火鸡粪便厌氧消化过程中添加两种接种物(同源接种物和商业接种物)所产生的微生物的元分类特征。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Janaina Iltchenco, Mariana Dalsoto Smiderle, Juliano Gaio, Flaviane Eva Magrini, Suelen Paesi
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引用次数: 0

摘要

火鸡粪便是一种木质纤维素废物,可通过厌氧消化(AD)作为一种能源持续利用。16S 核糖体 RNA 技术有助于揭示微生物的多样性和主要代谢途径。实验在 600 毫升、容积为 400 毫升的玻璃瓶中进行,温度为 37 °C,时间为 60 天。该研究评估了不同浓度火鸡粪便(T)的理化参数、微生物群组成和功能推断,使用了两种接种物:颗粒接种物(S)和商业接种物(B)。在含有 25.5 g VS-L-1 火鸡粪便并添加两种接种物(T3BS)的试验中,观察到最高的累积甲烷产量(633 mL CH4-L-1)。在不添加接种物(T3)和添加商业接种物(T3B)的试验中,酸累积,甲烷产量分别为 239 mL CH4-L-1 和 389 mL CH4-L-1。鉴定出的主要门类是类杆菌科、真菌科和放线菌科。古菌甲烷杆菌、甲烷拟杆菌和甲烷菌的存在突显了 T3BS 的养氢代谢途径。功能预测显示,在火鸡粪便生物消化过程中,有三种代谢途径涉及到酶:乙酸营养型、氢营养型和甲基营养型甲烷生成。通过分析甲烷产量较高的 T3S 和 T3BS 样品的微生物群、参与该特定途径的古细菌、参与的基因和相对酸消耗量,可以观察到主要的富氢途径。分子工具有助于了解火鸡粪便厌氧消化所涉及的主要微生物群和代谢途径,如使用不同的接种菌,从而为火鸡粪便的可持续处理制定策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Metataxonomic characterization of the microbial present in the anaerobic digestion of turkey litter waste with the addition of two inocula: allochthonous and commercial.

Metataxonomic characterization of the microbial present in the anaerobic digestion of turkey litter waste with the addition of two inocula: allochthonous and commercial.

Turkey litter waste is lignocellulosic waste that can be sustainably used as an energy source through anaerobic digestion (AD). The 16S ribosomal RNA technique helps to unravel microbial diversity and predominant metabolic pathways. The assays were performed in 600-mL-glass bottles with 400 mL volume, for 60 days at 37 °C. The study evaluated the physicochemical parameters, the composition of the microbiota, and the functional inference in AD of different concentrations of turkey litter (T) using two inocula: granular inoculum (S) and commercial inoculum (B). The highest accumulated methane production (633 mL CH4·L-1) was observed in the test containing 25.5 g VS·L-1 of turkey litter with the addition of the two inocula (T3BS). In tests without inoculum (T3) and with commercial inoculum (T3B), there was an accumulation of acids and consequent inhibition of methane production 239 mL CH4·L-1 and 389 mL CH4·L-1, respectively. Bacteroidota, Firmicutes, and Actinobacteria were the main phyla identified. The presence of archaea Methanobacterium, Methanocorpusculum, and Methanolinea highlighted the hydrogenotrophic metabolic pathway in T3BS. Functional prediction showed enzymes involved in three metabolic pathways in turkey litter biodigestion: acetotrophic, hydrogenotrophic, and methylotrophic methanogenesis. The predominant hydrogenotrophic pathway can be observed by analyzing the microbiota, archaea involved in this specific pathway, genes involved, and relative acid consumption for T3S and T3BS samples with higher methane production. Molecular tools help to understand the main groups of microorganisms and metabolic pathways involved in turkey litter AD, such as the use of different inocula, allowing the development of strategies for the sustainable disposal of turkey litter.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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