用于生物甲烷潜能（BMP）测定标准化的厌氧嗜温微生物接种物的富集和驯化。

Enrichment and acclimation of an anaerobic mesophilic microorganism's inoculum for standardization of BMP assays.

机构信息

Embrapa Suínos e Aves, BR 153 km 110, 89700-000 Concórdia, SC, Brazil.

Universidade do Oeste de Santa Catarina - UNOESC, 89560-000 Videira, SC, Brazil.

出版信息

Bioresour Technol. 2016 Nov;219:21-28. doi: 10.1016/j.biortech.2016.07.031. Epub 2016 Jul 9.

DOI:10.1016/j.biortech.2016.07.031

PMID:27474854

Abstract

Appropriate enrichment of anaerobic microorganism's consortium is crucial for accurate biochemical methane potential (BMP) assays. An alternative method to produce and maintain a mesophilic methanogenic inoculum was demonstrated. Three sources of inoculum were mixed and acclimated for 857days in order to reach steady conditions (pH=7.90±0.46; VS/TS>50%; VFA/alkalinity=0.16±0.04gAcetic Acid/ [Formula: see text] ). Biogas yield >80% was obtained after 70days of inoculum acclimation in comparison to standard cellulose (>600mLN/gVS). Methanogen community analysis based on 16S rDNA of the inoculum revealed Archaea concentration of 3×10(12) gene copies/g (Methanobacteriales 8×10(10); Methanomicrobiales 8×10(10); and Methanosarcinales 4×10(11) gene copies/g). The proposed method for development and maintenance of microorganism enrichment inoculum demonstrates consistent BMP data which is a requirement for dependable prediction of biogas production at field scale operations.

摘要

适当富集厌氧微生物群落对于准确的生物化学甲烷潜能（BMP）测定至关重要。本文展示了一种生产和维持中温产甲烷接种物的替代方法。为了达到稳定状态（pH=7.90±0.46；VS/TS>50%；VFA/碱度=0.16±0.04g 乙酸/[公式]），将三种接种物来源混合并适应 857 天。与标准纤维素（>600mLN/gVS）相比，接种物适应 70 天后获得的沼气产率>80%。基于接种物的 16S rDNA 的甲烷菌群落分析显示，古菌浓度为 3×10(12)基因拷贝/g（甲烷杆菌目 8×10(10)；甲烷微菌目 8×10(10)；和产甲烷八叠球菌目 4×10(11)基因拷贝/g）。该方法用于开发和维持微生物富集接种物，可提供一致的 BMP 数据，这是现场规模操作中可靠预测沼气产量的要求。

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用于生物甲烷潜能（BMP）测定标准化的厌氧嗜温微生物接种物的富集和驯化。

Enrichment and acclimation of an anaerobic mesophilic microorganism's inoculum for standardization of BMP assays.

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