丁二腈高效降解菌的筛选及其降解性

以丁二腈为唯一碳源和氮源,从石化腈纶废水及其处理构筑物的生物膜中,分离、筛选出2株高效降解丁二腈的菌株:J-1-3和J-13-1.经形态学观察和生理生化特征研究,两者均被鉴定为假单胞菌(Pseudomonas spp.).通过摇瓶试验得出2菌株的最适生长条件:温度为30℃,摇床转速(间接反映通气量)为250 r/min,接种量为0.1%,初始pH为6.在最适生长条件下,分别对不同初始浓度丁二腈进行降解率试验.结果表明,2菌株对丁二腈的降解能力强,尤以J-13-1更为显著.当丁二腈的初始浓度约为6000mg/L、8000mg/L和10000mg/L时,J-13-1菌株对丁二腈的降解率分别在12.5h、14h和16h时达到100%.     

烟气脱硫菌株的筛选与烟气脱硫效率的影响因素

为了寻找烟道气中SO2的微生物转化方法,为微生物脱硫技术的工业化应用提供一定的技术依据,进行了烟气脱硫菌株的筛选和影响烟气脱硫效率有关因素的实验研究,结果表明,单一菌株中,5-2-1菌株的脱硫效率最高.培养12 d后,脱硫率达67.20%,与单一菌株相比,混合菌株有更好的脱硫能力;重金属、有机物、氟化物质对菌株脱硫能力的影响结果表明,在菌液中添加Fe3 、Mn2 不仅能促进菌株生长,还能提高生物菌株的脱硫能力;通过正交实验得出,影响生物菌株脱硫能力大小的因素顺序为:Fe3 >Mn2 >联苯>SO2 浓度>Cr3 >pb2 >pH,通过F显著性检验得知,Fe3 、Mn2、联苯的作用是显著的.     

三唑磷水解酶基因的克隆及水解产物的确定

利用鸟枪法从三唑磷降解菌株mp-4(Ochrobactrum sp.)中克隆了三唑磷水解酶基因tpd,序列分析发现,该基因与甲基对硫磷水解酶基因mpd的同源性为98%,其结构基因含有996个碱基,除终止密码子外编码331个氨基酸,但该基因编码的酶比mpd编码的酶底物范围更广,不仅能水解甲基对硫磷,而且能高效水解三唑磷.利用克隆到的tpd基因编码的水解酶水解三唑磷,将水解反应产物进行液相色谱-质谱联机分析,发现该水解产物分子量为161,经理论分析确定该水解产物为1-苯基-3-羟基-1,2,4-三唑.     

农作物品种单一化的影响

绿色革命是人与自然关系的产物-集约型农业与高产农业的一大壮举。但绿色革命带来的负面影响也是巨大的，主要是农作物品种单一化引起的农业种质资源的减少和农业生态系统的脆弱，本文就绿色革命的这一负面影响进行阐述并提出对策。     

Anaerobic benzene biodegradation by a pure bacterial culture of Bacillus cereus under nitrate reducing conditions

A pure culture using benzene as sole carbon and energy sources was isolated by screening procedure from gasoline contaminated soil. The analysis of the 16S rDNA gene sequence, morphological and physiological characteristics showed that the isolated strain was a member of genus Bacillus cereus. The biodegradation performance of benzene by B. cereus was evaluated, and the results showed that benzene could be e ciently biodegraded when the initial benzene concentration was below 150 mg/L. The metabolites of anaerobic nitrate-dependent benzene oxidation by strain B. cereus were identified as phenol and benzoate. The results of substrate interaction between binary combinations for benzene, phenol and benzoate showed that the simultaneous presence of benzene stimulated the degradation of benzoate, whereas the addition of benzene inhibited the degradation of phenol. Benzene degradation by B. cereus was enhanced by the addition of phenol and benzoate, the enhanced e ects were more pronounced at higher concentration. To our knowledge, this is the first report that the isolated bacterial culture of B. cereus can e ciently degraded benzene under nitrate reducing conditions.     

Characterization of phenanthrene degradation by strain Polyporus sp. S133

Polyporus sp. S133, a fungus collected from contaminated soil, was used to degrade phenanthrene, a polycyclic aromatic hydrocarbon, in a mineral salt broth liquid culture. A maximal degradation rate (92%) was obtained when Polyporus sp. S133 was cultured for 30 days with agitation at 120 r/min, as compared to 44% degradation in non-agitated cultures. Furthermore, the degradation was a ected by the addition of surfactants. Tween 80 was the most suitable surfactant for the degradation of phenanthrene by Polyporus sp. S133. The degradation rate increased as the amount of Tween 80 added increased. The rate in agitated cultures was about 2 times that in non-agitated cultures. The mechanism of degradation was determined through the identification of metabolites; 9,10-phenanthrenequinone, 2,2’-diphenic acid, phthalic acid, and protocatechuic acid. Several enzymes (manganese peroxidase, lignin peroxidase, laccase, 1,2-dioxygenase and 2,3-dioxygenase) produced by Polyporus sp. S133 were detected during the incubation. The highest level of activity was shown by 1,2-dioxygenase (187.4 U/L) after 20 days of culture.     

三株驯化细菌苯酚降解率的比较研究

文章对从农药厂、三化厂和焦化厂废水中分离的细菌NYC-1A、SHC-1B和JHC-1C,通过逐步提高苯酚浓度对它们加以驯化,采用模拟SBR工艺对驯化前后三株细菌对含有苯酚的培养液的处理效率进行了比较研究。结果表明：细菌湿重为1g／L,苯酚培养液经处理16h后,JHC—1C的苯酚降解率最高为89．59％;其次为NYC-1A,降解率为77．88％;SHC-1B的降解率最低,降解率为53．31％。驯化后三株细菌处理苯酚培养液3h,NYC-1A降解率最高为76．37％,SHC—1B的降解率为69．29％,JHC—1C的降解率为45．66％。通过本文研究,表明苯酚降解菌经驯化后可有效提高降解苯酚的效率。     

硫氮比对废水脱氮与沼气脱硫耦联功能茵的影响

从废水脱氮与沼气脱硫耦联反应器中分离到了2株同步脱氮除硫功能菌--荧光假单胞菌(Pseudomonas fluorescens)和铜绿假单胞菌(Pseudomonas aeruginosa).在pH 7.0,温度30℃,无供氧,培养时间2 d的条件下进行了2株功能菌纯培养的同步脱氮除硫效果试验,研究了不同硫氮比对同步脱...     

苯并[a]芘高效降解菌筛选及其降解特性研究

为获得苯并[a]芘（BaP）污染修复的新菌株,通过梯度提高无机盐培养基（MSM）中BaP浓度的方法,本研究从北京焦化厂污染土壤中筛选出1株能够对液体中高浓度BaP（100 mg/L）降解的霉菌,鉴定结果为可可毛色二孢菌（Lasiodiplodiatheobromae）.并首次对L.theobromae在液体中降解BaP...     

微生物强化修复盐渍化石油污染土壤研究＊

采集东营地区石油污染土壤,进行微生物修复实验研究。考察投加复合菌株CM-13是否能够加速生物修复进程以及土壤中石油污染物质降解的影响因素。石油污染土壤经过90 d的处理,在含水量一定的前提下,复合菌株CM-13对于石油污染物质的加速降解作用显著,当复合菌株CM-13接种量为土壤质量的10%时修复效果较好。微生物的生长与营养盐的量存在最佳匹配值,土壤中氮的最佳含量为0.20%,磷的最佳含量为0.05%。实验中随着麦糠投加量的增大,石油类的降解率逐渐增大,当麦糠量为土壤体积分数的25%时,对土壤的修复效果最好。