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Improving methane production in cow dung and corn straw co-fermentation systems via enhanced degradation of cellulose by cabbage addition

机译：通过添加白菜来增强纤维素的降解从而提高牛粪和玉米秸秆共发酵系统中的甲烷产量

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The effects of cabbage waste (CW) addition on methane production in cow dung and corn straw co-fermentation systems were investigated. Four experimental groups, each containing 55 g of substrate, were set up as follows: 100% cow dung (C); 36% cabbage and 64% cow dung (CC); 36% straw and 64% cow dung (SC); and 18% cabbage, 18% straw, and 64% cow dung (CSC). After seven days of fermentation, the maximum methane yield was 134 mL in the CSC group, which was 2.81-fold, 1.78-fold, and 1340-fold higher than that obtained in the CC, SC, and C groups, respectively. CW treatment of the CSC group enhanced cellulase activity and enriched culturable cellulose-degrading bacterial strains. Miseq sequencing data revealed that the predominant phylum in the CSC group was Bacteroidetes, which contains most of the cellulose-degrading bacteria. Our results suggested that CW treatment elevated cellulose degradation and promoted methane production.

机译：研究了卷心菜废料（CW）添加对牛粪和玉米秸秆共发酵系统中甲烷产生的影响。如下建立四个实验组，每个实验组包含55μg的底物：100％牛粪（C）; 36％的白菜和64％的牛粪（CC）; 36％的稻草和64％的牛粪（SC）;和18％的白菜，18％的稻草和64％的牛粪（CSC）。发酵7天后，CSC组的最大甲烷产量为134 mL，比CC，SC和C组分别高2.81倍，1.78倍和1340倍。 CC组的连续波处理可增强纤维素酶活性，并富集可培养的可降解纤维素的细菌菌株。 Miseq测序数据显示，CSC组中主要的门生细菌是拟杆菌，其中含有大多数降解纤维素的细菌。我们的结果表明，连续波处理提高了纤维素的降解并促进了甲烷的产生。

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期刊名称 Scientific Reports
作者
Wenyang Wu; Yong Chen; Shah Faisal; Aman Khan; Zhengjun Chen; Zhenmin Ling; Pu Liu; Xiangkai Li;
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年(卷),期 -1(6),-1
年度 -1
页码 33628
总页数 8
原文格式 PDF
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1. Improving methane production in cow dung and corn straw co-fermentation systems via enhanced degradation of cellulose by cabbage addition [J] . Wenyang Wu, Yong Chen, Shah Faisal, Scientific reports. . 2016,第4期

机译：通过Cabbanc加重改善纤维素的降解改善牛粪和玉米秸秆共发酵系统中的甲烷生产
2. Kinetics of Methane Production from the Co-Digestion of Cow Dung, Pig Manure and Corn Straw [J] . Li Yameng, Jing Yanyan, Zhang Zhiping, Journal of Biobased Materials and Bioenergy . 2020,第1期

机译：牛粪，猪粪和玉米秸秆共消化的甲烷生产动力学
3. Study on improving anaerobic co-digestion of cow manure and corn straw by fruit and vegetable waste: Methane production and microbial community in CSTR process [J] . Wang Xuemei, Li Zifu, Bai Xue, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2018,第期

机译：水果蔬菜废弃物改善牛粪和玉米秸秆的厌氧共消化：CSTR过程中的甲烷生产和微生物群落
4. Experimental Study on Dry Mesophilic Co-Fermentation of Chicken Manure and Corn Straw for Biogas Production [C] . Tingting Wang, Zifu L, Xiaofeng Bai, Proceedings of the 7th international conference on environmental anaerobic technologies and bioenergy . 2011

机译：鸡粪和玉米秸秆干嗜温发酵发酵生产沼气的实验研究
5. Evaluation of the All Heifer, No Cow Beef Production System to Improve Beef Production Efficiency [D] . Harrison, Meredith. 2019

机译：评价全部的小母牛，没有牛牛肉生产系统，提高牛肉生产效率
6. Biological pretreatment of corn straw for enhancing degradation efficiency and biogas production [O] . Panpan Li, Chao He, Gang Li, 2020

机译：玉米秸秆的生物预处理提高降解效率和沼气生产
7. Improving methane production in cow dung and corn straw co-fermentation systems via enhanced degradation of cellulose by cabbage addition [O] . Wenyang Wu, Yong Chen, Shah Faisal, 2016

机译：通过Cabbanc加重改善纤维素的降解改善牛粪和玉米秸秆共发酵系统中的甲烷生产

Improving methane production in cow dung and corn straw co-fermentation systems via enhanced degradation of cellulose by cabbage addition

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