畜禽养殖污水中高效氨氮降解菌的筛选、鉴定及生长条件研究

从养殖污水中分离纯化得到1株高效氨氮降解菌,对其进行形态特征、生理生化、16S rDNA序列分析以及最佳生长条件研究,并将菌株投入养殖污水降解污水中的氨氮。结果表明：AN4菌株在NH4＋-N初始质量浓度为50 mg/L的条件下,24 h内的氨氮降解率为92.5%;初步鉴定该菌株为苍白杆菌属（Ochrobactrum sp.）,菌株的16S rDNA序列在Gen-Bank的登录号为GU345782;AN4菌株在装液量为60.64 mL,pH为7.06,葡萄糖为6.0 g/L的条件下培养,菌株的降解率可以达到94.28%;菌株对养殖污水中氨氮的降解率为12.3%。苍白杆菌菌属能够降畜禽养殖污水中的氨氮还未见报道,AN4菌株的筛选获得为生物降解养殖污水中的氨氮又提供了一种新型菌株。     

四环素高效降解酵母菌Trichosporon mycotoxinivoransXPY-10降解特性

Trichosporon mycotoxinivorans XPY-10是一株分离自抗生素制药厂的高效四环素降解酵母菌。为了建立该菌株降解四环素的适宜条件，分别研究了碳源、有机氮源、金属离子等营养物质及初始底物浓度、接种量、pH、温度、装液量、摇床转速等理化因素对菌体生长及四环素降解效率的影响。结果表明，菌株XPY-10生长的最适碳源和氮源分别为蔗糖和蛋白胨。在含有0.05% FeSO₄的培养基中，菌株XPY-10降解四环素的适宜条件为：接种量2%，pH 8，温度34℃，装液量100 mL（250 mL 三角瓶），摇床转速180 r/min。在此条件下，菌株XPY-10在7 d内对初始浓度为600 mg/L的四环素降解率为83.63%。本菌株对养殖废水及制药废水中四环素的污染治理有一定的应用前景。     

一株高效硝化菌的鉴定及其特性

本研究通过测定菌株ABT01在不同初始氮浓度、pH、C/N、温度和溶氧条件下对氨氮的去除效果,获得该菌株的最佳应用条件。实验结果表明,当初始氨氮浓度低于40 mg/L时,该菌株的氨氮去除率高达85%以上。该菌株最适脱氨氮条件均为：pH 5.0-7.0、C/N=5、35℃、摇床转速150 r/min（溶解氧5.1 mg/L）,氨氮去除率最高达96.8%。同时该菌株经16S rDNA测序、细胞壁脂肪酸组成等鉴定方法,确定ABT01为枯草芽孢杆菌（Bacillus subtilis）。研究表明,枯草芽孢杆菌ABT01具有较好的氨氮去除能力,对水产养殖水质调控有潜在的应用价值。     

四环素高效降解酵母菌Trichosporon mycotoxinivorans XPY-10降解特性

Trichosporon mycotoxinivorans XPY-10是一株分离自抗生素制药厂的高效四环素降解酵母菌。为了建立该菌株降解四环素的适宜条件，分别研究了碳源、有机氮源、金属离子等营养物质及初始底物浓度、接种量、pH、温度、装液量、摇床转速等理化因素对菌体生长及四环素降解效率的影响。结果表明，菌株XPY-10生长的最适碳源和氮源分别为蔗糖和蛋白胨。在含有0．05％FeSO4的培养基中，菌株XPY—10降解四环素的适宜条件为：接种量2％，pH8，温度3422，装液量100mL（250mL三角瓶），摇床转速180r／min。在此条件下，菌株XPY—10在7d内对初始浓度为600mg／L的四环素降解率为83．63％。本菌株对养殖废水及制药废水中四环素的污染治理有一定的应用前景。     

一株苯胺降解菌的分离及其降解特性

从某城市生活污水处理厂曝气池的活性污泥中分离出一株以苯胺为唯一碳源和氮源的高效降解菌Z1。通过16S r DNA基因序列分析,初步鉴定菌株。结果表明,菌株Z1为假单胞菌(Pseudomonas sp.)。该菌株最适生长和降解条件为p H 6.0~8.0、30℃、盐度0.1%~1.0%。在此条件下,16 h内能够将400 mg/L的苯胺降解完全,且当苯胺初始浓度为1 300 mg/L时,苯胺的最大降解速率为41.4 mg/(L·h),32 h内降解率达到98%。菌株对苯胺的最大耐受浓度为1 800mg/L。当苯胺和苯酚共存时,苯胺的降解效果随着苯酚浓度的增大而减小,当苯酚浓度达到370 mg/L时,Z1无法降解苯胺。添加氯化铵做外加氮源能解决高浓度苯酚和苯胺共降解的问题。在苯胺降解过程中大约有43%苯胺态氮转化成氨氮释放到环境中。     

一株菲降解菌的筛选及降解动力学分析

从克拉玛依油田附近稠油污染土壤中筛选出能以菲为唯一碳源的菲降解菌y-8,通过形态观察、生理生化特性及16SrDNA比对序列分析对该菌株进行了鉴定,确定菲降解菌y-8属于弯曲假单胞菌(Pseudomonas geniculata)。菲降解菌y-8在30℃、接种量2%(体积分数)、pH=7.0、170r/min的条件下振荡培养72h,对初始质量浓度为100mg/L菲的降解率达到93.7%,同时可耐受较高质量浓度的菲(3 000mg/L)。同时,对不同初始浓度菲降解动力学曲线进行分析,建立菌降解的指数模型,得到一级反应动力学方程:lnc=-0.045 1t+A(其中,c为菲质量浓度,mg/L;t为降解时间,h;A为常数),半减期为91.01h。     

高效阿特拉津降解菌株DNS10降解条件优化

从长期施用阿特拉津的寒地黑土耕层(0～10 cm)土壤中筛选到一株能以除草剂阿特拉津为氮源生长的降解菌株,结合16S rRNA序列分析结果,将该菌株命名为Arthrobacter sp.DNS10。在接种量为108CFU/mL的条件下,菌株DNS10在24 h内对100 mg/L阿特拉津的降解率为99.41%。单因子实验结果表明,菌株DNS10适宜生长和降解的条件范围是:温度25～35℃,pH值5.0～8.0,培养液盐度0.1%～2%,对阿特拉津最大耐受浓度可达1 200 mg/L。正交实验法进一步表明,该菌株保持较好生长及降解能力的最优方案是温度30℃,pH值7.5,培养液盐度0.5%。影响其降解能力的环境因素的主次顺序依次是:温度>盐度>pH值。     

一株具有荧蒽降解能力的产吲哚乙酸菌的筛选鉴定及其特性

从植物根际土壤中筛选出能分泌吲哚乙酸(3-indole acetic acid,IAA),并对荧蒽具有一定降解效果的菌株ZZ21。30℃、180 r/min摇床培养24 h,能产生39.81 mg/L IAA,静息细胞对50 mg/L荧蒽转化7 d后,降解率达25.61%。此外,该菌还耐盐碱,能解磷,在pH为10、含盐度为7%的LB培养基上能够生长,30℃培养72h对磷酸三钙液体培养基的溶磷量达120.86 mg/L。经形态学观察、部分生理生化特征测定以及16S rDNA的保守序列鉴定,初步确定该菌株为耐盐节杆菌(Arthrobacter pascens)。为促进菌株生长,提高菌株IAA产量,设定了基于培养时间、初始pH、通气量、温度、不同碳源和氮源的单因素菌株发酵条件优化实验,结果表明,促进菌株生长和提高IAA分泌的最佳培养条件并不完全一致,综合考量得到最佳发酵培养条件是初始pH为6,装液量为45 mL/150 mL,28℃摇床培养15 h,最佳碳、氮源分别是甘露醇和酵母粉。在最佳单因素优化条件下菌株产IAA能力最强可达92.31 mg/L。     

一株芴降解菌的分离鉴定及其对多环芳烃的降解广谱性研究

从某焦化厂活性污泥中筛选出一株芴的优势降解菌株W-1,经形态学观察、生理生化实验和16S rDNA基因序列分析,确定W-1为粪产碱杆菌.在接种量10%(V/V),初始芴浓度40 mg/L,pH 7.0,温度30℃的条件下,接种培养11 d后,菌株W-1对芴的降解效率达到87.8%.菌株W-1对多环芳烃的降解具有广谱性,...     

曝气量对悬浮系统单级自养脱氮性能的影响

通过连续实验和间歇实验研究了不同曝气量对SBR系统自养脱氮性能的影响。连续实验表明,在进水氨氮浓度为155～185 mg/L时,曝气量分别为20、28、36和44 L/h时,TN去除率分别为80%、82%、80%和77%;增大和减小曝气量均会降低系统的脱氮效率。间歇实验表明,随着曝气量的增加,氨氮的降解速率有所升高,20、28、36和44 L/h曝气条件下氨氮的降解速率分别为7.23、7.25、7.86和7.95 mg/(g MLVSS.h);在降解的过程中DO浓度一直维持在较低的水平(<0.5 mg/L),pH值则呈先升高后降低的趋势;氨氮降解结束时,pH值和DO浓度同时升高。结果表明,改变曝气量会影响单级自养脱氮反应的进程,但对降解过程DO浓度值变化不大;DO浓度和pH值变化对氨降解结束具有指示作用。     

一株反硝化细菌的分离鉴定及脱氮能力

本研究从水产养殖环境中分离出39株反硝化细菌，并从中筛选出具有较强反硝化能力的菌株DB-33，对其脱氮能力测定的结果表明，在培养基中亚硝酸盐氮浓度高达54．16mg／L，硝酸盐氮浓度高达306．91mg／L时，DB-33菌株对其去除率均达99％以上，且在去除过程中氨氮不累积；在模拟养殖水体中，DB-33可将亚硝酸盐氮和硝酸盐氮分别在24h和第3天彻底去除，对氨氮48h的去除率也可达51．52％。通过形态学特性和生理生化分析以及16SrDNA基因序列分析，菌株DB-33初步鉴定为施氏假单胞菌（Pseudomonasstutzeri）。     

微囊藻毒素-LR降解菌的筛选及降解特性研究

从上海市淀山湖表层水体中筛选分离出了1株降解微囊藻毒素-LR(MC-LR)的细菌并研究了其降解特性。根据细胞形态结构、生理生化特征及其16S rDNA基因序列分析,鉴定分离菌株DHU-28(GenBank序列登录号为HM047512)属嗜麦芽寡养单胞菌(Stenotrophomonas maltophilia)。微囊藻毒素降解实验结果表明,该菌株能在以MC-LR为唯一碳源、氮源的无机盐培养基中生长,6 d内可将初始质量浓度为15 mg/L的MC-LR降解为8.12 mg/L,降解效率达到45.9%。菌株DHU-28的最适生长温度是30℃,最适生长pH为7.0。酵母粉、蛋白胨、葡萄糖等营养物质可以明显促进菌株对MC-LR的降解效率,尤其是加入50 mg/L酵母粉后,6 d降解率达到63.2%。     

Studies on biodegradation of nicotine by Arthrobacter sp. strain HF-2

A nicotine-degrading bacterium, strain HF-2, was isolated from tobacco waste-contaminated soil and identified as a member of Arthrobacter sp. based on morphology, physiological tests, 16S rDNA sequence and phylogenetic characteristics. At thermal denaturation test indicated that the G + C mol% of strain HF-1 was 63.5. The relationship between the growth of the isolate and the nicotine degradation suggested that strain HF-2 could utilize nicotine as sole sources of carbon, nitrogen and energy. Blue pigment was observed during the nicotine degradation by strain HF-2. The isolate grew well at 20 to 33 degrees C, initial pH 6.5 to 8.0 and 0.5 to 2.0 g L-1 of nicotine concentration in the nicotine inorganic salt media. The maximum growth and nicotine degradation occurred at 30 degrees C, initial pH 7.0 and 0.7 g.L-1 of nicotine concentration in media under natural incubation condition. Strain HF-2 could degrade 100% of nicotine under the optimized incubation conditions for 43 h. The concentrations of nicotine were monitored by high performance liquid chromatography. This study demonstrates Arthrobacter sp. strain HF-2 had a great ability to degrade nicotine, and it may be available for the application to the bioremediation of environments contaminated by tobacco waste.     

Studies on Biodegradation of Nicotine by Arthrobacter sp. Strain HF-2

A nicotine-degrading bacterium, strain HF-2, was isolated from tobacco waste-contaminated soil and identified as a member of Arthrobacter sp. based on morphology, physiological tests, 16S rDNA sequence and phylogenetic characteristics. At thermal denaturation test indicated that the G + C mol% of strain HF-1 was 63.5. The relationship between the growth of the isolate and the nicotine degradation suggested that strain HF-2 could utilize nicotine as sole sources of carbon, nitrogen and energy. Blue pigment was observed during the nicotine degradation by strain HF-2. The isolate grew well at 20 to 33°C, initial pH 6.5 to 8.0 and 0.5 to 2.0 g L^?1 of nicotine concentration in the nicotine inorganic salt media. The maximum growth and nicotine degradation occurred at 30°C, initial pH 7.0 and 0.7 g·L^?1 of nicotine concentration in media under natural incubation condition. Strain HF-2 could degrade 100% of nicotine under the optimized incubation conditions for 43 h. The concentrations of nicotine were monitored by high performance liquid chromatography. This study demonstrates Arthrobacter sp. strain HF-2 had a great ability to degrade nicotine, and it may be available for the application to the bioremediation of environments contaminated by tobacco waste.     

高温好氧反硝化菌的分离鉴定及脱氮特性

从太原市某污水处理厂SBR活性污泥中分离纯化得到一株高温(50℃)好氧反硝化菌,命名为XF3。通过生理生化特性鉴定及16S rDNA序列分析,初步鉴定为波茨坦短芽孢杆菌。通过单因子实验考察碳源、C/N、pH及接种量对该菌株的生长情况与反硝化性能的影响。结果表明,菌株XF3最适碳源为琥珀酸钠,最佳C/N为12∶1,最佳pH为7,最适接种量10%(体积分数)。同时该菌株具有良好的异养硝化能力,48 h可以将73 mg/L氨氮几乎全部降解。     

耐盐性毒死蜱降解混合菌的构建及其降解特性

为明确蜡状芽孢杆菌(Bacillus cereus)混合菌株对毒死蜱的降解效果,采用正交实验的方法构建混合菌。以混合菌对毒死蜱的降解率和菌株的生长量为依据,利用单一因素实验考察了不同因素对混合菌降解毒死蜱的影响。结果表明:构建的混合菌中三菌株的体积比为1∶1∶3。在含80 mg/L毒死蜱的反应体系中,最适接菌量为8%(V/V),最适pH为7。在实验浓度下,混合菌对毒死蜱的降解符合一级动力学方程。混合菌对盐分有较高的耐受度,当反应液中氯化钠浓度在20～100 g/L之间时,混合菌对80 mg/L毒死蜱的降解率最高达61%。     

2株油烟降解优势菌株的筛选及性能研究

通过以油烟冷凝液为惟一碳源的选择培养基初筛，从长期受到油烟严重污染的土壤中筛选出具有降解油烟污染物能力的优势菌株XJ01、XJ03。研究了其最佳生长条件及降解性能，并对其进行了生理生化特征及分子生物学鉴定。研究表明，XJ01、XJ03最佳生长温度分别为35℃、30℃，最佳生长pH均为7，摇床转速均为120r／min，最佳降解时间分别为48h和36h；在最佳降解条件下，xJ01、XJ03总降解量分别达4．47113g／L和4．18ing／L，降解过程中，降解液pH值持续下降，生物量先增加后下降。经分子生物学鉴定，菌株XJ01、XJ03分别与铜绿假单胞菌群（Pseudomonasaeruginosagroup）和克雷伯氏菌属（Klebsiellasp．）同源性最高均达到100％。     

Biodegradation of beta-cypermethrin by a novel Azoarcus indigens strain HZ5

A novel strain HZ5 was isolated from the activated sludge of a pesticide manufacturer in Hangzhou, which was capable of degrading beta-cypermethrin (beta-CP). Based on its physiological characteristics and analysis of 16S rDNA gene, strain HZ5 was identified as Azoarcus indigens, which was a new genus that can degrade beta-CP effectively. Strain HZ5 could degrade beta-CP over a wide range of temperature (20 to 40°C) and pH (5.5 to 9.0), and the optimal temperature and pH were 30°C and 7.0. The highest degradation rate was approximately 70% of 50 mg/L beta-CP within 144 h at pH 7.0 and 30°C in MSM. An additional carbon source could enhance the biodegradation of beta-CP. Studies on biodegradation of the beta-CP showed no significant enantioselectivity. During the process, two main intermediate metabolites were produced by strain HZ5 and determined as 3-phenoxybenzaldehyde and 3-phenoxybenzoic acid by gas chromatography-mass spectrometry (GC-MS) analysis. The results indicated that strain HZ5 may have potential application in bioremediation of beta-CP polluted environment.     

Experimental assessment of bio-reduction of di-2-thylhexyl phthalate (DEHP) under aerobic thermophilic conditions

The reduction of organic contaminants in sewage sludge is of great importance for a further sludge disposal or agricultural utilization. Laboratory scale batch experiments were performed to assess the potential use of the aerobic thermophilic treatment technique to reduce the concentration of difficult to degrade organic chemicals. Di-2-ethylhexyl phthalate (DEHP) was chosen as a model representative of these chemicals. The effect of the sludge temperature and aeration rate on the reduction of DEHP concentration as well as on the reduction of the organic dry solid (oDS) was investigated. With a specific air flow rate of 16 m3/m3.h and a thermophilic temperature of 63 degrees C it was possible to achieve up to 70% reduction of the DEHP concentration and 61% of oDS within 96 hours. The maximum degradation of the oDS matter occurred within the first 24 hours of operation whereby only little oDS was degraded afterward. During the experiments the reactor content was routinely monitored for pH, COD, along with the ammonia nitrogen and orthophosphate concentrations.