活性污泥中好氧反硝化菌的富集筛选及鉴别

采用SBR反应器,以硝基氮为底物,通过间歇曝气方式,DO保持5mg/L以上,对活性污泥进行强化驯化,实现好氧反硝化细菌的富集培养。利用琥珀酸钠作为碳源,溴百里酚蓝(BTB)作为pH指示剂,共筛选得到20株BTB琼脂平板阳性菌。通过反硝化性能测定,复筛得到4株好氧反硝化细菌。实验结果表明,琥珀酸盐为碳源、硝酸盐为惟一氮源、C/N<10的条件下,4株菌在4d内的TIN去除率均达到60%以上。通过16SrRNA序列同源性比较成功鉴定出3株菌,初步判断2株属于Pseudomonas菌属、1株属于Delftia菌属。     

蜡状芽孢杆菌好氧反硝化特性研究

从湖北省洪湖、仙桃等地采集的活性污泥和土壤中分离得到32株好氧反硝化细菌,对其进行反硝化能力测定,其中3株菌的反硝化能力较强,能以NaNO₃为唯一氮源生长,分别命名为HS-N25,HS-MP12和HS-MP13. 这3株菌可以分别在18,15和12 h内将特定培养基SC中起始浓度为10 mmol/L 的NO₃-完全降解. 通过菌株形态观察、生理生化及16S rDNA 分子鉴定,菌株HS-N25,HS-MP12及HS-MP13与蜡状芽孢杆菌(Bacillus cereus)亲缘关系最为接近,同源性达99%. 初步鉴定这3株菌为蜡状芽孢杆菌.      

Seasonal variation of microbial populations and biomass in Tatachia grassland soils of Taiwan

To investigate the seasonal variations of microbial ecology in grassland of Tatachia forest, soil properties, microbial populations, microbial biomass, and 16S rDNA clone library analysis were determined. The soil had temperatures 6.6–18.4°C, pH 3.6–5.1, total organic carbon 1.11–10.68%, total nitrogen 0.18–0.78%, and C/N ratios 3.46–20.55. Each gram of dry soil contained bacteria, actinomycetes, fungi, cellulolytic, phosphate-solubilizing microbes, and nitrogen-fixing microbes 4.54 × 10⁴ to 3.79 × 10⁷, 3.43 × 10² to 2.17 × 10⁵, 5.74 × 10³ to 3.76 × 10⁶, 1.97 × 10³ to 1.34 × 10⁶, 8.49 × 10² to 5.59 × 10⁵, and 3.86 × 10² to 3.75 × 10⁵ CFU, respectively. Each gram of soil contained 117–2,482 μg of microbial biomass carbon, 23–216 μg of microbial biomass nitrogen and 9–29 μg of DNA. The microbial populations, microbial biomass, and DNA decreased stepwise with the depth of soil, and they had low values in winter seasons. The microbial populations, microbial biomass carbon, microbial biomass nitrogen, and DNA at the BW2 horizon were 8.42–17.84, 19.26–64.40, 16.84–61.11, and 31.03–46.26% of those at the O horizon, respectively. When analyzing 16S rDNA library, members of Proteobacteria, Acidobacteria, Actinobacteria, Bacteroidetes, Chloroflexi, Firmicutes, candidate division TM1, candidate division TM7, Gammatimonadetes, and Verrucomicrobia were identified. Members of Proteobacteria (44.4%) and Acidobacteria (33.3%) dominated the clone libraries. Within the phylum Proteobacteria, α-, β-, and γ-Proteobacteria were most numerous, followed by δ-Proteobacteria.     

电化学间接氧化法处理H2S气体的研究

采用填料塔对铁盐溶液吸收H2S 的过程进行了初步研究,考察了气液比、填料层高度、吸收温度、Fe^3 浓度,进气H2S浓度和H^ 浓度等因素对H2S去除率的影响。结果表明,气液比、 填料层高度和吸收温度对吸收效率的影响比较显著。通过正交试验选出最佳工艺条件,在此工艺条件下H2S的去除率 接近100％。     

和田河年径流变化规律研究

根据和田河实测年径流资料,应用小波分析、R/S分析等多种方法,探讨了在气候变化和人类活动影响下,和田河年径流变化规律及其成因。结果表明,和田河年径流存在减少趋势,且具有一定的持续性。通过径流变化的影响因素分析表明,上游出山口处两支流的径流变化主要受气温升高的影响,下游入塔里木河处除受降水减少的影响外,主要是由于人类对水土资源开发进程的加快,人类活动是其径流变化的主要原因。     

海洋石油降解菌的筛选与降解特性

用采自山东胜利油田的石油污染水体,以原油为唯一碳源,经人工海水培养基富集培养,得到lO株细菌.通过降解率的测定,发现其中一株细菌HB-1具有较强的石油降解能力,200 r/min振荡培养6 d,其原油的降解率达54.74%.根据菌落特征、菌体形态、生理生化特性和16S rDNA序列分析,确定HB-1为不动杆菌属(Acinetobacter sp.).进一步实验表明,该菌株最适宜牛长和降解石油的条件为:温度25～32℃,初始pH值6.5～7.5,盐度3%,此条件符合实际海洋环境的要求.图6表2参22     

废水反硝化生物反应器中喹啉降解细菌的分离与特性

杂环化合物喹啉是焦化等工业废水中的一种难降解化合物.有关喹啉微生物降解的研究还很有限,分离筛选多样的喹啉降解细菌,对认识喹啉的降解机制和强化废水中喹啉的降解具有重要意义.本研究通过富集和多种分离条件的培养,从焦化废水活性污泥及唪啉驯化的生物膜样品中分离获得56株与喹啉降解相关的菌株,以16S rDNA双酶切方法进行ARDRA分型,将这些菌株分为12个OTU.选取部分代表菌株进行16S rDNA测序分析,表明分离所获得的菌株主要是Ochrobactrum、Bacillus、Pseudomonas和Rhodococcus属的微生物.通过对部分菌株测定其喹啉降解能力.发现大部分菌株都能以喹啉为唯一碳源进行生长并高效降解喹啉,极少数菌株不能单独降解喹啉.降解喹啉的Ochrobactrum属菌株还未见报道.     

一株有机磷降解菌的筛选、鉴定及其解磷功效

从渥堆猪粪中分离到1株有机磷降解菌021112,该菌株在有机磷降解筛选培养基(NBRIP)上产生透明圈,具有较强的解磷能力.鉴定显示该菌株为杆状兼性厌氧菌,有端生鞭毛,最适生长温度和pH值分别为37℃和7.0～7.5.16SrDNA分析表明,属于肠杆菌科阪崎氏肠杆菌(Enterobactersakazakii)的变种.该菌能有效降解植酸钙、菜籽饼和猪粪中的植酸磷,降解率分别为84.29%、73.96%和84.62%;对卵磷脂的降解率为87.4%.     

Variations of dominant microbial populations in groundwater in response to the leachate from Laogang Landfill

Temporal changes of dominant microbial populations in groundwater in response to the leachate from Shanghai Laogang Landfill were investigated. Concentrations of dissolved redox-relevant species in groundwater suggested that the dominating redox process had changed from denitrification to methane-production/sulfate-reduction due to landfilling. Dominant microbial populations were determined using restriction fragment length polymorphism(RFLP) analyses of 16S rRNA gene libraries, which were further studied by sequencing and phylogenetic analyses. The results indicated that obvious shifts of dominant microbial populations had occurred in groundwater in response to the pollution of leachate. The closest relatives of some dominant clones are accordant with the dominating redox processes determined by hydrochemical analyses, based on the GenBank‘s indications on the ability to perform redox reactions.     

垃圾填埋场细菌种群空间分布及组成多样性研究

采用PCR-DGGE技术对垃圾填埋场细菌种群垂直分布及组成多样性进行了研究．结果表明：垃圾填埋场细菌种群组成波动较大,某些种群对环境因子的变化十分敏感．在填埋年龄已达3a的取样点,细菌种群的多样性随着垃圾填埋深度的增加而呈现“多—少—多”的变化趋势。各种群间相对密度也呈现由不均一到均一的变化规律,部分层次优势种和非优势种发生较大变化．填埋深度4．0m至6．25m左右的区域是填埋场微生物区系组成发生变化的过渡区,该区域细菌种群的多样性较小,亲缘关系相差比较大的种交叉在一起,具有明显的过渡特征．从时间因素来看,填埋场同层次微生物群落组成随时间延长,种群构成趋于稳定．表层垃圾1～2a内,细菌种群处于交替更叠的阶段,日趋发育成熟．8．25m以下层次的细菌种群主要受填埋深度影响,与填埋时间关系较小。