农业有机废弃物固态加速发酵的微生物学评价

N. Fomicheva, G. Rabinovich, E. Prutenskaya, Yu. D. Smirnova
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引用次数: 1

摘要

畜禽废弃物如果得到有效管理,可以成为生产有机肥的原料。来自全俄开垦土地研究所的研究人员,该研究所是联邦研究中心的分支机构Dokuchaev Soil Science Institute的研究人员提出了一种加速牛粪与泥炭固相发酵的方案:在37°C下发酵48 h,然后在60°C下发酵48 h,在37°C下发酵24 h,最后将发酵物自然冷却。提出的加速发酵的一个显著特征是维持设定点温度。本工作的目的是对加速固相发酵过程进行微生物学评价。实验在1.75 dm3的实验室发酵罐中进行。在发酵过程中,我们使用极限稀释法研究了利用有机氮和无机氮形态的微生物数量,并使用质谱法研究了物种隶属度。实验结果表明,主要发酵步骤的温度制度产生了最多的嗜温和嗜热的氮转化微生物。它们的活跃生长引起了发酵混合物的强烈转化,这可以从中温和嗜热的矿化系数中得到证明。在过程结束时,使用线性矿化系数来评估发酵产物转化和稳定的完成情况。发酵产物含有大量的转化氮微生物(平均干重为3.5±0.3•108 COE/g)。对发酵物和最终产品中微生物群种类的测定证实,工艺温度制度确保消除了原始混合物中存在的卫生指示微生物(大肠杆菌、柠檬酸杆菌、变形杆菌)。此外,在巴氏灭菌过程中,这种方式导致非致病性芽孢杆菌(巨型芽孢杆菌、枯草芽孢杆菌、地衣芽孢杆菌、矮芽孢杆菌和高原芽孢杆菌)的活跃发展。根据微生物学评价,推荐发酵产物作为环境安全的有机肥料使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microbiologic assessment of accelerated solid-state fermentation of agricultural organic wastes
Livestock and poultry wastes, when effectively managed, become feedstock for organic fertiliser production. Researchers from the All-Russian Research Institute of Reclaimed Lands, the branch of Federal Research Center “V.V. Dokuchaev Soil Science Institute”, proposed an accelerated regimen of cattle manure solid-phase fermentation with peat: 48 h at 37 °C, then 48 h at 60 °C and 24 h at 37 °C, terminating with nat-ural cooling of the fermented mass. A distinctive feature of the proposed accelerated fermentation is maintenance of set-point temperatures. The aim of the work is to perform a microbiological evaluation of the process of accelerated solid-phase fermentation. An experiment was carried out in a 1.75 dm3 laboratory fermenter. During the fermentation, we studied the number of microorganisms, which use organic and mineral nitrogen forms, using the limiting dilution method, as well as the species membership by mass spectrometry. The experimental findings showed that the temperature regime of the main fermentation steps yielded the maximum number of mesophilic and thermophilic nitrogen-transforming microorganisms. Their active growth caused the intensive transformation of the fermented mixture, as evidenced by mesophilic and thermophilic mineralisation coefficients. At the end of the process, the linear mineralisation coefficients were used to assess the completion of the fermentation product transformation and stabilisation. The fermentation product comprised a high number of nitrogen-transforming microorganisms (on average, 3.5±0.3•108 COE/g on a dry weight basis). The determination of the microbiota species membership in the fermented mass and the final product confirmed that the process temperature regime ensured the elimination of the sanitary-indicatory microorganisms present in the original mixture (E. coli, Citrobacter, Proteus). In addition, during pasteurisation, this regime led to the active development of non-pathogenic Bacillus bacteria (B. megaterium, B. subtilis, B. licheniformic, B. pumilus and B. altitudinis). The fermentation product is recommended for use as an environmentally safe organic fertiliser based on the microbiological evaluation.
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