2株毒死蜱降解菌的分离鉴定及其混合降解特性研究

从生产毒死蜱农药厂采集的活性污泥中分离筛选得到2株降解效率较高的毒死蜱降解菌,命名为D1、D3,根据表型特征、生理生化特性和16 S rRNA基因序列相似性分析,将其鉴定为苍白杆菌属(Ochrobactrum sp.)和副球菌属(Paracoccus sp.)细菌。2株菌以最佳配比(1∶1.25)混合施用时,与单菌相比,毒死蜱降解效率可提高12%~26%;以混合菌株为研究对象,发现其对毒死蜱最适降解温度为30℃,最适降解pH值为7.0,最适NaCl浓度为0.5%;混合菌株施入土壤后,可保持较高的定殖能力和降解效率。     

鸡粪中雌激素的检测及微生物降解

为检测鸡饲料和鸡粪中雌激素，优化其微生物降解条件，应用高效液相色谱（HPLC）法检测蛋鸡饲料和鸡粪中的雌激素，利用11种高效降解雌激素的单一菌株和等体积混合得到的菌群开展雌激素的降解实验。结果表明：只有蛋鸡鸡粪中含有雌二醇（E2），含量为230 ng·g^-1。微生物菌群的降解率高于单一菌株，在27℃下，10 d内能够降解76%的E2。研究表明，蛋鸡鸡粪中有雌激素存在，微生物菌群对雌激素的降解率高于单一菌株。     

除草剂莠去津降解菌SFAD3的分离鉴定及其土壤修复潜力

为获得能够修复除草剂莠去津污染土壤的高效降解菌,采用摇瓶富集法、平板分离法从莠去津过量使用的土壤中分离得到降解菌SFAD3,通过形态学、生理生化特征观察以及16S rDNA和ITS序列分析进行种类鉴定,测定获得菌株的最适降解条件,并通过土壤接种和盆栽试验验证菌株对莠去津污染土壤的修复作用。结果表明,菌株SFAD3最终被鉴定为门多萨假单胞菌Pseudomonas mendocina,该菌株培养30 d时对污染土壤中50 mg/kg莠去津的降解率可达72.6%;菌株SFAD3在MM液体培养基中最适降解条件为温度37℃、pH 7、莠去津初始浓度6.25 mg/L、接种量2%,对莠去津降的降解率为50.0%～72.2%;与仅有莠去津的处理相比,添加有SFAD3发酵液的处理20 d后芝麻的株高、根长、湿重和干重能够显著恢复,并且该菌对芝麻还具有一定的促生作用。表明降解菌SFAD3在修复莠去津污染土壤方面具有潜在的应用价值。     

Biodegradation of Linear Alkyl Benzene Sulphonate

The paper researches on the degradation of LAS (Linear Alkyl benzene Sulphonate) by combining AS1.860 immobilized with low intensity ultrasonic irradiation. The paper also discusses the influence of pH, rotary velocity, LAS concentration and the condition of low intensity ultrasonic irradiation on the degradation of LAS, the degradation rate of LAS is the main index of our experiment, the results of orthogonal test shows that low ultrasonic irradiation can increase the metabolizing of microorganism cells and facilitate the biodegradation of immobilized cells to LAS, here we research the degradation condition of 50mg/L LAS simulation wastewater with low ultrasonic irradiation, and the results show that the influence is obvious, the optimization degradation rate is about 83%, nine point five percent higher than that of the immobilized cells without ultrasonic irradiation.     

Effect of H2O2 in the Bioremediation of Petroleum Hydrocarbon Pollutant

The high efficient strain was separated and filtrated from the soil contaminated by petroleum hydrocarbon. The authors, we focus on the effect of H2 O2 in the bioremediation of petroleum hydrocarbon pollutant. The results show that the optimal concentration of H2O2was 200 mg/L at one time. At the lag phase of the strain, H2O2 was added in per eight hour, and at logarithmic phase, H2O2 was added in per two hour. Biodegradation rate of petroleum hydrocarbon was increased from 38. 1% to 83. 1%. The bioremediation of petroleum hydrocarbon pollutant is remarkably by double effects of deep oxidation and oxygen supply of H2O2.     

回流比对UASB反应器处理难降解化工综合废水运行性能的影响

本试验研究了污水回流比（R）对UASB反应器处理难生物降解的化工综合废水（BOD5／CODcr～O.3）运行性能的影响。结果表明：回流比对CODcr去除率影响明显，当R=2时（水力负荷率HLR为0.426m^3·m^-3d^-1，液体升流速UFV为0.0983m·h^-1），CODcr，最大去除率为60％，基质降解速率SDR为1.122kgCOD·m^-3d^-1。当R=3时（HLR 0.432m^3·m^-3d^-1，UFV 0.131m·h^-），CODcr最大去除率为62.2％，SDR为1.163kgCOD·m^-3d^1。回流作用强化了污染物与微生物细胞之间传质效果，可能是反应器运行性能提高的重要原因。另外，回流引起UASB反应器内部水力学特性发生改变，使基质浓度梯度减小且混合均匀，VFA的产生量减少，VFA积累引起的抑制作用被消除。     

Effect of temperature,organic amendment rate and moisture content on the degradation of 1,3‐dichloropropene in soil

1,3‐Dichloropropene (1,3‐D), which consists of two isomers, (Z)‐ and (E)‐1,3‐D, is considered to be a viable alternative to methyl bromide, but atmospheric emission of 1,3‐D is often associated with deterioration of air quality. To minimize environmental impacts of 1,3‐D, emission control strategies are in need of investigation. One approach to reduce 1,3‐D emissions is to accelerate its degradation by incorporating organic amendments into the soil surface. In this study, we investigated the ability of four organic amendments to enhance the rate of degradation of (Z)‐ and (E)‐1,3‐D in a sandy loam soil. Degradation of (Z)‐ and (E)‐1,3‐D was well described by first‐order kinetics, and rates of degradation for the two isomers were similar. Composted steer manure (SM) was the most reactive of the organic amendments tested. The half‐life of both the (Z)‐ and (E)‐isomers in unamended soil at 20 °C was 6.3 days; those in 5% SM‐amended soil were 1.8 and 1.9 days, respectively. At 40 °C, the half‐life of both isomers in 5% SM‐amended soil was 0.5 day. Activation energy values for amended soil at 2, 5 and 10% SM were 56.5, 53.4 and 64.5 kJ mol^?1, respectively. At 20 °C, the contribution of degradation from biological mechanisms was largest in soil amended with SM, but chemical mechanisms still accounted for more than 58% of the (Z)‐ and (E)‐1,3‐D degradation. The effect of temperature and amendment rate upon degradation should be considered when describing the fate and transport of 1,3‐D isomers in soil. Use of organic soil amendments appears to be a promising method to enhance fumigant degradation and reduce volatile emissions. Published in 2001 for SCI by John Wiley & Sons, Ltd     

Resistance of bamboo scrimber against white-rot and brown-rot fungi

ABSTRACT

Bamboo scrimber is one of the most emerging structural materials for future building applications and it possesses properties comparable to other natural wood-based engineered materials such as glulam, laminated veneer lumber and cross-laminated timber. The goal of this work was to study the decay resistance of bamboo scrimber against white-rot (Trametes versicolor) and brown-rot fungi (Serpula lacrymans). Bamboo scrimber samples were incubated in petri dishes with the wood-decaying fungi and the weight loss after 12 weeks was measured. The surface morphology of fungal-degraded bamboo scrimber was evaluated using optical microscopy. Based on the percentage weight loss, bamboo scrimber could be classified as highly resistant against bio-deterioration by white and brown-rot fungi.     

人工组合复合菌系分解木质纤维素特征研究

为研究人工组合复合菌系降解木质纤维素的效果以及降解过程中微生物群落变化特征。首先对天然复合菌系PLC-8进行分离纯化,随后将筛选出的5株细菌和2株真菌进行组合,构建3 种简化的复合菌系,分别为F1、F2和F3。随后,设计秸秆降解试验,利用DGGE方法测定3种复合菌在分解纤维素过程中微生物群落的变化特征,并进行相关的理化分析。结果表明:人工组合复合菌系F3分解木质纤维素的能力最强,在分解木质纤维素30 d内秸秆平均减重率为39.80%,半纤维素下降52.64%,纤维素下降25.8%,木质素下降6.26%。在第15 天时纤维素内切酶、纤维素外切酶、滤纸酶、β-葡萄糖苷酶、木聚糖酶的活性已经达到整个分解过程的最高值,分别为0.09、0.08、0.09、0.07和0.11 U/mL。复合菌系F3能够自我调节pH,从而改变溶液的pH从微酸性至微碱性,F3的微生物群落呈现出真菌-细菌稳定共存的状态,并且能够长时间保持稳定。因此,人工组合复合菌系F3是稳定、高效的木质纤维素降解复合菌系。