低温贫营养好氧反硝化细菌SY13的反硝化特性

从底泥中分离出1株低温贫营养好氧反硝化细菌SY13,经常规生理生化鉴定和16SrDNA测序,鉴定出细菌SY13属于Acinetobactersp．。考察了温度、pH、C／N比及接种量对菌株SY13硝酸盐还原活性的影响,初始硝酸盐浓度为15mg／L左右,温度为15℃时低温贫营养好氧反硝化细菌SY13的硝酸盐去除率为49．26％,在中性环境适应性较强,pH值为7．0时72h的硝氮去除率达到58．08％,随着C／N比不断增加,菌株SY13硝酸盐的去除效果逐渐增强,接种量为10％时,菌株SY13培养72h后的硝氮去除率可达到59．62％。     

温度、曝气和沉积物对绿潮硬毛藻分解的影响

为了解绿潮优势种——硬毛藻在温度、曝气和沉积物作用下的分解过程及三因素的效应大小,通过室内模拟研究了不同环境条件下硬毛藻早期分解过程中生物量、分解速率及藻体磷释放率的变化,分析了不同环境因子对藻体分解影响的效应大小.结果表明,高温(20~30℃)和添加沉积物均能促进硬毛藻的腐烂分解及藻体磷素释放,其中,30℃条件下含沉积物处理的最大分解速率可达12.13%·d-1,14 d后藻体磷释放率为90%以上.曝气一方面可通过扰动加速藻体生物量的损失和分解速率,另一方面提供了好氧环境,抑制了藻体生物分解和磷素释放,因而其影响效应较低.研究表明,高温和添加沉积物均可加速丝状硬毛藻的分解和藻体磷素释放,夏季应及时清除水体中滋生和衰亡的藻体.     

Optimized production of a novel bioflocculant M-C11 by Klebsiella sp. and its application in sludge dewatering

The optimized production of a novel bioflocculant M-C11 produced by Klebsiella sp. and its application in sludge dewatering were investigated. The optimal medium carbon source,nitrogen source, metal ion, initial pH and culture temperature for the bioflocculant production were glucose, NaNO3, MgSO4, and pH 7.0 and 25°C, respectively. A compositional analysis indicated that the purified M-C11 consisted of 91.2% sugar, 4.6% protein and 3.9% nucleic acids（m/m）. A Fourier transform infrared spectrum confirmed the presence of carboxyl, hydroxyl,methoxyl and amino groups. The microbial flocculant exhibited excellent pH and thermal stability in a kaolin suspension over a pH range of 4.0 to 8.0 and a temperature range of 20 to 60°C.The optimum bioflocculating activity was observed as 92.37% for 2.56 mL M-C11 and 0.37 g/L CaCl2 dosages using response surface methodology. The sludge resistance in filtration（SRF）decreased from 11.6 × 1012 to 4.7 × 1012m/kg, which indicated that the sludge dewaterability was remarkably enhanced by the bioflocculant conditioning. The sludge dewatering performance conditioned by M-C11 was more efficient than that of inorganic flocculating reagents,such as aluminum sulfate and polymeric aluminum chloride. The bioflocculant has advantages over traditional sludge conditioners due to its lower cost, benign biodegradability and negligible secondary pollution. In addition, the bioflocculant was favorably adapted to the specific sludge pH and salinity.     

Biodegradation of 3,5-dimethyl-2,4-dichlorophenol in saline wastewater by newly isolated Penicillium sp. yz11-22N2

In this study,the performance of 3,5-dimethyl-2,4-dichlorophenol(DCMX) degradation by a screened strain was investigated.18 S r DNA and the neighbor-joining method were used for identification of the isolated strain.The results of phylogenetic analysis and scanning electron micrographs showed that the most probable identity of the screened strain should be Penicillium sp.Growth characteristics of Penicillium sp.and degradation processes of DCMX were examined.Fourier transform infrared spectroscopy of the inoculated DCMX solution was recorded,which supported the capacity of DCMX degradation by the screened Penicillium sp.Under different salinity conditions,the highest growth rate and removal efficiency for DCMX were obtained at p H 6.0.The removal efficiency decreased from 100%to 66% when the DCMX concentration increased from 5 to 60 mg/L,respectively.Using a Box–Behnken design,the maximum DCMX removal efficiency was determined to be 98.4%.With acclimation to salinity,higher removal efficiency could be achieved.The results demonstrate that the screened Penicillium sp.has the capability for degradation of DCMX.     

喹啉降解菌Ochrobactrum sp.的好氧降解特性及其在焦化废水中的生物强化作用

喹啉是焦化废水中的难降解有机物之一,以喹啉为唯一碳氮源从某焦化废水处理厂活性污泥中分离出1株喹啉降解菌KDQ3,16S r DNA序列分析表明KDQ3为Ochrobactrum sp.,其对喹啉降解的最适条件为37℃和初始pH 7.0~8.0,喹啉降解动力学符合Haldane模型.KDQ3能在10.4 mg·L~(-1)Cr(Ⅵ)存在时降解200 mg·L~(-1)喹啉.此外,KDQ3能在实际好氧池焦化废水环境中降解喹啉和提高COD去除率,说明该菌具有生物强化焦化废水的应用潜力.     

Comamonas sp. IDO2合成靛蓝的特性研究

利用吲哚降解菌丛毛单胞菌(Comamonas)IDO2转化吲哚合成靛蓝,优化靛蓝合成条件,并对合成产物进行分析.结果表明,菌株IDO2能够在苯酚、萘、苯和菲的诱导下转化吲哚合成靛蓝,在苯酚诱导时靛蓝的产量最高.采用表面响应法优化菌株合成靛蓝的条件:吲哚197.76mg·L~(-1),苯酚203.39 mg·L~(-1),酵母浸粉0.18%,在此条件下靛蓝的合成量为9.0 mg·L~(-1),与初始条件下的产量相比提高了104%.此外,考察了不同金属离子对菌株IDO2合成靛蓝的影响,结果表明Ba~(2+)和Ca~(2+)对靛蓝的合成具有促进作用.采用液相色谱/飞行时间/质谱联用对菌株IDO2转化吲哚的产物进行定量和定性分析,发现合成产物主要为靛蓝和靛红,并依此提出了可能的反应途径.     

一株耐镉链霉菌的筛选、鉴定与基本特性分析

微生物在重金属污染治理中具有重要作用.采用微生物纯培养技术从镉污染土壤中分离获得一株在液体培养基和固体培养基中能够分别耐受45 mmol·L~(-1)和50 mmol·L~(-1)Cd~(2+)的细菌,通过形态学、生理生化及分子鉴定,初步鉴定该菌株属于链霉菌(Streptomyces sp.),命名为Streptomyces sp.strain Cd TB01.进一步实验结果表明,耐镉链霉菌Streptomyces sp.strain Cd TB01的优化培养条件为:马铃薯蔗糖培养基,在250m L的三角瓶中装液量为90 m L,培养温度30℃,初始pH=6.0,接种量6.0%,NaCl质量分数0%;湿菌体吸附Cd~(2+)的优化条件为:温度30℃,pH=8.0,NaCl质量分数1.0%,Cd~(2+)浓度500 mg·L~(-1),吸附率为44.78%;干菌粉吸附Cd~(2+)的优化条件为:温度30℃,pH=9.0,NaCl质量分数0%,Cd~(2+)浓度100 mg·L~(-1),吸附率达到70.45%.说明链霉菌Streptomyces sp.strain Cd TB01在重金属污水处理中具有广阔的应用前景.     

城市污水处理厂四环素抗性菌的筛选及其抗性基因分析

城市污水处理厂中抗生素抗性菌的富集和扩散对受纳水体及公共卫生安全造成严重的威胁.本研究从上海某城市污水处理厂活性污泥中筛选得到一株四环素抗性菌株TC-1,基于形态特征、生理生化特性和16S r DNA结果鉴定,菌株TC-1属于节杆菌属(Arthrobacter sp.).对节杆菌属菌株的全基因组分析表明,菌株TC-1含有多种抗生素抗性基因,包括四环素、氯霉素、大环内酯类和青霉素抗性基因.对比节杆菌属抗生素抗性基因的基因簇分析表明,这些抗性基因在节杆菌属中具有普遍存在性,表明其来源于相关菌株的遗传而非单个菌株的偶然获得.鉴于节杆菌属是潜在的病原性微生物,该结论可为废水生物处理系统中含抗生素抗性基因的致病微生物环境行为和风险评估提供参考.     

对氨基苯磺酸降解菌的分离鉴定及降解特性研究

对大连某城市污水处理厂活性污泥进行长期驯化,筛选得到好氧条件下以对氨基苯磺酸（4-aminobenzenesulphonate,4-ABS）为唯一碳源和能源生长的高效降解菌株W1.根据菌株W1的形态特征、生理生化特征及16S rDNA序列分析,初步鉴定为Pannonibacter菌属.通过考察生长条件对降解效果的影响,确定了该菌株降解4-ABS的优化条件为：接种量10%、　30℃、　pH 7、摇床转速150 r/min,并且在有外加碳源的情况下仍保持较高的4-ABS降解活性.在4-ABS的降解过程中,4-ABS自身含有的氨基和磺酸基会以NH⁺₄和SO^2-₄的形式释放到水体中,但浓度仅为理论释放量的77.6%和91.5%,推测原因是部分释放的NH⁺₄和SO^2-₄被菌株W1作为氮源和硫源利用;菌株W1可以耐受2 500 mg/L的4-ABS,且在32 h内实现90%的降解率;4-ABS降解率为94.7%时,可以实现84.4%的TOC去除率,且没有检测到其它芳香化合物生成,表明菌株W1可以实现4-ABS的彻底矿化.     

1株嗜酸硫杆菌的分离鉴定及其对污染底泥中重金属的去除效果

采用常规细菌分离方法,从河流底泥中筛选到1株细菌FD97,通过序批式摇瓶培养考察了不同温度下(22~40℃)该菌株对污染底泥中Zn、Cu和Cr的去除效果.结果表明,形态学和16S rDNA序列同源性分析鉴定菌株FD97为嗜酸硫杆菌属(Acidithiobacillussp.).在22~40℃条件下,以Acidithiobacillussp.FD97为主要菌株的生物沥浸作用可有效去除污染底泥中Zn、Cu和Cr.沥浸处理16 d,Zn、Cu和Cr的去除率可分别达70%、90%和25%.从底泥pH值变化、SO42-产生以及重金属去除率角度衡量不同温度的底泥沥浸处理效果依次为:34℃28℃≈40℃22℃.控温28℃较适宜今后的实际应用.底泥重金属生物沥浸去除率的大小与底泥pH值变化密切相关,与温度无直接关系.当底泥pH值降至5.0、3.5和2.5时,底泥中Zn、Cu和Cr分别开始溶出,pH值降为2.0,重金属去除率达最大.