min, Tao;Luo, Tong
作者机构:
关键词: Organic substitution; Acid hydrolyzable organic carbon; Solid-state nuclear magnetic resonance; Enzyme activity; Symbiotic network
期刊名称:PLANT AND SOIL ( 影响因子:4.1; 五年影响因子:4.7 )
ISSN: 0032-079X
年卷期: 2025 年
页码:
收录情况: SCI
摘要: Background and aimsGreen manure and commercial organic fertilizers are widely used in agricultural production to improve the carbon reserves in farmland soil; however, their combined impact on soil organic carbon (SOC) turnover remains unclear.MethodsWe designed a potted wheat-soybean green manure system to investigate the impact of different fertilization treatments on the content and structure of SOC, extracellular enzyme activity and microbial community characteristics in post-wheat harvest soil. For this analysis, fertilization treatment was considered as a single factor.ResultsCompared with chemical fertilization (CF), organic fertilization (OF) led to a 12.5% increase in SOC content, 19.3% increase in the highly active organic carbon fraction and 10.2% increase in the recalcitrant organic carbon fraction (ROC). Furthermore, there was a 16.1% increase in the ratio of alkyl C to O-alkyl C and a 63.4% decrease in the ratio of aliphatic C to aromatic C. The contents of extracellular enzymes, soil total nitrogen, alkali-hydrolyzable nitrogen, available phosphorus, available potassium, microbial carbon and microbial nitrogen also significantly increased. The abundance of the observed species of fungi and bacteria significantly decreased with OF compared with CF, with the symbiotic network indicating a higher level of positive interaction between fungi and bacteria with OF.ConclusionOF primarily altered soil enzyme activity by influencing soil nutrient contents, leading to the decomposition of labile organic carbon and an increase in microbial residue biomass, without affecting ROC formation or humification degree. These findings can maximize SOC content in organic agriculture through land-use and fertilization techniques.
分类号:
- 相关文献
作者其他论文 更多>>
-
Molecular mechanism of Yersinia ruckeri Flagellin C (FliC) induced intestinal inflammation in channel catfish ( Ictalurus punctatus)
作者:Yang, Yibin;He, Hao;Ai, Xiaohui;Zhu, Xia;Huang, Yucong;Yin, Fei;Xu, Jingen;Chen, Yuhua
关键词:Channel catfish; Yersinia ruckeri; Virulence; Intestinal inflammation; Molecular mechanism
-
RNA modifications in plant biotic interactions
作者:Ge, Linhao;Pan, Fuan;Jia, Mingxuan;He, Hao;Shan, Hongying;Zhou, Xueping;Li, Fangfang;Pan, Fuan;Zhou, Xueping;Pott, Delphine M.;Wang, Aiming
关键词:RNA modifications; N6-methyladenosine; m6A; m6A core components; plant biotic stress; plant- microbe interactions; plant-insect interactions
-
Soybean stay-green associated geminivirus: A serious threat to soybean production in China
作者:He, Hao;Li, Hao;Zhou, Xueping;Li, Fangfang;He, Hao;Cui, Xiaoyan;Wang, Yaqin;Zhou, Xueping;Xu, Yi
关键词:Soybean; Soybean stay-green associated geminivirus; (SoSGV); Soybean stay-green syndrome; Viral transmission; Viral epidemiology
-
Characteristics and functions of interleukin 21 in channel catfish (Ictalurus punctatus)
作者:He, Hao;He, Hao;Zhu, Xia;Dong, Jing;Yang, Qiuhong;Ai, Xiaohui;Yang, Yibin;Deng, Ping;Huang, Yucong;Wang, Hui
关键词:Channel catfish; IL-21; Immune response; Inflammatory factors; Gene expression
-
Identification and biological characterization of the pathogen responsible for acute haemorrhagic disease in largemouth bass
作者:Yang, Yibin;He, Hao;Yang, Qiuhong;Ai, Xiaohui;Zhu, Xia;Deng, Ping
关键词:Streptococcus iniae; Largemouth bass; Whole genome; Virulence; Drug resistance
-
Spatiotemporal Transcriptomic Profiling Reveals the Dynamic Immunological Landscape of Alveolar Echinococcosis
作者:Ou, Zhihua;Ren, Peidi;He, Fan;Chen, Jialing;Tan, Qiming;Chen, Qi;Zhang, Qian;Ou, Zhihua;Ren, Peidi;He, Fan;Chen, Jialing;Cai, Huimin;Li, Jiandong;Tan, Qiming;Chen, Qi;He, Xiuju;Zhao, Yanping;Zhang, Qian;Liang, Yingan;Li, Junhua;Li, Li;Zhou, Ting-Ting;Wu, Yao-Dong;Li, Xiu-Rong;Li, Wenhui;Zhang, Nian-Zhang;Chen, Wei-Gang;Sun, Jiwen;Wu, Yan-Tao;You, Jie;Tian, Xue-Qi;Fu, Bao-Quan;Cai, Xue-Peng;Jia, Wan-Zhong;Yan, Hong-Bin;Li, Li;Zhou, Ting-Ting;Wu, Yao-Dong;Li, Xiu-Rong;Li, Wenhui;Zhang, Nian-Zhang;Chen, Wei-Gang;Sun, Jiwen;Wu, Yan-Tao;You, Jie;Tian, Xue-Qi;Fu, Bao-Quan;Cai, Xue-Peng;Jia, Wan-Zhong;Yan, Hong-Bin;He, Fan;Chen, Jialing;Chen, Qi;Zhang, Qian;Cai, Huimin;Li, Jiandong;He, Xiuju;Zhao, Yanping;Liao, Sha;Yang, Huanming;Wang, Jian;Jin, Xin;Xu, Xun;Han, Xiumin;Tan, Qiming;Liang, Yingan;Hu, Guohai;Wang, Jian;Chen, Ao;Chen, Ao;Jin, Xin;Jin, Xin;Xu, Xun;Li, Junhua
关键词:
Echinococcus multilocularis ; macrophages; neutrophils; single-cell RNA sequencing; spatial transcriptomics -
Efficiency of metal oxides in reducing heavy metal uptake in typical crops: A machine learning-assisted meta-analysis
作者:Min, Tao;Lu, Tao;Zheng, Shen;Tan, Wenfeng;Qiu, Guohong;Min, Tao;Lu, Tao;Zheng, Shen;Qiu, Guohong;Luo, Tong;Qiu, Guohong
关键词:Heavy metals; Metal oxides; Food security; Meta-analysis; Machine learning
