氯仿处理厌氧污泥发酵制氢中微生物多样性的解析

研究了不同浓度氯仿对厌氧污泥产氢及其微生物多样性的影响。在氯仿浓度为0.050%时,累积氢、氢气产率、VFA和总糖降解率均达到最大,分别为639mL、1.71molH2/mol消耗葡萄糖、2880mg/L和85%。利用PCR-DGGE技术对不同浓度氯仿处理的污泥样品中微生物多样性和种群结构进行分析显示,4个细菌克隆属于Clostridia,2个细菌克隆分别属于Acidobacteria和δ-proteobacteria,其他4个均属于不可培养细菌。Clostridia中的4个菌群均属产氢菌群,条带7中含有的细菌可能属于HPB。发酵产氢后的污泥样品C3(氯仿浓度=0.05%)中细菌类型主要有:Megasphaera sueciensis、Megasphaera paucivorans、Clostridium cellulosi、Clostridium sp.和不可培养细菌,为最适产氢群落结构。     

高效产氢菌株Enterococcus sp. LG1的分离及产氢特性

采用Hungate厌氧培养技术分别从厌氧污泥、好氧污泥及河底泥中分离出12株厌氧产氢细菌,并对其中的Enterococcus sp.LG1(注册号:EU258743)进行了研究.结果表明,该株细菌为专性厌氧菌,经革兰氏染色结果为阴性.通过16S rDNA碱基测序和比对证实,该菌株是目前尚未报道过的1个新菌种,初步确定其细菌学上的分类地位.同时,以灭菌预处理的污泥为底物培养基,对该菌的产氢能力及污泥发酵过程中底物性质变化(SCOD、可溶性蛋白质、总糖和pH值等)进行了探讨.实验结果显示,产氢茵Enterococcus sp.LG1的发酵过程中只有H2和CO2产生,无CH4产生.产气量最高为36.48 mL/g TCOD,氢气含量高达73.5%,为已报道文献中以污泥为底物发酵制氢中之最高.根据污泥发酵产物分析得知,该菌的发酵类行为典型的丁酸型发酵.     

五氯酚在污染沉积物泥浆固液两相中厌氧生物降解

研究了污染沉积物泥浆液、固两相五氯酚(PCP)厌氧生物降解.结果表明,投加10g·kg^-1厌氧颗粒污泥,经31d处理泥浆液、固两相PCP降解率达98.9%,平均降解速率达到80mg·kg^-1·d^-1,对照处理平均降解速率仅为4.4mg·kg^-1·d^-1,颗粒污泥生物强化作用明显.作为泥浆修复过程的调控因子,有机溶剂、共基质和表面活性剂对PCP降解效应不同,投加乙醇,可提高PCP解吸和降解速率,4d内两相PCP降解速率达到54.3mg·kg^-1·d^-1;而投加共基质和非离子表面活性剂乙二醇丁醚后,液、固两相PCP降解均出现迟滞,两者均不同程度地抑制PCP降解.     

山东省花生主产区土壤和花生籽粒中邻苯二甲酸酯的分布特征

在山东省四大花生主产区采集耕层土壤(0～20 cm)和花生籽粒,应用气相色谱测定样品中美国国家环保署(EPA)优先控制的6种邻苯二甲酸酯(PAEs)化合物的含量.结果表明: 山东省花生主产区土壤中6种PAEs化合物累计(∑PAEs)含量范围为0.34～2.81 mg·kg^-1,平均含量为1.22 mg·kg^-1;四大花生主产区土壤∑PAEs含量为：鲁中南山区＞鲁西平原＞胶东半岛＞鲁北平原;与美国土壤PAEs控制标准相比,山东省四大花生主产区土壤中的邻苯二甲酸正二丁酯(DBP)超标严重.花生籽粒中∑PAEs含量范围为0.17～0.66 mg·kg^-1,平均含量为0.34 mg·kg^-1,低于美国和欧洲的建议指标,健康风险很小.邻苯二甲酸二(2-乙基己基)酯(DEHP)和DBP在土壤和花生籽粒中占∑PAEs的百分比、检出率均较高,是主要的污染物组分.覆膜种植模式下土壤和花生籽粒中的∑PAEs显著高于露地种植模式.花生籽粒和土壤中的∑PAEs、DBP及DEHP存在显著正相关性,Pearson相关系数分别为0.786、0.747和0.511.     

一株高效降解木糖的耐酸、嗜热厌氧杆菌的生理特性及产物分析

【目的】分离高效降解木糖的嗜热厌氧杆菌菌株,用于发酵生产生物燃料乙醇,为后继的构建基因工程菌株及联合生物工艺提供材料。【方法】运用亨盖特厌氧操作技术从胜利油田油层采出液两年的富集样中分离到一株嗜热厌氧杆菌xyl-d。采用形态学观察、生理生化指标鉴定及基于16S rRNA的系统发育学分析确定其分类地位。【结果】菌株xyl-d为革兰氏阴性厌氧杆菌,菌体大小为(1.35-5.08)μm×(0.27-0.40)μm,单生、成对或成簇生长,芽胞圆形,端生。温度生长范围30-85℃(最适温度65℃);pH范围3.0-10.0(最适pH 7.5);NaCl浓度范围0%-4%(最适NaCl浓度2.0%)。发酵D-木糖的产物是乙醇、乙酸、CO2及少量的异丁醇、丙酸。菌株xyl-d的(G+C)mol%含量为45.6%,与热厌氧杆菌属模式菌株威吉利热厌氧杆菌(Thermoanaerobacter wiegelii)DSM10319T及嗜热乙醇杆菌(Thermoanaerobacter ethanolicus)DSM2246T的16S rRNA序列相似性均为99.3%。菌株利用D-木糖产乙醇的最佳初始pH为8.5;少量酵母粉能刺激生长并显著提高发酵D-木糖的产醇率,使乙醇成为主要的发酵产物;培养基中乙醇浓度达到7%(V/V)时菌体生长受到抑制,最佳生长条件下D-木糖的降解率可达91.37%,最佳产醇条件下发酵1摩尔D-木糖可产生1.29摩尔的乙醇。【结论】菌株xyl-d是从特殊生境(油藏)中分离到的一株高效降解D-木糖的耐酸、嗜热的厌氧杆菌,其为半纤维素降解产乙醇的联合生物工艺提供了菌源。     

导电碳颗粒促进污泥厌氧消化及微生物种间电子传递的研究进展

添加导电碳颗粒能够促进厌氧消化过程稳定性、底物降解率以及产沼气品质的同步提高。本文总结了以活性炭和生物炭为代表的导电碳颗粒对城市污泥厌氧消化的影响,探讨了导电碳颗粒促进城市污泥厌氧消化的机理,阐述了导电碳颗粒介导的微生物直接种间电子传递(Directinterspecies electrontransfer,DIET)在强化污泥厌氧消化中的作用机制,分析了复杂厌氧消化体系中微生物DIET互营关系的研究现状,同时对导电碳颗粒的物理化学特性及其对污泥厌氧消化产甲烷的影响进行了分析,最后对未来导电碳颗粒促进城市污泥厌氧消化的研究进行了展望。     

预处理对泔脚发酵产氢的强化研究

采用热(80℃,15 min)预处理的城市生活垃圾厌氧消化污泥为接种物,考察了不同预处理方法对泔脚中温(36℃)批式发酵产氢的影响。Gompertz模型拟合结果表明:微波850 W,4 min与pH9.0下预处理泔脚的发酵产氢延迟时间λ、最大比产氢率、产氢率、生物气中氢气的最高体积分数分别为:3.47 h,9.43 mL/(g.h),186.23 mL/g及46.0%时,具有更大的产氢优越性。泔脚的发酵产氢过程也是一个酸化过程,发酵产氢结束后,4个预处理方案的发酵产氢余物的pH在4.40~5.00之间,pH均有较大幅度的下降。     

厌氧E-MBR反应器在焦化废水处理中的微生物特性研究

【目的】将厌氧的膜生物反应器(MBR)与微生物燃料电池(MFC)耦合的厌氧电辅助膜生物反应器(E-MBR)应用于实际工业焦化废水处理。【方法】通过正交实验优化了反应器进水的培养条件为PO_4~(3–)14.3 mg/L、Fe~(2+)0.2 mg/L、Fe~(3+)0.1 mg/L、Co~(2+)0.1 mg/L和Mn~(2+)0.2 mg/L。在此条件下考察了该反应器对系统中有机污染物的去除效率及厌氧污泥的污泥特性、产电性能、胞外聚合物(EPS)、微生物群落结构及膜污染的影响。【结果】结果表明,与未优化的培养条件相比,工业焦化废水COD的去除率提高了23%;污泥浓度(MLSS)、比重、沉降速度增加,污泥体积指数(SVI)降低,表明污泥颗粒化及沉降性能提高;污泥中溶解性EPS (SMP)、松散态EPS (LB-EPS)及紧密结合态EPS (TB-EPS)这3种组分中的蛋白质与多糖的比例(P/C)分别降低0.12、0.25和0.16,表明污泥更易于被降解;厌氧污泥的产电性能增强;高通量分子测序结果表明,反应器中污泥的群落结构发生了明显的变化,优势菌群突出;经扫描电镜(SEM)对比结果表明,反应器阴极膜的污染情况也得到了一定的减缓。【结论】优化进水培养条件可以达到使反应器污水处理效率提高、清理周期缩短和运行更稳定等效果,对于工业废水处理技术的节能环保方面提供一定的理论依据。     

中高温污泥厌氧消化系统中微生物群落比较

【目的】结合中温与高温消化两者优势的两相厌氧消化工艺可能是推进污泥厌氧消化发展的重要方向,因此,探究和比较中温和高温污泥厌氧消化系统中微生物群落组成的异同具有重要意义。【方法】利用高通量测序技术检测中温和高温厌氧消化系统中细菌与古菌的16S r RNA基因序列信息和真菌的内转录间隔(ITS)序列信息,利用基因芯片(Geo Chip 5.0)检测病毒和病原菌致病基因的信息,以对比中温和高温条件下微生物群落在物种组成和功能基因层面上的异同。【结果】中温和高温条件下细菌和古菌在群落物种组成上存在显著差异,病毒和病原菌毒性基因也显著不同,而两种系统中真菌群落的物种组成相似且丰度相对较低。中温条件下产甲烷古菌和未分类微生物相对丰度较高,而高温条件下产酸及嗜热菌相对丰度较高,且高温消化后病毒和病原菌毒性基因相对丰度下降。微生物群落结构与COD、TS和VS有着显著相关性。【结论】微生物群落组成和功能基因在中高温的污泥厌氧消化系统中显著不同,从而解释了两个系统功能的差异。微生物群落的形成与进水参数相关,说明微生物对进水条件敏感。     

利用餐厨垃圾循环半连续厌氧发酵产氢研究

利用餐厨垃圾采用半连续厌氧发酵进行产氢的研究。实验结果表明以高温(100℃)预处理15 min的厌氧活性污泥为种泥,在温度37℃,pH 6.0左右,较宽的稀释率(1.0~4.0 d-1)范围内,均能较好的实现厌氧发酵产氢。在稀释率D=2.4 d-1下,流出液中乙醇、乙酸、丙酸、丁酸和戊酸的质量分数分别为5.6%、29.6%、5.4%、58.5%和0.9%,产氢过程属于典型的丁酸型发酵,最终氢气的体积分数可达60%,氢气的产生速率为5.49 m3/(m3.d)。将厌氧发酵液相产物作为稀释液返回到反应器中,反应器的产氢能力大幅度的提高,当回流比R=0.8时,最大产氢速率可达10.9 m3/(m3.d),最终氢气的含量可达65%,厌氧发酵反应器的产氢能力提高了约130%。     

Thermal and enzymatic pretreatment of sludge containing phthalate esters prior to mesophilic anaerobic digestion

The present study aimed at investigating the effect of thermal pretreatment of sludge at 70 degrees C on the anaerobic degradation of three commonly found phthalic acid esters (PAE): di-ethyl phthalate (DEP), di-butyl phthalate (DBP), and di-ethylhexyl phthalate (DEHP). Also, the enzymatic treatment at 28 degrees C with a commercial lipase was studied as a way to enhance PAE removal. Pretreatment at 70 degrees C of the sludge containing PAE negatively influenced the anaerobic biodegradability of phthalate esters at 37 degrees C. The observed reduction of PAE biodegradation rates after the thermal pretreatment was found to be proportional to the PAE solubility in water: the higher the solubility, the higher the percentage of the reduction (DEP > DBP > DEHP). PAE were slowly degraded during the pretreatment at 70 degrees C, yet this was probably due to physicochemical reactions than to microbial/biological activity. Therefore, thermal pretreatment of sludge containing PAE should be either avoided or combined with a treatment step focusing on PAE reduction. On the other hand, enzymatic treatment was very efficient in the removal of PAE. The enzymatic degradation of DBP, DEP, and DEHP could be one to two orders of magnitude faster than under normal mesophilic anaerobic conditions. Moreover, the enzymatic treatment resulted in the shortest half-life of DEHP in sludge reported so far. Our study further showed that enzymatic treatment with lipases can be applied to raw sludge and its efficiency does not depend on the solids concentration.     

Inhibition of Biogas Production by Alkyl Benzene Sulfonates (LAS) in a Screening Test for Anaerobic Biodegradability

The effect of the inoculum source on the digestion of linear alkylbenzene sulfonates (LAS) under anaerobic conditions has been investigated. The potential for primary and ultimate LAS biodegradation of anaerobic sludge samples obtained from wastewater treatment plants (WWTPs) of different geographical locations was studied applying a batch test system. It was found that only 4–22% of the LAS added to the batch anaerobic digesters was primarily transformed suggesting a poor primary degradation of the LAS molecule in anaerobic discontinuous systems. Regarding ultimate biodegradation, the addition of LAS to the batch anaerobic digesters caused a reduction on the extent of biogas production. Significant differences in the inhibition extent of the biogas production were observed (4–26%) depending on the sludge used as inoculum. Effect of the surfactant on the anaerobic microorganisms was correlated with its concentration in the aqueous phase. Sorption of LAS on anaerobic sludge affects its toxicity by depletion of the available fraction of the surfactant. LAS content on sludge was related to the total amount of calcium and magnesium extractable ions. The presence of divalent cations promote the association of LAS with anaerobic sludge reducing its bioavailability and the extent of its inhibitory effect on the biogas production.     

城市污泥和化肥对水稻土种植的通菜中邻苯二甲酸酯（PAEs）的影响

对水稻土施用城市污泥和化肥盆栽通菜,应用GC／MS联机检测技术对通菜中6种邻苯二甲酸酯化合物(PAEs)进行分析,探讨施肥对通菜中PAEs含量的影响,结果表明,各处理通菜中6种PAEs化合物的总含量(∑PAEs)在2．129～7.111mg·kg^-1之间,依次为广州污泥+化肥(7．111mg·kg^-1)>广州污泥(4．767mg·kg^-1)>佛山污泥(3;569mg·kg^-1)>佛山污泥+化肥(3．305mg·kg^-1)>化肥(2．638mg·kg^-1)>空白对照(2．129mg·kg^-1)。显示了施肥造成通菜中∑PAEs不同程度的提高,各处理通菜中的PAEs均以个别化合物为主,其中空白对照、化肥、佛山污泥和广州污泥处理的通菜中邻苯二甲酸丁基苄基酯(BBP)占∑PAEs的40％～81％。佛山污泥+化肥处理的通菜中邻苯二甲酸正二丁酯(DnBP)占∑PAEs的56％,而广州污泥+化肥处理的通菜中邻苯二甲酸丁基苄基酯(BBP)、邻苯二甲酸正二辛酯(DnOP)和邻苯二甲酸(2-乙基己基)酯(DEHP)各占∑PAEs的30％左右,通菜中∑PAEs和多数化合物的含量不同程度地大于其在根系中的含量。     

Biodegradation of phthalic acid esters (PAEs) in soil bioaugmented with acclimated activated sludge

The degradation characteristics of four phthalic acid esters (PAEs), i.e. di-methyl phthalate (DMP), di-ethyl phthalate (DEP), di-n-butyl phthalate (DBP) and di-n-octyl phthalate (DOP) in the soil augmented with acclimated sludge was investigated in order to assess the efficacy of bioaugmentation as a strategy for remediating PAEs-contaminated soil and correlate the degradation rate of PAEs with their alkyl chain length. The results demonstrated that PAEs with shorter alkyl chain, that is, DMP and DEP could be degraded more quickly than DBP and DOP. The degradation of four PAEs in the soil conformed to a first-order reaction kinetic equation. The half-lives of PAEs degradation decreased significantly with increasing carbon number of the alcohol moiety. Half-lives decreased from 2.29 days for DMP to 28.4 days for DOP when the carbon number of alkyl chain increased from one for DMP to eight for DOP. The degradation rate of PAEs and the corresponding half-lives could correlate with the alkyl chain length and their octanol–water partition coefficients (K_ow) quite well for the four PAEs tested in this study.     

Anaerobic biodegradation of sugar beet pulp

Sugar beet pulp is a by-product of sugar production and consists mainly of cellulose, hemicellulose and pectin. Its composition is suitable for biological degradation. A possible alternative for the utilization of this material (besides cattle feeding) can be anaerobic methanogenic degradation. It has an additional advantage – biogas production. Beet pulp was treated by a two-step anaerobic process. The first step consisted of hydrolysis andacidification. The second step was methanogenesis. In this paper, observation ofthe process of anaerobic degradation and determination of optimal parameters is discussed. A laboratory-scale model for sugar beet pulp anaerobic biodegradation was operated. Results of model performance have shown very good pulp digestion characteristics. In addition, high efficiency removal of organic matter was achieved. Methane yield was over 0.360 m³ kg^-1 dried pulp and excess sludge production was 0.094 g per gram COD added.     

Anaerobic degradation of phthalic acid esters during digestion of municipal solid waste under landfilling conditions

Anaerobic microorganisms in municipal solid waste samples from laboratory-scale landfill reactors and a pilot-plant biogas digestor were investigated with the aim of assessing their ability to transform four commercially used phthalic acid esters (PAEs) and phthalic acid (PA). The PAEs studied were diethyl phthalate (DEP), butylbenzyl phthalate (BBP), dibutyl phthalate (DBP) and bis(2-ethylhexyl) phthalate (DEHP). No biological transformation of DEHP could be detected in any of the experiments. Together with waste samples from the simulated landfilling conditions, the PAEs (except DEHP) were hydrolytically transformed to their corresponding monoesters. These accumulated as end products, and in most cases they were not further degraded. During incubation with waste from the biogas digestor, the PAEs (except DEHP) were completely degraded to methane and carbon dioxide. The influence of the landfill development phase on the transformations was investigated utilizing PA and DEP as model substances. We found that during both the intense and stable methanogenic (but not the acidogenic) phases, the microoganisms in the samples had the potential to transform PA. A shorter lag phase was observed for the PA transformation in the samples from the stable methanogenic phase as compared with earlier phases. This indicates an increased capacity to degrade PA during the aging phases of the municipal solid waste in landfills. No enhancement of the DEP transformation could be observed as conditions in the methanogenic landfill model changed over a year's time. The results indicate that microorganisms developing in a methanogenic landfill environment have a substantially lower potential to degrade PAEs compared with those developing in a biogas reactor.Abbreviations BBP butylbenzyl phthalate - DEHP bis(2-ethylhexyl) phthalate - CoA coenzyme A - DBP dibutyl phthalate - DEP diethyl phthalate - DS dry solids - MBeP monobenzyl phthalate - MBuP monobutyl phthalate - MEP monoethyl phthalate - MSW municipal solid waste - PA phthalic acid - PAE(s) phthalic acid ester(s) - VFA volatile fatty acids     

Anaerobic waste-activated sludge digestion-a bioconversion mechanism and kinetic model

The anaerobic bioconversion of raw and mechanically lysed waste-activated sludge was kinetically investigated. The hydrolysis of the biopolymers, such as protein, which leaked out from the biological sludge with ultrasonic lysis, was a first-order reaction in anaerobic digestion and the rate constant was much higher that the decay rate constant of the raw waste activated sludge. An anaerobic digestion model that is capable of evaluating the effect of the mechanical sludge lysis on digestive performance was developed. The present model includes four major biological processes-the release of intracellular matter with sludge lysis; hydrolysis of biopolymers to volatile acids; the degradation of various volatile acids to acetate; and the conversion of acetate and hydrogen to methane. Each process was assumed to follow first order kinetics. The model suggested that when the lysed waste-activated sludge was fed, the overall digestive performance remarkably increased in the two-phase system consisting of an acid forming process and a methanogenic process, which ensured the symbiotic growth of acetogenic and methanogenic bacteria. (c) 1993 Wiley & Sons, Inc.     

城市污泥与稻草堆肥中邻苯二甲酸酯（PAEs）的研究

将广州城市污泥与稻草进行翻堆、接菌-翻堆、连续通气和间歇通气4种方式的堆肥,应用GC／MS技术对堆肥中6种属于USEPA优控污染物的邻苯二甲酸醇化合物(PAEs)进行分析,探讨堆肥产物中PAEs的含量分布以及不同方式堆肥对PAEs的降解效果,结果表明,4种方式堆肥中PAEs总含量(∑PAEs)在9．815～17．832mg·kg^-1之间,依次为翻堆(17．832mg·kg^-1)>接菌-翻堆(13．927mg·kg^-1)>间隙通气(10．765mg·kg^-1)>连续通气(9．815mg·kg^-1),堆肥中PAEs以邻苯二甲酸正二辛酯(DhOP)为主,占∑PAEs的82．2％～89．696,不同方式堆肥中∑PAEs的降解率为连续通气(45．71％)>间隙通气(40．4696)>接菌-翻堆(22．97％)>翻堆(1．3796)(平均降解率为27．63％),其中邻苯二甲酸二乙醇(DEP)、邻苯二甲酸正二丁酯(DnBP)和邻苯二甲酸丁基苄基酯(BBP)的降解率分别为95．7696～98．6896、79．5696～99．46％和87．42％～98．42％;但邻苯二甲酸二甲酯(DMP)和邻苯二甲酸正二辛酯的含量反而增加,邻苯二甲酸(2-乙基己基)酯(DEHP)在所有堆肥中均未检出。     

Sludge minimisation technologies

The treatment and disposal of excess sludge represents a bottleneck of wastewater treatment plants all over the world, due to environmental, economic, social and legal factors. There is therefore a growing interest in developing technologies to reduce the wastewater sludge generation. The goal of this paper is to present the state-of-the-art of current minimisation techniques for reducing sludge production in biological wastewater treatment processes. An overview of the main technologies is given considering three different strategies: The first option is to reduce the production of sludge by introducing in the wastewater treatment stage additional stages with a lower cellular yield coefficient compared to the one corresponding to the activated sludge process (lysis-cryptic growth, uncoupling and maintenance metabolism, predation on bacteria, anaerobic treatment). The second choice is to act on the sludge stage. As anaerobic digestion is the main process in sewage sludge treatment for reducing and stabilising the organic solids, two possibilities can be considered: introducing a pre-treatment process before the anaerobic reaction (physical, chemical or biological pre-treatments), or modifying the digestion configuration (two-stage and temperature-phased anaerobic digestion, anoxic gas flotation). And, finally, the last minimisation strategy is the removal of the sludge generated in the activated sludge plant (incineration, gasification, pyrolysis, wet air oxidation, supercritical water oxidation).     

固定化微球降解土壤中PAEs效果及影响因素

旨为研究土壤邻苯二甲酸酯污染修复中,固定化微球降解土壤中邻苯二甲酸酯的效果及影响因素。以海藻酸钠为载体,采用包埋法对课题组前期提取的微小杆菌进行固定化,比较固定化微球和游离菌降解土壤中邻苯二甲酸酯(Phthalates esters,PAEs)的效果及pH、温度、重金属、无机盐等对降解菌降解目标物的影响。结果显示:(1)在土壤环境相同条件下,固定化微球对邻苯二甲酸二甲酯(Dimethyl ortho-phthalate,DMP)、邻苯二甲酸二正丁酯(Di-n-butyl ortho-phthalate,DnBP)和邻苯二甲酸二(2-乙基己)酯(Bis(2-ethylhexyl)ortho-phthalate,DEHP)的降解效果高于游离菌,DMP在7 d可降解完全,DnBP在10 d内可降解完全,DEHP在20 d降解率63.73%;而游离菌则在15 d内完全降解DMP,20 d内完全降解DnBP,DEHP在20 d降解率48.77%;(2)不同pH值时,固定化微球对DMP、DnBP、DEHP的降解率均高于游离菌,pH9时,固定化微球对于DMP、DnBP、DEHP的降解率最高分别为96.81%、89.39%、58.35%;(3)不同温度,固定化微球对DMP、DnBP、DEHP的降解率也均高于游离菌,温度为30℃时,固定化微球对于DMP、DnBP、DEHP的降解效率达到最高,分别为96.27%、89.19%、59.01%;(4)重金属使游离菌对DMP、DnBP、DEHP降解率下降较多,而使固定化微球对DMP、DnBP的降解率仅下降了16.35%、9.95%,DEHP不仅没有降低,反而增加2.49%,说明重金属对游离菌起到很强的抑制作用,但对于固定化微球的降解效果影响较小;(5)盐碱条件下,中性盐极大降低了游离菌和固定化微球降解DMP、DnBP、DEHP的降解能力,碱性盐和混合盐对降解菌影响较小,且增强了固定化微球对DnBP、DEHP的降解能力。固定化微球降解PAEs效果明显高于游离菌,对外界环境有更好的适应能力,且对重金属、无机盐污染环境有一定的抵御能力。