简青霉对水溶液中碱木质素的吸附和降解的机理

通过一系列实验研究碳源浓度、培养箱转速、碱木质素浓度以及菌体活性等因素对简青霉菌丝球在溶液中吸附碱木质素的影响,并探讨其生物吸附机理;确定最佳碳源浓度和转速,分别为10 g/L和150 r/min。当碱木质素浓度小于0.5 g/L时,吸附效果较好,由菌丝球活性对照实验以及电镜照片可知吸附作用主要是由菌丝球的物理结构决定的,与其是否具有活性关系不大。通过吸附等温实验确定菌丝球的最大吸附量为30.3 mg/g,且吸附过程符合Langmuir等温吸附模型。另外,过氧化氢对木质素降解酶影响的实验证明,木质素过氧化物酶和锰过氧化物酶均需要过氧化氢的启动才能催化降解木质素,并且在降解过程中,木质素过氧化物酶和锰过氧化物酶的作用远远大于漆酶。     

石油降解菌的筛选及降解性能研究

从石油污染的土壤中分离驯化，得到特征明显的石油降解菌，研究了不同时间、石油浓度、接种量、pH值、基质及添加物等条件对降解菌降解石油的影响。结果表明：在实验条件下，降解菌接种量越多，降解效果越好；石油降解效率随着石油浓度的增加而降低；当初始pH值为7时，降解菌去除石油效果最佳；添加适量蔗糖或葡萄糖，对石油的降解有促进作用；吐温80对石油降解有一定的抑制作用。     

白腐菌在固体培养基下对吲哚和吡啶的降解

研究了稻草秆粉介质中白腐菌对吲哚和吡啶的降解.实验结果表明,质量浓度分别为200、80 mg/L左右的吲哚可被白腐菌去除99%以上,质量浓度为74 mg/L吡啶的去除率为61.5%;白腐菌在稻草秆粉培养体系中对吲哚和吡啶的降解,符合零级反应动力学,其中反应速率常数K(高浓度吲哚)＞K(低浓度吲哚)＞K(吡啶);高低浓度吲哚和吡啶3个降解体系的漆酶活力在第6天达到最大;漆酶在吲哚和吡啶降解过程中起着较重要的作用,但酶活的变化与吲哚和吡啶的相对去除率不呈线性相关,稻草秆粉培养基中的介质和培养环境在降解过程中可能也起着重要作用.     

一株高产纤维素酶真菌的分离及产酶特性研究

一株高产纤维素酶真菌D1,经纤维素刚果红平板识别、滤纸崩解实验初筛以及液体发酵产酶复筛,从腐烂秸秆中被分离出来.经形态观察和18S rDNA基因片断分析,被鉴定为草酸青霉(Penicillium oxalicum).通过单因子及正交实验,D1液态发酵产酶条件得到优化.最佳产酶条件为:碳源为麸皮∶稻草=3∶7(w/w),...     

邻苯二甲酸二乙酯的微生物降解与吸附性能研究

邻苯二甲酸二乙酯(DEP)是一种环境中较为常见的环境激素类持久性有机污染物。DEP较为稳定,光解和水解都极为缓慢,微生物降解是主要去除途径。以高效降解菌Sphingobium.sp作为实验微生物,研究了其对DEP的表观去除、降解及吸附行为,同时考察表面活性剂(包括吐温80、吐温40和鼠李糖脂)、溶解性有机质(DOM)和葡萄糖对其降解的影响。结果表明,降解是该降解菌去除DEP的主要途径,吸附的影响非常小。吐温80在高浓度时促进DEP的降解,低浓度时抑制;鼠李糖脂在高浓度时抑制,低浓度时促进;吐温40在不同浓度下均呈现出抑制作用。添加DOM和葡萄糖后,DEP的降解效果增强。     

纤维素酶、半纤维素酶降解膨化玉米秸秆工艺优化

利用纤维素酶和半纤维素酶协同降解经过膨化预处理的玉米秸秆,以提高玉米秸秆相比于单酶解的产糖量。在单因素实验的基础上,以还原糖产率为响应值,通过响应面来优化设计实验。实验数据分析得出,膨化玉米秸秆酶解的最佳工艺为:pH 4.8,液固比13∶1,酶解时间60 h,酶浓度6 g/L,温度51℃。对比纤维素酶单独作用于玉米秸秆的降解效果,双酶协同酶解使酶解液的还原糖产率提高到24%,还原糖产率提高了14.3%。协同酶解的研究为木质纤维素原料的降解提供了一种新的方式。     

以农作物秸秆固定化混合菌去除原油

农业废弃物作为一种高效、低成本、可再生的载体,可利用其固定细菌来吸附降解石油。选取典型的农业废弃物玉米秸秆和稻草秸秆作为混合降解菌的载体,研究其对原油的降解效果。结果表明:稻草秸秆固定化菌的去除率达到90%~95%,玉米秸秆固定化菌的去除率为95%~98%,都比单纯的游离菌群G8提高了近40%;玉米秸秆固定化菌对原油的去除率比载体与菌群的简单混合物提高近了25%。比较经灭菌和不灭菌的秸秆为载体对原油的去除率,发现未经灭菌处理的秸秆对原油的去除效果更好。SEM及降解实验进一步表明玉米秸秆为较佳的载体,以玉米秸秆固定化菌3 d对原油的去除率可达到93.81%。     

漆酶/香草醛体系生物降解毒死蜱影响因素的研究

研究了漆酶介体体系对有机磷农药毒死蜱生物降解的效果及影响因素.通过对6种介体的试验比较,筛选了合适的介体.在试验条件下,1-羟基苯并三唑(HBT)和2,2’-联氮-二(3-乙基-苯并噻唑-6-磺酸)(ABTS)对漆酶降解毒死蜱存在一定的抑制作用,紫脲酸(VA)和2,6-二甲氧基苯酚(2,6-DMP)对漆酶降解毒死蜱未起促进作用,而天然产物香草醛和愈创木酚可促进漆酶降解毒死蜱,香草醛的促进作用最为明显,选择香草醛作为漆酶介体体系中的介体.研究了漆酶/香草醛体系中,反应时间、漆酶初始酶活、pH、温度、介体投加量及投加方式、毒死蜱初始浓度等因素对毒死蜱生物降解效果的影响.结果表明,控制漆酶初始酶活为0.050 U/mL、pH为5.0、温度30℃,分2次投加香草醛(香草醛与毒死蜱初始值摩尔比分别为40和80)情况下,漆酶/香草醛体系即可在24 h内实现对25 mg/L毒死蜱的有效降解,降解率达98％.     

纤维素降解菌的筛选及其产酶特性

纤维素降解菌在纤维素类物质降解的过程中起着重要作用。通过滤纸条崩解和液态产酶实验,从腐烂的树叶中筛选出1株对纤维素有较强降解能力的菌株SY2,通过形态学特征以及生理生化反应,初步鉴定该菌株为荧光假单胞菌(Pseudomonas fluorescent)。产酶培养基及培养条件优化的实验结果表明:SY2的最佳产酶培养基为麸皮与秸秆粉的质量比1∶4、(NH4)2SO41%、pH8、固液比1∶2;最佳产酶条件为培养温度30℃、接种量7.5%、培养时间72 h;在酶液中添加Fe2+和VB12可使纤维素酶活力分别达到174.89μmol/(g.min)和165.99μmol/(g.min),提高了33.5%和26.3%。SY2对麸皮、滤纸的降解效果较好,降解率分别达到45.0%和33.3%。     

突变灰盖鬼伞过氧化物酶降解刚果红的响应面法优化分析

酶法降解偶氮染料刚果红是一个复杂的过程，受温度、pH、酶量、刚果红浓度和双氧水浓度显著影响。为研究各因素及因素间交互作用对刚果红降解影响，提高刚果红的降解率，分别使用单因素法和响应面分析法对刚果红降解条件进行了优化。单因素实验结果显示灰盖鬼伞过氧化物酶降解刚果红的最适条件为：pH5．0、32℃、酶量4．98u、双氧水0．1mmol／L、刚果红20mg／L，此时刚果红最高降解率为34．84％。然后选双氧水浓度、刚果红浓度和灰盖鬼伞过氧化物酶量作为3个因素，通过中心组合设计实验，用响应面法对刚果红降解进行优化分析，最后得到一个拟合度良好的二次多项方程模型（R2=0．9900）。方差分析结果显示，刚果红浓度和酶量是影响最显著的因素，双氧水与酶以及染料与酶之间的交互作用极显著。响应面分析优化后的反应体系为：双氧水浓度0．15mmol／L，刚果红浓度为27．21mg／L，酶为2．07U，在此条件下，刚果红降解率达58．13％。     

液氨预处理强化复合菌系WSC-6降解稻秆的性能

高效、经济的预处理技术对提高稻秆的生物降解效率，实现稻秆资源的工业化利用具有重要意义。为确定液氨对稻秆生物降解性的影响，以复合菌系WSC-接种液氨预处理的稻秆，研究其生物降解性能。结果表明，用液氨预处理后的稻秆作为碳源，由于营养结构的改变，复合菌系WSC-6需要经过3d的适应期进入对数增长期，氮源利用率和微生物浓度均显著高于未处理的对照组。复合菌系WSC-6对其生物降解性得到明显提高，7d后的稻秆失重率达到62．7％，纤维素、半纤维素和木质素的降解率分别达到57．5％、85．6％和36．3％。液氨预处理对发酵系统的pH值影响不大，复合菌系WSC-对稻秆降解的pH值仍维持在6．5～8．6之间，有利于进行丁酸型发酵，这对后续利用乙酸高效生产沼气具有重要意义。     

Oxidative dechlorination of methoxychlor by ligninolytic enzymes from white-rot fungi

Ligninolytic enzymes, manganese peroxidase (MnP), laccase, and lignin peroxidase (LiP), from white-rot fungi were used in an attempt to treat methoxychlor (MC), a chemical widely used as a pesticide. MnP and laccase in the presence of Tween 80 and 1-hydroxybenzotriazole (HBT), respectively, and LiP were found to degrade MC, and MnP-Tween 80 decreased MC levels by about 65% after a 24-h treatment. MC was converted into methoxychlor olefin (MCO) and 4,4'-dimethoxybenzophenone by MnP-Tween 80 or laccase-HBT treatment. These results indicate that ligninolytic enzymes from white-rot fungi can catalyze the oxidative dechlorination of MC. Moreover, a metabolite MCO was also degraded by MnP-Tween 80 or laccase-HBT treatment.     

稻秆负荷与pH对稻秆厌氧发酵产酸系统启动过程的影响

为探讨稻秆负荷（即稻秆VS/污泥VSS）与发酵pH对稻秆厌氧发酵产酸系统启动过程产挥发性脂肪酸（VFAs）效果的影响,利用厌氧搅拌罐反应系统考察在不同的稻秆负荷（0.556、0.945、1.334和1.724 g/g）和不同的发酵pH（8.0、9.0和10.0）启动运行条件下的产酸性能,并分析了系统启动过程产酸与稻秆主要成分降解之间的关系。实验结果表明,VFAs浓度随稻秆负荷提高而增大,随发酵pH的升高而降低;发酵18 d时,发酵pH为9.0时,稻秆负荷1.334 g/g的产酸效果最好,VFAs浓度与稻秆产酸量分别为4 385.10 mg/L和2.19 gVFAs/g稻秆,此时半纤维素、纤维素和酸性洗涤木质素降解率分别为32.69%、22.53%和6.40%;稻秆负荷为0.945 g/g条件下,VFAs浓度在pH为8.0时达到最高值4 409.51 mg/L,此时稻秆降解量也最多,半纤维素、纤维素和酸性洗涤木质素降解率分别为28.60%、47.32%和22.69%。研究表明,稻秆负荷与发酵pH通过影响稻秆半纤维素、纤维素和木质素的降解影响稻秆厌氧发酵产酸的进程和效果。     

Influence of surfactants on solubilization and fungal degradation of fluorene

Eighteen fungal strains were tested in toxicity assays with surfactants in order to select surfactants and strains tolerant to surfactants for degradation assays. Two nonionic surfactants were used, an alkylphenol ethoxylate, Triton X-100, a sorbitan ester, Tween 80 and an anionic surfactant, sodium dodecyl sulfate. Solubilization and biodegradation tests were conducted in liquid medium batch; fluorene was quantified by HPLC. Results showed the enhancement of fluorene solubilization by the three surfactants, good tolerance of nonionic surfactants by the fungal strains and the enhancement of the biodegradation of fluorene by Doratomyces stemonitis (46-62%) and Penicillium chrysogenum (28-61%) in the presence of Tween 80 (0.324 mM) after 2 days.     

Lignin modifying enzymes of Coriolopsis polyzona and their role in olive oil mill wastewaters decolourisation

In order to decolourise olive oil mill wastewaters (OOMW) efficiently, production and differential induction of ligninolytic enzymes by the white rot Coriolopsis polyzona, were studied by varying growth media composition and/or inducer addition. Among various possible inducers, veratryl alcohol appeared to be the most efficient to enhance specific productions of lignin peroxidase (LiP), manganese peroxidase (MnP) and laccase by a factor of 18.5, 20.8 and 55, respectively. Ligninolytic enzymes were better produced in glucose based medium with a low nitrogen level (2.2 mM) under O2 atmosphere. The addition of 5 mM veratryl alcohol resulted in a maximal production of LiP, whereas maximal MnP and laccase were obtained at 10 mM. LiP production was totally repressed in presence of 100 microM Mn2+. The extrapolation of these conditions on OOMW based media was carried out at different effluent dilutions and the possible role of the different ligninolytic enzymes in OOMW decolourisation was studied. A better effluent decolourisation was obtained under LiP induction condition (5 mM veratryl alcohol) than when LiP was repressed (100 microM Mn2+). Furthermore, high levels of laccase had a detrimental effect on OOMW decolourisation concomitant to the formation of soluble polymeric aromatic compounds.     

Decolorization of palm oil mill effluent using growing cultures of Curvularia clavata

Agricultural wastewater that produces color are of environmental and health concern as colored effluent can produce toxic and carcinogenic by-products. From this study, batch culture optimization using response surface methods indicated that the fungus isolated from the pineapple solid waste, Curvularia clavata was able to decolorize sterile palm oil mill effluent (POME) which is mainly associated with polyphenol and lignin. Results showed successful decolorization of POME up to 80 % (initial ADMI [American Dye Manufacturing Index] of 3,793) with 54 % contributed by biosorption and 46 % by biodegradation after 5 days of treatment. Analysis using HPLC and GC-MS showed the degradation of color causing compound such as 3-methoxyphenyl isothiocynate and the production of new metabolites. Ecotoxicity test indicated that the decolorized effluent is safe for discharge. To determine the longevity of the fungus for a prolonged decolorization period, sequential batch decolorization studies were carried out. The results showed that lignin peroxidase and laccase were the main ligninolytic enzymes involved in the degradation of color. Carboxymethyl cellulase (CMCase) and xylanase activities were also detected suggesting possible roles of the enzymes in promoting growth of the fungus which consequently contributed to improved decolorization of POME. In conclusion, the ability of C. clavata in treating color of POME indicated that C. clavata is of potential use for decolorization and degradation of agricultural wastewater containing polyphenolic compounds.     

Mycelial growth and solid-state fermentation of lignocellulosic waste by white-rot fungus Phanerochaete chrysosporium under lead stress

Lignocellulosic biomass is an abundant renewable resource difficult to degrade. Its bioconversion plays important roles in carbon cycles in nature, which may be influenced by heavy metals in environment. Mycelial growth and the degradation of lignocellulosic waste by lignin-degrading fungus Phanerochaete chrysosporium under lead stress were studied. It was shown that P. chrysosporium could grow in liquid media with 400 mg L?1 Pb(II), and mycelial dry weight was reduced by 54% compared to the control. Yellow mycelia in irregular short-strip shape formed in Pb-containing media, whereas the control showed ivory-white regular mycelial pellets. Two possible responses to Pb stress were: dense hyphae, and secretion from mycelia to resist Pb. During solid-state fermentation of straw, fungal colonization capability under Pb stress was positively correlated with the removal efficiency of soluble-exchangeable Pb when its content was higher than 8.2 mg kg?1 dry mass. Carboxymethyl cellulase activity and cellulose degradation were inhibited at different Pb concentrations, whereas low Pb concentrations increased xylanase and ligninolytic enzyme activities and the hemicellulose and lignin degradation. Cluster analyses indicated that Pb had similar effects on the different microbial indexes related to lignin and hemicellulose degradation. The present findings will advance the understandings of lignocellulose degradation by fungi under Pb pollution, which could provide useful references for developing metal-polluted waste biotreatment technology.     

Uptake of polycyclic aromatic hydrocarbons by Trifolium pretense L. from water in the presence of a nonionic surfactant

A greenhouse study examined plant uptake of phenanthrene and pyrene, as representatives of polycyclic aromatic hydrocarbons (PAHs), from an aqueous solution containing a nonionic surfactant Tween 80. The uptake was conducted with 1.0 mg l(-1) phenanthrene and 0.12 mg l(-1) pyrene under a wide range of Tween 80 concentrations (0-105.6 mg l(-1)). Tween 80 at the test concentrations did not show any apparent phytotoxity toward the growth of red clover (Trifolium pretense L.). At concentrations generally lower than 13.2 mg l(-1), Tween 80 enhanced the plant uptake based on the concentrations and PCFs (plant concentration factors) of these two PAHs. When present at higher concentrations, Tween 80 inhibited the uptake of both PAH compounds by the tested plant. The maximal plant uptake was observed at 6.6 mg l(-1) Tween 80, in which PAH concentrations and PCFs were 18-115% higher than those in Tween 80-free controls. The total mass removal (off-take) of phenanthrene and pyrene by root or shoot increased initially and decreased thereafter with the increase in Tween 80 concentrations. Although shoot biomass was evidently larger than root, the off-take was much higher in root than shoot because of the larger root concentrations of these chemicals. Results from this study show promises for the potential efficacy of enhanced phytoremediation in PAH contaminated sites using surfactant amendment.     

Study on biodegradation process of lignin by FTIR and DSC

The biodegradation process of lignin by Penicillium simplicissimum was studied to reveal the lignin biodegradation mechanisms. The biodegradation products of lignin were detected using Fourier transform infrared spectroscopy (FTIR), UV–Vis spectrophotometer, different scanning calorimeter (DSC), and stereoscopic microscope. The analysis of FTIR spectrum showed the cleavage of various ether linkages (1,365 and 1,110 cm^?1), oxidation, and demethylation (2,847 cm^?1) by comparing the different peak values in the corresponding curve of each sample. Moreover, the differences (T_m and ΔH_m values) between the DSC curves indirectly verified the FTIR analysis of biodegradation process. In addition, the effects of adding hydrogen peroxide (H₂O₂) to lignin biodegradation process were analyzed, which indicated that H₂O₂ could accelerate the secretion of the MnP and LiP and improve the enzymes activity. What is more, lignin peroxidase and manganese peroxidase catalyzed the lignin degradation effectively only when H₂O₂ was presented.