海洋丝状真菌转化石油烃的研究

研究从湄洲湾海域分离的4株丝状真菌MF1，MF2，MF3，MF4的生长特性及去除油污的过程，观察在温度26℃，初始油浓度在3g/l,培养12d的过程中培养液的变化，分析培养液的pH值及原油的去除率与时间的关系，结果表明，丝状真菌去除原油的[过程是生物吸附与生物降解相结合的生物转化过程，比较革兰氏阴性细菌与丝状真菌细胞壁组成，结构，得出海洋微生物的脱油作用与其细胞壁有直接的关系。     

The biodegradability of two primary alcohol ethoxylate nonionic surfactants under practical conditions,and the toxicity of the biodegradation products to rainbow trout

A field trial has been performed to measure the biodegradability of two typical alcohol ethoxylate nonionic surfactants, “Dobanol” 45-7 and “Dobanol” 45-11, by dosing them to biological filters in a mixture with domestic sewage. Influent levels were 10 and 25 mg l^?1 of each surfactant and 96–98% degradation was achieved within a temperature range of 5–10°C. The surfactants had no adverse effects on the filters in terms of the usual sanitary parameters (BOD, COD, TOC and ammoniacal nitrogen). Tests on the effluents indicated no residual acute lethal toxicity to rainbow trout Salmo gairdneri).     

可生物降解热熔胶粘剂的研究进展

综述了近年来可生物降解热熔胶的发展、合成、性能、应用、最新的研究进展。     

萘降解菌的筛选及降解性能的初步研究

微生物降解是多环芳烃从土壤和水环境中消失的主要途径。本文从加油站废油排放口附近被污染土壤中筛选到两种降解萘的混合菌H1、H2并从中分离出一株纯菌C_1。研究发现,利用纯无机盐培养基加萘作为唯一碳源要比加入其它营养物质的培养基对于筛选萘降解菌更为有利。H_1、H_2和C_1均能以萘为唯一碳源生长,在萘初始浓度为1000mg/L的纯无机盐培养基中培养40h后,培养液中微生物数量分别增长10倍以上,利用气相色谱测得萘的降解率都达到99．6％以上。     

免水型生态卫生设施用降解菌的分离筛选

本文对免水型生态卫生设施中的生物填料及施有机肥农田的土壤进行了人类粪便降解菌的分离。筛选得到的各菌种在实验条件下，降解粪便效果较好，除臭除味，COD下降率在30％左右。其中在土壤中分离出来的9号菌，COD下降率达41％，全部菌种复合培养处理的下降率高达59％。结果表明，实验采用的分离筛选方法是比较有效的，筛选得到了具有较好降解效果的菌种，为降解菌的进一步试验打下了基础。     

Rice bran‐filled biodegradable low‐density polyethylene films: Development and characterization for packaging applications

Rice bran was incorporated into low‐density polyethylene (LDPE) at different concentrations by compounding in a twin‐screw extruder and blown into films of uniform thickness. The rice bran incorporation influenced physical, mechanical, barrier, optical, thermal properties, and biodegradation of LDPE. The mechanical and optical properties decreased as the percentage of rice bran increased. The effect of rice bran on the morphology of LDPE blends was examined using scanning electron microscopy. Oxygen transmission rate and water vapor transmission rate increased with the increased content of rice bran. Addition of rice bran did not alter the melting temperature (T_m) of the blends; however the thermal stability decreased, while glass transition temperature (T_g) increased. Kinetics of thermal degradation was also investigated and the activation energy for thermal degradation indicated that for up to 10% filler addition, the dispersion and interfacial adhesion of rice bran particles in LDPE was good. Aerobic biodegradation tests using municipal sewage sludge and biodegradation studies using specific microorganism (Streptomyces species) revealed that the films are biodegradable. © 2006 Wiley Periodicals, Inc. J Appl Polym Sci 102: 4514–4522, 2006     

脂肪醇聚氧乙烯醚的厌氧与好氧生物降解性

以脂肪醇聚氧乙烯醚(AEO)为目标污染物，在等同条件下做厌氧消化污泥和好氧活性污泥对其生物降解性能的对比实验，得出了同一系列AEO分子中聚氧乙烯基与整个分子的降解难易程度的关系。表明：①污泥会对AEO分子产生吸附一脱附作用而出现假降解率，克服假降解率的干扰是准确测定AEO生物降解性的关键因素；②厌氧和好氧条件下，AEO均可降解，但厌氧降解要稍优于好氧降解；③AEO中聚氧乙烯基的单元数(n)是影响其生物降解的重要因素，相同碳链的直链烷基，生物降解率随n的增加而明显降低。     

污染物的生物催化降解研究进展

在生物催化和生物降解中微生物反应起了关键的作用。近来，与环境有关的细茵的基因组测序揭示了以前未被怀疑过的代谢潜能可以被开发利用。与细菌的生物降解能力相协调，细菌对污染物的趋化性可能归因于细茵与环境中其他生物体竞争能力以及有效修复能力。除了对有机污染物的生物矿化作用，某些细菌还能固定被污染蓄水层中的有毒重金属，从而进一步阐明了微生物转化污染物的潜能。     

微生物聚酯的合成和应用研究进展

微生物聚酯是由发酵技术生产、具有生物降解性的热塑性高分子材料。本文介绍了３－羟基丁酯均聚物（ＰＨＢ）和共聚物的基本结构、生物降解性能、生物合成及其应用研究的进展。     

Degradation of cellulosic and hemicellulosic substrates using a chelator‐mediated Fenton reaction

The involvement of catechol and hydroxamate chelators, along with hydrogen peroxide and Fe³⁺, in the degradation of cellulosic and hemicellulosic substrates was examined with the purpose of improving our current knowledge of the non‐enzymatic mechanisms involved in wood biodegradation by fungi. It could be demonstrated that a catechol chelator‐mediated Fenton reaction not only clearly degraded hemicellulosic substrates but also significantly accelerated and increased the effectiveness of degradation reactions. On the other hand, when a hydroxamate chelator‐mediated Fenton reaction was used, an inhibitory effect was observed. When cellulosic substrates underwent a chelator‐mediated Fenton reaction, no significant difference in degradation was observed between catechol and hydroxamate chelator‐mediated reactions. However, a catechol‐mediated reaction did accelerate the degradation of cellulosic substrates at the beginning of reactions. In addition, it was observed that with a chelator‐mediated Fenton reaction, oxidation of cellulose proceeds depolymerization. Copyright © 2005 Society of Chemical Industry