学生食堂餐厨垃圾中淀粉的生物利用菌株筛选

目的探索地衣芽胞杆菌、枯草芽胞杆菌和蜡样芽胞杆菌分解大学生食堂厨余中淀粉的能力,以筛选和研制餐厨垃圾生物降解的使用菌种。方法将各菌种接于淀粉酶试验培养基,培养后滴加碘溶液,观察透明圈,判定产淀粉酶能力;收集大学生食堂的厨余,观察三种细菌在不同接种量（5%、10%、15%、20%、25%）、不同接种时间（24 h、48 h、72 h）及不同菌株配伍方式下发酵淀粉的能力。结果地衣芽胞杆菌、枯草芽胞杆菌、蜡样芽胞杆菌都能产生淀粉酶,以地衣芽胞杆菌产生的淀粉酶较多,其次为枯草芽胞杆菌,蜡样芽胞杆菌较少,三种细菌分解厨余中淀粉的最佳接种量都为15%-20%,最佳发酵时间为48 h,枯草芽胞杆菌和地衣芽胞杆菌各7.5%的接种量混合配伍发酵效果最佳。结论可采用枯草芽胞杆菌和地衣芽胞杆菌各7.5%的接种量混合配伍发酵学生食堂的厨余中的淀粉。     

巴氏杀菌对餐厨垃圾高温厌氧发酵的影响

通过对杀菌、未杀菌餐厨垃圾高温发酵对比试验的研究分析,阐述了餐厨垃圾杀菌处理对发酵的影响。杀菌方式为巴氏消毒法,温度70℃,持续时间10 min,接种物为德青源实验室自行培养的高温发酵菌,底物为餐厨垃圾,有机负荷5 gVS/L,污泥负荷(F/M)为0.5,试验持续32 d,结果显示:杀菌组累计产气量895 mL/gVS,未杀菌组累计产气量795 mL/gVS;杀菌样品产气速率高于未杀菌样品,其VS去除率略低于未杀菌样品。     

餐厨垃圾高温菌种对斑马鱼急性毒性与安全评价

目的:研究餐厨垃圾高温菌种对斑马鱼的毒性,为其安全使用提供依据。方法:以具有代表性的水生动物斑马鱼为试材,采用静态法测定餐厨垃圾高温菌种对斑马鱼急性毒性并对其进行安全评价。结果:鱼的半数致死浓度LC50值24、48和96h分别为3400mg/L、3000mg/L和2500mg/L。结论:餐厨垃圾高温菌种对斑马鱼有一定毒性,该研究为餐厨垃圾高温菌种的安全合理使用提供了科学依据。     

外接堆肥微生物在餐厨废弃物好氧堆肥中的应用

微生物是堆肥过程的主要驱动力,其群落在堆肥过程中不断演替,进而影响好氧发酵进程和堆肥的品质。大量研究表明：接种外源微生物可促进堆肥进程,加快有机物分解和堆肥腐熟,消解抗生素等有害物质等作用。餐厨废弃物油脂、盐、水含量高和易酸化等问题会影响好氧发酵过程中微生物的活动。通过特定样品的富集驯化、选择性培养,并结合先进的分子生物学技术,筛选具有不同降解功能的菌株,并以此为基础构建的微生物菌剂能够一定程度上克服餐厨废弃物用于好氧堆肥的限制性问题。主要阐述了餐厨废弃物好氧发酵过程中微生物菌群的演替规律,构建微生物菌剂的菌种类型及功能和不同菌剂对好氧发酵的作用及潜在影响机制,以期能够为相关微生物强化技术的研发提供一些参考。     

西安市餐厨垃圾规范化管理和对策

本文就加强西安市餐厨垃圾管理提出了一些建议和对策,希望对实现西安市餐厨垃圾规范化管理和发展循环经济起到积极作用。     

产油微生物利用餐厨垃圾生产油脂的研究进展

餐厨垃圾中含有丰富的营养物质,经生物转化过程可以合成对人类有用的化学品.某些产油微生物可以处理餐厨垃圾生产油脂,同时合成高附加值代谢产物如多不饱和脂肪酸、角鲨烯和类胡萝卜素等.这不仅能够降低生产成本,而且提高了产物的经济价值,具有极大的工业化应用潜力.文中主要概括了目前餐厨垃圾的处理研究现状,综述了产油微生物发酵餐厨垃...     

餐厨垃圾厌氧消化产沼气过程中酶学表征

厌氧消化产沼气被认为是餐厨垃圾资源化利用的有效方式之一,其实质是在多种微生物综合作用下的生物化学过程.本文研究了在促进和抑制性因子作用下,餐厨垃圾厌氧发酵的酶学过程,对其中的脱氢酶和水解酶(β-葡萄糖苷酶,BAA-蛋白水解酶,碱性磷酸酶)活性变化进行了分析.研究表明,与空白对照组相比添加酵母粉后脱氢酶的最高活性提高了8...     

餐厨垃圾资源化利用技术研究现状及展望

餐厨垃圾产生量大、成分复杂、具有"危害性"和"资源性"的双重属性,随着垃圾分类工作的推进,将餐厨垃圾作为一种生物资源回收其中的资源和能源的研究受到了越来越多的关注。本文介绍了餐厨垃圾的成分特性及预分选方法,对餐厨垃圾厌氧消化、好氧堆肥、生物饲料、昆虫养殖、热处理技术及生物炼制生产高附加值化学品等主要的资源化利用途径进行了分析,并对餐厨垃圾收集及资源化过程中产生的恶臭气体、废水污染问题及处理方法进行了介绍。最后指出餐厨垃圾厌氧消化、昆虫养殖、好氧堆肥及生物饲料技术工业化利用过程中的设备运行的稳定性及其废水和臭气的控制问题仍需进一步的研究。餐厨垃圾热处理过程如何进一步降低能耗及开发高附加值的功能炭材料是未来的重要发展方向,餐厨垃圾生物炼制生产高附加值化学品是实现餐厨垃圾高值化利用的有效途径,也是替代传统化工路线生产化学品的重要路径。总之,采用多技术耦合是实现餐厨垃圾"减量化、无害化、资源化"的有效手段,也是发展我国循环经济发展的必然要求。     

我国餐厨废油制取生物柴油的开发应用进展与展望

用餐厨废油制取生物柴油,一方面可实现柴油的清洁和减量,另一方面也是餐厨废油资源化合理利用的有效途径.本文概述了我国现阶段餐厨垃圾的产生状况和处理处置措施,以及国际上利用餐厨废油制取生物柴油的现状和进展;介绍了餐厨废油制取生物柴油的主要生产工艺和技术方法,分析并揭示了我国餐厨废油制取生物柴油存在的主要问题;最后,...     

餐厨垃圾厌氧消化处理主要过程的微生物群落结构分析

【背景】厌氧消化是我国餐厨垃圾处理的主要方法,微生物在其处理过程中起到关键作用,但是目前对其不同工艺单元微生物群落结构的研究较少。【目的】通过分析各工艺单元的微生物多样性与群落结构,为改进餐厨垃圾资源化处理技术、提高资源利用效率提供科学依据。【方法】采集某餐厨垃圾处理厂油水分离、厌氧发酵、沼渣脱水等3个工艺单元产生的废液样品,采用16S rRNA基因高通量测序技术,研究其菌群组成、丰度、优势菌群及其与环境因子的相关性。【结果】初始油水分离样品中的微生物群落种类相对较少,而经厌氧发酵和沼渣脱水处理后样品中的微生物群落种类较丰富。在门水平上,厚壁菌门(Firmicutes)在各单元样品中所占平均比例最高,为81.1%,其次为拟杆菌门(Bacteroidetes)和绿弯菌门(Chloroflexi),分别占15.81%和4.59%;在属水平上,相对丰度较高的菌属为乳酸菌属(Lactobacillus)、互营单胞菌属(Syntrophomonas)等。餐厨垃圾处理过程中的部分菌属可能具有资源-环境双重属性,例如在沼渣脱水单元相对丰度高达32.67%的假单胞菌属(Pseudomonas),该菌属中既存在少部分致病菌或条件致病菌,也具有生产聚羟基脂肪酸酯的功能菌。影响各组样品微生物群落组成结构最显著的因子是p H值,其次是总糖的含量。【结论】研究明确了典型餐厨垃圾厌氧消化处理工艺单元的微生物群落结构和多样性,并提出了优化处理工艺、强化资源利用效率的建议。     

Conversion of food waste into hydrogen by thermophilic acidogenesis

Conversion of food waste into hydrogen by thermophilic acidogenesis was investigated as a function of organic loading rate (OLR), hydraulic retention time (HRT) and pH in a continuous stirred tank reactor. In order to identify hydrogen-producing microorganisms, denaturing gradient gel electrophoresis (DGGE) of the polymerase chain reaction (PCR) – amplified V3 region of 16S rDNA analysis was conducted at each tested pH. The conversion of food waste into hydrogen was strongly influenced by the operational conditions. The hydrogen production was increased as OLR increased up to 8gVSl^-1d^-1, but drastically decreased at 10gVSl^-1d^-1. The yield of hydrogen was decreased from 2.2 to 1.0mol-H₂/mol-hexose consumed as HRT decreased from 5 to 2days. More carbohydrates in the food waste were decomposed at longer HRT, 76–90%, at HRT of 2–5days. The hydrogen production peaked at pH 5.5±0.1 and significantly decreased at pH 5.0±0.1. The biogas produced was composed of hydrogen and carbon dioxide, but no methane was detected at all tested conditions. The hydrogen contents in the gas produced were more than 55% (v/v) and not sensitive to all tested conditions. The optimum operational condition for continuous hydrogen production from the food waste was obtained at 8gVSl^-1d^-1, 5 days HRT and pH 5.5±0.1 where the hydrogen production rate, content, yield and the efficiency of carbohydrate decomposition were 1.0l H₂/l-d, 60.5% (v/v), 2.2mol-H₂/mol-hexose consumed and 90%, respectively. The hydrogen production was related with the concentration of total organic acids (TOA) which was strongly dependent on that of butyrate indicating that the reaction was mainly butyrate fermentation. The hydrogen-producing microorganism of Thermoanaerobacterium thermosaccharolyticum that involved in acetate/butyrate fermentation, was detected with strong intensity at all tested pHs by denaturing gradient gel electrophoresis (DGGE) of the polymerase chain reaction (PCR) – amplified V3 region of 16S rDNA analysis and sensitive to the tested pHs. The experimental results indicated that effective hydrogen production from the food waste could be obtained continuously by thermophilic acidogenesis at proper operational condition.     

alkB homologs in thermophilic bacteria of the genus Geobacillus

Screening for alkane hydroxylase genes (alkB) was performed in thermophilic aerobic bacteria of the genus Geobacillus. Total DNAs were isolated from the biomass of 11 strains grown on a mixture of saturated C₁₀–C₂₀ hydrocarbons. Fragments of alkB genes were amplified by PCR with degenerate oligonucleotide primers, and the PCR products were cloned and sequenced. For the first time, a set of alkB gene homologs was detected in the genomes of thermophilic bacteria. The strains each contained three to six homologs, of which only two were common for all of the strains. Phylogenetic analysis of the nucleotide sequences and the deduced amino acid sequences showed that six of the variants revealed in Geobacillus were closely related to alkB4, alkB3, and alkB2, found in Rhodococcus erythropolis strains NRRL B-16531 and Q15. All variants of alkB sequences were unique. Analysis of the GC composition showed that the Geobacillus alkB homologs are closer to Rhodococcus than to Geobacillus chromosomal DNA. It was assumed that the alkB genes were introduced in the Geobacillus genome via interspecific horizontal transfer and that Rhodococcus or other representatives of Actinobacteria served as donors. Analysis of the codon usage in the fragments of alkB genes confirmed the suggestion that the pool of these genes is common to the majority of Gram-positive and certain Gram-negative bacteria. The formation of a set of several alkB homologs in a genome of a particular microorganism may result from free gene exchange within this pool.     

Ultrasonic pretreatment for thermophilic aerobic digestion in industrial waste activated sludge treatment

In order to enhance the degradation efficiency of waste activated sludge (WAS) by thermophilic aerobic digestion, an ultrasonic pretreatment was examined. It was observed that ultrasonic pretreatment increased the solubilization of organic matter in the WAS and that the solubilization ratio of the organics increased during the first 30 min but did not extensively increase thereafter. Therefore, a pretreatment time of 30 min was determined to be the economical pretreatment time from the experimental results. From the digestion experiments, which was conducted using the WAS collected from an oil refinery plant in Inchon, Korea, investigating the effects of an ultrasonic pretreatment on thermophilic aerobic digestion, it was confirmed that the proposed ultrasonic pretreatment was effective at enhancing the release of the cellular components in WAS and the degradation of released components in the thermophilic aerobic digestion.     

Biodegradation of dibenzothiophene by thermophilic bacteria

Anaerobic microbial biodegradation of dibenzothiophene (DBT) was studied using thermophilic bacteria obtained from crude oil. A mixed culture was obtained that degraded 98% of DBT at 0.5 mg ml^–1 at 65 °C over 15 days both in the presence and in the absence of Methyl Viologen.     

降解尿酸乳酸菌复合菌系的筛选与菌株组合提升降解效果

【背景】高尿酸症由血液中尿酸含量明显升高而导致,利用乳酸菌对人体的益生作用缓解高尿酸血症越来越受到关注。【目的】获得具有降解尿酸能力的乳酸菌复合菌系与纯培养菌株。【方法】以泡菜为样品来源,以尿酸为底物,采用MRS培养基筛选降解尿酸的乳酸菌复合菌系,通过高效液相色谱法测定复合菌系对尿酸的降解能力。【结果】得到一组乳酸菌复合菌系,当培养温度为37 °C、pH值为6.20、静置培养72 h后复合菌系对尿酸的降解率为12.08%;通过优化培养条件,当该菌系在以牛肉膏为单一氮源、初始pH值为5.00、温度为35 °C的条件下培养72 h,尿酸降解率上升至17.19%,降解率比优化前提高了42.3%;从该菌系中分离出两株具有尿酸降解能力的菌株UA-1与UA-2,它们的尿酸降解率分别为10.85%和8.65%;通过形态学观察和16S rRNA基因序列分析,经鉴定两株菌均为布氏乳杆菌(Lactobacillus buchneri)。将两株单菌组合降解尿酸试验发现,UA-1与UA-2比例为2:1的尿酸降解率为20.2%,比原复合菌系的降解能力提高了67.22%。【结论】研究证明了乳酸菌复合菌系对尿酸的降解能力优于单个菌株,为后续利用乳酸菌复合菌系应用提供了数据支持。     

Intensive bioconversion of sewage sludge and food waste by Bacillus thermoamylovorans

The main aim of this work was to intensify conventional composting of a mixture of sewage sludge and solid food wastes by a one-stage thermophilic bioconversion of these wastes into an organic fertilizer. An intensive process was carried out in a closed system, with or without addition of a starter culture of Bacillus thermoamylovorans. The most effective thermophilic bioconversion of the mixture of food waste and sewage sludge, with addition of starter culture, was when the pH was buffered with calcium carbonate, or the pH drop in the material was prevented by preliminary removal of sulphides from sewage sludge by hydrogen peroxide.     

好氧反硝化聚磷菌的筛选及菌群构建优化

【背景】近年来,随着海水养殖规模的扩大,养殖产品产生的排泄物与残留的饲料大量积累,导致养殖水域的氮磷元素含量上升,水体富营养化加剧并对环境造成危害。【目的】从红树林人工湿地中筛选出好氧反硝化聚磷菌株并研究各菌株的最佳除氮除磷效率,随后通过响应面法构建菌群,进一步强化菌株去除污染物的能力。【方法】将前期筛选出的5株耐盐异养硝化-好氧反硝化菌通过异染颗粒染色和聚-β-羟基丁酸(poly-β-hydroxybutyricacid,PHB)染色进行好氧反硝化聚磷菌的筛选,通过单因素试验明确各菌株的最佳除氮除磷条件,并利用Design-Expert软件和Box-Benhnken响应面法进行配比试验。【结果】经过筛选获得3株耐盐好氧反硝化聚磷菌,分别为肺无色杆菌(Achromobacter pulmonis) strain E43、氧化木糖无色杆菌(Achromobacterxylosoxidans)strainJ1和食油假单胞菌(Pseudomonasoleovorans)strain F2,发现菌株E43具有聚磷功能,确定了耐盐好氧反硝化聚磷菌群的最优降解投加比例为E43:J1:F2=1:1:...     

Isolation and characterization of two novel ethanol-tolerant facultative-anaerobic thermophilic bacteria strains from waste compost

In a search for potential ethanologens, waste compost was screened for ethanol-tolerant thermophilic microorganisms. Two thermophilic bacterial strains, M5EXG and M10EXG, with tolerance of 5 and 10% (v/v) ethanol, respectively, were isolated. Both isolates are facultative anaerobic, non-spore forming, non-motile, catalase-positive, oxidase-negative, Gram-negative rods that are capable of utilizing a range of carbon sources including arabinose, galactose, mannose, glucose and xylose and produce low amounts of ethanol, acetate and lactate. Growth of both isolates was observed in fully defined minimal media within the temperature range 50–80°C and pH 6.0–8.0. Phylogenetic analysis of the 16S rDNA sequences revealed that both isolates clustered with members of subgroup 5 of the genus Bacillus. G+C contents and DNA–DNA relatedness of M5EXG and M10EXG revealed that they are strains belonging to Geobacillus thermoglucosidasius. However, physiological and biochemical differences were evident when isolates M5EXG and M10EXG were compared with G. thermoglucosidasius type strain (DSM 2542^T). The new thermophilic, ethanol-tolerant strains of G. thermoglucosidasius may be candidates for ethanol production at elevated temperatures.     

Stoichiometry of the aerobic biodegradation of the organic fraction of municipal solid waste (MSW)

An elemental analysis was applied to describe the composition ofthe organic fraction of municipal solid waste (MSW). The initial elemental composition was constant at₅H_8.5O₄N_0.2. The changes of the composition during the biodegradation process and the final waste composition were strictly dependent on the process conditions. The decrease in carbon content due to biodegradation increased with temperature at which the experiments were conducted, from 20% at20 °C to about 40% at 37–42 °C after 96 hours. It was correlatedwith the amount of oxygen that was utilised in the investigated processes of aerobicbiodegradation of the waste suspension. The amount of oxygen required for biodegradation of organic fraction of MSW was estimated on the basis of stoichiometric equations and increased from 0.92 moles per 1 mole of waste at 20 °C to 1.6 moles at 42 °C within 96 hours of the experiments.     

Biotransformation of halophenols by a thermophilic Bacillus sp.

The thermophilic Bacillus sp. A2 transformed various halophenols. 2-Chlorophenol, 2-bromophenol, 3-bromophenol and 2-fluorophenol were transformed under resting cell conditions at 60°C to 3-chlorocatechol, 3-bromocatechol, 4-bromocatechol and 3-fluorocatechol, respectively. The hydroxylation of 3-bromophenol occurred at the proximal and distal position relative to the halogen substituent. In complex medium this strain completely transformed 2-chlorophenol and 2-bromophenol at concentrations up to 1 mM. Concomitantly, an accumulation of oxygen-and temperature sensitive halocatechols was observed. 3-Chlorocatechol possesses a half-life of 11.5 h at 60°C and is therefore readily decomposed during incubation. The hydroxylating system was present in phenolgrown cells but not in glucose-grown cells. The hydroxylase activity could also be induced by 2-chlorophenol. The product, 3-chlorocatechol, is not a substrate for the catechol 2,3-dioxygenase.Abbreviations 2-CP 2-chlorophenol - DCP dichlorophenol - TCP trichlorophenol - tetraCP tetrachlorophenol - MIC minimal inhibitory concentration - CF chloride-free - CFG chloride-free plus glucose - CFGY chloride-free plus glycerol - CFP chloride-free plus phenol - CAM chloramphenicol