Divergent responses of plant lignin and microbial necromass to the contribution of soil organic carbon under organic and chemical fertilization
文献类型: 外文期刊
作者: Chang, Xingping 1 ; Pei, Zhanjiang 2 ; Wang, Xiaofei 3 ; Wang, Hao 1 ; Mu, Jie 1 ; Ma, Yingjun 1 ; Zhang, Mingye 1 ; Zhang, Keqiang 1 ; Du, Lianzhu 1 ;
作者机构: 1.Minist Agr & Rural Affairs, Agroenvironm Protect Inst, Tianjin, Peoples R China
2.Heilongjiang Acad Agr Sci, Heilongjiang Acad Black Soil Conservat & Utilizat, Harbin, Peoples R China
3.Henan Acad Agr Sci, Inst Plant Nutr Agr Resources & Environm Sci, Zhengzhou, Peoples R China
4.Minist Agr & Rural Affairs, Key Lab Low carbon Green Agr North China, Beijing, Peoples R China
关键词: soil organic carbon; plant-derived carbon; microbial-derived carbon; microbial CAZyme families; cattle slurry
期刊名称:FRONTIERS IN MICROBIOLOGY ( 影响因子:4.5; 五年影响因子:5.2 )
ISSN:
年卷期: 2025 年 16 卷
页码:
收录情况: SCI
摘要: Introduction Long-term fertilization strongly influences the formation, turnover and stabilization of soil organic carbon (SOC) in croplands. The underlying mechanism by which chemical fertilizer (CF) and cattle slurry (CS) application influence the dynamics of plant- and microbial-derived carbon (C) remains elusive.Methods Lignin phenols and amino sugars as well as microbial carbohydrate-active enzymes (CAZymes) were analyzed in a 10-year field experiment.Results CF and CS increased the content of SOC by 26.9% and 88.0% compared with the SOC content of an abandoned land, respectively. CS application increased lignin phenols content by 4.28 times compared with CF application owing to slower oxidative degradation and higher plant inputs. Microbial necromass C (MNC) contents increased by 34.7% in line with an increase in biomass, but its proportion to SOC did not change. In terms of microbial community, the application of CF and CS altered the distribution and structure of microbial community. The dominant bacterial phyla shifted from oligotrophic Actinomycetota to eutrophic Pseudomonadota with change in the application from CF to CS. CS application increased CAZyme genes associated with plant- and bacterial-derived fractions decomposition, suggesting higher degradation potential of plant and bacterial biomass by microorganisms. Availability of substrates and microbial community are important factors affecting SOC accumulation in different fertilization treatments.Discussion CS application considerably promoted the accumulation of SOC, mainly via the promotion of plant-derived C. Alterations in microbial communities and CAZyme genes could affect microbial metabolism via "microbial carbon pump", thereby facilitating SOC formation and accumulation.
- 相关文献
作者其他论文 更多>>
-
Performance prediction and operating conditions optimization for aerobic fermentation heat recovery system based on machine learning
作者:He, Wei;Cao, Yongna;Yu, Yanling;He, Wei;Cao, Yongna;Yu, Yanling;Qin, Jiang;Guo, Chao;Pei, Zhanjiang
关键词:Aerobic fermentation heat; Heat recovery; Machine learning; Performance prediction model; Operating conditions optimization
-
The Prediction of Clinical Mastitis in Dairy Cows Based on Milk Yield, Rumination Time, and Milk Electrical Conductivity Using Machine Learning Algorithms
作者:Tian, Hong;Zhou, Xiaojing;Zhou, Xiaojing;Zhao, Zixuan;Wang, Hao;Xu, Chuang;Deng, Zhaoju;Xu, Wei
关键词:cow; mastitis; prediction; rumination; electrical conductivity of milk; machine learning
-
Telomere-to-telomere genome of the allotetraploid legume Sesbania cannabina reveals transposon-driven subgenome divergence and mechanisms of alkaline stress tolerance
作者:Luo, Haofei;Wang, Xiaofei;You, Changqing;Wu, Xuedan;Li, Tong;He, Kaixuan;Ye, Qingtong;Zhao, Qinghua;Deng, Xian;Cao, Xiaofeng;Song, Xianwei;Huang, Gai;Luo, Haofei;Wang, Xiaofei;You, Changqing;Wu, Xuedan;Li, Tong;He, Kaixuan;Ye, Qingtong;Zhao, Qinghua;Deng, Xian;Cao, Xiaofeng;Song, Xianwei;Huang, Gai;Wang, Xiaofei;Lv, Zhiyao;He, Kaixuan;Jia, Yajun;You, Changqing;Ye, Qingtong;Cao, Xiaofeng;Pan, Duofeng;Zhang, Dongmei;Shen, Zhongbao;Zhang, Xiaodong;Zhang, Xiaodong;Zhang, Xiaodong;Liu, Guodao
关键词:Sesbania cannabina; alkaline stress; telomere-to-telomere genome; legume; green manure; phosphate transporter; allotetraploid
-
Genome evolution and initial breeding of the Triticeae grass Leymus chinensis dominating the Eurasian Steppe
作者:Li, Tong;Tang, Shanjie;Zhang, Shuaibin;Lin, Zhelong;Sun, Jing;Wang, Xiaofei;Zhao, Mengjie;You, Changqing;Luo, Haofei;Wang, Meijia;Song, Xianwei;Huang, Gai;Cao, Xiaofeng;Li, Tong;Tang, Shanjie;Zhang, Shuaibin;Lin, Zhelong;Sun, Jing;Wang, Xiaofei;Zhao, Mengjie;You, Changqing;Luo, Haofei;Wang, Meijia;Song, Xianwei;Huang, Gai;Cao, Xiaofeng;Li, Wei;Du, Huilong;Wang, Jianli;Pan, Duofeng;Shen, Zhongbao;Ma, Xuan;Chang, Yanan;Ye, Xingguo;Liu, Bo;Zhai, Jixian;Song, Xianwei;Cao, Xiaofeng
关键词:Leymus chinensis; forage crop; genome evolution; LTR retrotransposons; genetic breeding
-
Prediction of health disorders in dairy cows monitored with collar based on Binary logistic analysis
作者:Zhou, Xiaojing;Zhou, Xiaojing;Xu, Chuang;Zhao, Zixuan;Chen, Mengxing;Wang, Hao;Jia, Bin
关键词:disorders; binary logistic regression; prediction; rumination; activity; milk yield
-
Simulation of anaerobic co-digestion of steam explosion pulping wastewater with cattle manure: Focusing on degradation and inhibition of furfural
作者:Li, Pengfei;Liu, Di;Liu, Jie;Li, Pengfei;Liu, Jie;Pei, Zhanjiang;Shi, Fengmei;Wang, Su;Zuo, Xin;Li, Dan;Yu, Hongjiu;Zhang, Nan;Yu, Qiuyue;Luo, Yifei;Wei, Xinyu;Wang, Ming
关键词:Anaerobic digestion; Furfural inhibition; Cross-validation; Model recalibration
-
Process optimization and feature analysis of an anaerobic fermentation microbial community in a cold region
作者:Lu, Binyu;Liu, Jie;Lu, Binyu;Jia, Meiyu;Pei, Zhanjiang;Shi, Fengmei;Gao, Yabing;Liu, Jie
关键词:Anaerobic digestion; methane; process optimization; microbial community; microbial diversity; biofuels
