污泥厌氧发酵物强化低碳氮比生活污水脱氮除磷

为降低使用污泥厌氧发酵物作碳源时的成本,以及简化使用步骤,研究将既不进行发酵液与污泥的分离,也不去除副产物氮和磷的污泥发酵物直接作生活污水脱氮除磷碳源的可行性.以实际低碳氮比城市生活污水为处理对象,将不同量的污泥碱性发酵物(0,20,50,100,200mL,对应的SCOD质量依次为0,79,198,396,792mg)作为生物反硝化脱氮和厌氧释磷的碳源,考察脱氮和释磷情况.结果表明:随着投加量的增加,反应结束时氮氧化合物(NOx^--N)先降低后升高,当投加量为50mL(SCOD质量为198mg、氮质量为12.9mg、碳氮比为15.3)时,NOx^--N质量浓度最低,仅为1.2mg/L且全部以NO2^--N的形式存在,对应的反硝化效率为94.9%;厌氧释磷过程随着污泥发酵物投加量的增多,释磷量不仅没有升高,反而会降低,当投加量为20mL(SCOD质量为79mg、氮质量为5.2mg、磷质量为1.6mg、碳氮比为15.3、碳磷比为49.5)时,反应结束时释磷量最多,高达23.8mg/L.此外,通过模拟硝化过程、反硝化过程以及鉴定细胞形态,得出污泥发酵物中硝化细菌和反硝化细菌的细胞结构遭到破坏,其活性均被抑制,即发酵物的引入不影响污水脱氮除磷系统主要菌群结构的稳定性.因此,污泥厌氧发酵物直接做生活污水脱氮除磷的碳源是可行的,本研究中对于反硝化脱氮,50mL为最佳投加量,对于厌氧释磷,20mL为最佳投加量.

高含固率木质纤维素厌氧发酵物总DNA的4种提取方法比较

不同的样本特性和提取方法对获得微生物总DNA的质量有重要影响。文章基于高含固率木质纤维素厌氧发酵物腐殖酸、酚类物质含量高、质地均一性差、微生物浓度低的特点,研究了4种方法提取不同高含固率粪秸厌氧发酵物中微生物总DNA的效果。结果表明,常规的十二烷基磺酸钠法(sodium dodecyl sulfate,SDS)、十二烷基磺酸钠和溴化十六烷基三甲铵结合法(sodium dodecyl sulfate and cetyltrimethyl ammonium bromide,SDS-CTAB)和商业的粪便试剂盒法提取的DNA质量均较差,SDS法和试剂盒法未能获得聚合酶链式反应(polymerase chain reaction,PCR)扩增目的条带,SDS-CTAB法得到的条带较模糊;改进SDS-CTAB法获得的DNA杂质少、纯度高,具有较好的稳定性,A260/A280和A260/A230值分别为1.74~1.86和1.65~1.86,每克样品的DNA浓度在50 ng·μL^-1以上,电泳条带单一齐整、清晰明亮,PCR扩增的目的条带清晰度高,适宜后续分子生物学技术的分析。林格氏液洗脱、聚乙烯吡咯烷酮-40(Polyvinyl Pyrrolidone-40,PVP-40)洗涤液除杂以及裂解液和多种酶联合破壁是改进SDS-CTAB法获得该类专一性样本高质量微生物总DNA的关键步骤。

沼气发酵残余物对叶菜硝酸盐积累的影响

通过正交实验 ,分析沼气发酵残余物 (沼液、沼渣 )作为肥料 ,其施肥量、配施品种、施用方式等因素对油菜和菠菜硝酸盐积累的影响。影响菠菜硝酸盐积累的显著因素按作用程度大小依次为硫酸铵、沼渣和喷施沼液。油菜的显著因素依次为硫酸铵、沼渣和灌施沼液。并根据维持较高产量水平的基础上硝酸盐含量较低的原则 ,确定了优选的施肥方案。结果表明 ,采用沼渣作底肥 ,配合沼液追肥 ,生产的蔬菜满足高产和优质的双重目的 ,既利用了农业废物 ,避免沼气池的二次污染 ,又节约化肥 ,降低生产成本 。

Identification, Cloning and Characterization of Dictyoglomus Turgidum CelA, an Endoglucanase with Cellulase and Mannanase Activity

The discovery of new, highly active, biomass-degrading enzymes is important to the development of a sustainable biofuels industry. Dictyoglomus turgidum, a thermophilic, anaerobic eubacterium that ferments cellulose and produces ethanol and hydrogen, was chosen as a candidate to screen for novel enzymes. A novel thermostable endoglucanase, CelA, was identified and purified during screening of a shotgun library of Dic（yoglomus turgidum and subsequently subcloned and expressed in E. coli. The celA gene coding for a 312 amino acid protein showed low homology to proteins outside the genus Dictoglomi and lacked an apparent signal peptide. CelA had a broad substrate range, possessing both endo and exo activity on soluble and insoluble β-（1,4）-Iinked glucose-containing substrates as well as endo activity on soluble and insoluble β-（1,4）-linked mannose containing substrates. The specific activity of CelA was 226 U/rag using β-glucan, 66 U/mg using glucomannan, and 63 U/mg using CMC as substrates. The high temperature optimum of 70 ℃ to 80 ℃ and wide substrate range of the enzyme might make it an excellent tool for biomass degradation at high temperature.