Dynamics of Bacterial and Fungal Communities and Metabolites During Aerobic Exposure in Whole-Plant Corn Silages With Two Different Moisture Levels
文献类型: 外文期刊
第一作者: Bai, Chunsheng
作者: Bai, Chunsheng;Wang, Chao;Sun, Lin;Na, Na;Yin, Guomei;Liu, Sibo;Xue, Yanlin;Xu, Haiwen;Jiang, Yun
作者机构:
关键词: whole-plant corn silage; microbial communities; metabolites; aerobic stability; fermentation quality; fatty acids; amino acids
期刊名称:FRONTIERS IN MICROBIOLOGY ( 影响因子:5.64; 五年影响因子:6.32 )
ISSN: 1664-302X
年卷期: 2021 年 12 卷
页码:
收录情况: SCI
摘要: The study was aimed to investigate the effect of moisture content on microbial communities, metabolites, fermentation quality, and aerobic stability during aerobic exposure in whole-plant corn silages preserved long time to improve the quality and aerobic stability of the silage during feed-out. Corn plants with two different moisture levels (high-moisture content, 680 g/kg; low-moisture content, 620 g/kg) were harvested at one-third and two-thirds milk-line stages, respectively, ensiled in laboratory-scale silos, and then sampled at 350 day after ensiling and at 2 and 5 day after opening to investigate bacterial and fungal communities, metabolites, and aerobic stability. High-moisture content increased aerobic stability and pH and decreased lactic acid and microbial counts in silages (P < 0.05). During aerobic exposure, the low-moisture silages had higher pH and lactic acid bacterial count and lower lactic acid than the high-moisture silages (P < 0.05); Acinetobacter sp. was the most main bacterial species in the silages; Candida glabrata and unclassified Candida had an increasing abundance and negatively correlation with aerobic stability of high-moisture silages (P < 0.05), while C. glabrata, Candida xylopsoci, unclassified Saccharomycetaceae, and unclassified Saccharomycetales negative correlated with aerobic stability of low-moisture silages (P < 0.05) with a rising Saccharomycetaceae; the silages had a reducing concentration of total metabolites (P < 0.05). Moreover, the high-moisture silages contained greater total metabolites, saturated fatty acids (palmitic and stearic acid), essential fatty acids (linoleic acid), essential amino acids (phenylalanine), and non-essential amino acids (alanine, beta-alanine, and asparagine) than the low-moisture silages at 5 day of opening (P < 0.05). Thus, the high-moisture content improved the aerobic stability. Acinetobacter sp. and Candida sp. dominated the bacterial and fungal communities, respectively; Candida sp. resulted in the aerobic deterioration in high-moisture silages, while the combined activities of Candida sp. and Saccharomycetaceae sp. caused the aerobic deterioration in low-moisture silages. The greater aerobic stability contributed to preserve the palmitic acid, stearic acid, linoleic acid, phenylalanine, alanine, beta-alanine, and asparagine during aerobic exposure.
分类号:
- 相关文献
作者其他论文 更多>>
-
Pristine/magnesium-loaded biochar and ZVI affect rice grain arsenic speciation and cadmium accumulation through different pathways in an alkaline paddy soil
作者:Zhang, Chen;Shi, Dong;Wang, Chao;Hu, Yanxia;Li, Xiaona;Hou, Yanhui;Zheng, Ruilun;Zhang, Chen;Li, Huafen;Sun, Guoxin
关键词:Cadmium (Cd); Arsenic (As) speciation; Co-contamination; Magnesium-loaded biochar; Zero-valent iron (ZVI); Rice
-
Microbes: Drivers of Chenpi manufacturing, biotransformation, and physiological effects
作者:Fu, Yanjiao;Wang, Chao;Liao, Yanfang;Peng, Mingfang;Fu, Fuhua;Li, Gaoyang;Su, Donglin;Shan, Yang;Fu, Yanjiao;Wang, Chao;Liao, Yanfang;Peng, Mingfang;Fu, Fuhua;Li, Gaoyang;Su, Donglin;Guo, Jiajing;Shan, Yang;Fu, Yanjiao;Wang, Chao;Liao, Yanfang;Peng, Mingfang;Fu, Fuhua;Li, Gaoyang;Su, Donglin;Guo, Jiajing;Shan, Yang;Fu, Yanjiao;Wang, Chao;Liao, Yanfang;Peng, Mingfang;Fu, Fuhua;Li, Gaoyang;Su, Donglin;Guo, Jiajing;Shan, Yang;Gao, Zhipeng
关键词:Chenpi; Manufacturing; Biotransformation; Physiological effects; Microbiome; Applications
-
Metabolomics combined with physiology and transcriptomics reveal the regulation of key nitrogen metabolic pathways in alfalfa by foliar spraying with nano-selenium
作者:Sun, Pengbo;Ge, Gentu;Zhao, Muqier;Hao, Junfeng;Wang, Zhijun;Jia, Yushan;Sun, Lin;Bao, Jian;Zhang, Yuhan;Liu, Guoshun
关键词:Nano-selenium; Alfalfa; Nitrogen metabolism; Transcriptome; Metabolome
-
Resource-enhancing global changes shift soil multifunctionality towards faster cycling in arid grasslands
作者:Song, Zhaobin;Zuo, Xiaoan;Wang, Shaokun;Li, Xiangyun;Hu, Ya;Qiao, Jingjuan;Song, Zhaobin;Zuo, Xiaoan;Wang, Shaokun;Li, Xiangyun;Hu, Ya;Qiao, Jingjuan;Song, Zhaobin;Li, Xiangyun;Qiao, Jingjuan;Wang, Chao;Fry, Ellen L.;Sardans, Jordi;Penuelas, Josep;Sardans, Jordi;Penuelas, Josep;Hautier, Yann;Zuo, Xiaoan
关键词:Soil function; Microbial diversity; Grassland; Plant diversity; Global change ecology; Nutrient cycling
-
Epidemiological investigation of goose circovirus based on a newly developed indirect ELISA method
作者:Chen, Jialong;Xue, Wenchang;Yao, Zhanxin;Wang, Chao;Wang, He;Zhang, Jipei;Chen, Jidang;Zhu, Wanjun;Wang, He;Tang, Yi;Liu, Rongchang;Chen, Jidang
关键词:goose circovirus; capsid protein; serological detection methods; prokaryotic expression; indirect ELISA
-
A Comprehensive Review of Diatom-Bacterial Interactions Inferred From Bibliometric Analysis
作者:Hu, Caiqin;Hu, Tiehuan;Gao, Yuan;Liu, Qianfu;Wang, Chao;Hu, Caiqin;Gao, Yuan;Liu, Qianfu;Wang, Chao;Hu, Caiqin;Gao, Yuan;Liu, Qianfu;Wang, Chao;Shi, Zhen;Hu, Tiehuan;Gao, Yuan;Liu, Qianfu;Wang, Chao;Gao, Yuan;Liu, Qianfu;Wang, Chao
关键词:bacteria; bibliometric analysis; diatom; microbial interactions; research foci
-
Oocytes maintain low ROS levels to support the dormancy of primordial follicles
作者:Qin, Shaogang;Chi, Xinyue;Zhu, Zijian;Gao, Meng;Zhao, Ting;Zhang, Jingwen;Zheng, Wenying;Chen, Ziqi;Zhou, Bo;Xia, Guoliang;Wang, Chao;Chen, Chuanhe;Zhang, Tuo;He, Meina;Zhang, Lifan;Wang, Wenji
关键词:ferroptosis; primary ovarian insufficiency; primordial follicle; ROS; SOD1
