微生物对芘和苯并[a]芘污染土壤的修复

将枯草芽孢杆菌、白腐真菌和分离筛选菌群分别用于芘和苯并[a]芘污染土壤的修复,比较其修复性能,并对表面活性物剂Tween80和葡萄糖对修复效果的影响规律做了初步探讨.结果表明,60 d时,枯草芽孢杆菌和分离筛选菌修复芘污染的土壤,芘的残留率分别为7.58%±0.59%和8.69%±61.35%,空白残留率为48.18%...     

活性污泥和生物膜中降解苯酚的酵母

从7个含酚废水生化处理厂的活性污泥或生物膜中分离出39株降解苯酚的酵母,它们均能以苯酚作为生长的唯一碳源,24小时内可将500ppm的苯酚去除90%以上。经鉴定,39株酵母分别属于两属三个种:热带假丝酵母(Candida tropicalis),皮状丝孢酵母(Trichosporon cutaneum)和乳头状丝孢酵母(Trichosporon capitatum)。不经诱导,在44—48小时内,热带假丝酵母314号最高生长的酚浓度和耐酚浓度分别约为1000ppm和1150ppm;皮状丝孢酵母25号约为800ppm和1000ppm;乳头状丝孢酵母115号约为750ppm和1450PPm。三种酵母在苯酚中生长的最适温度依次为30℃、25—30℃和25—36℃。它们生长的最适pH范围均为4.8—7.0。氰化物对这三种酵母的生长有明显的抑制作用。对含酚废水生化处理过程中的优势酵母等向题进行了讨论。     

Tween-80和鼠李糖脂对铜绿假单胞菌及枯草芽孢杆菌产蛋白酶的影响

研究了添加表面活性剂Tween-80和生物表面活性剂鼠李糖脂对从堆肥中筛选得到的铜绿假单胞菌和枯草芽孢杆菌生产蛋白酶的影响.用固态发酵的方法,对添加不同浓度的表面活性剂对这2种微生物产蛋白酶能力的影响、2种微生物产蛋白酶能力的差异以及发酵过程中的一些参数(包括菌体数、酶提取液表面张力、pH值和挥发性有机质)进行了考察.结果表明,Tween-80对铜绿假单胞菌和枯草芽孢杆菌产蛋白酶有较大促进作用,添加浓度为0.05%时,能分别使铜绿假单胞菌和枯草芽孢杆菌产蛋白酶最高酶活提高65%和30%;鼠李糖脂对铜绿假单胞菌产蛋白酶有轻微抑制作用,但能将枯草芽孢杆菌产蛋白酶,当添加浓度为0.018%时,鼠李糖脂能将枯草芽孢杆菌产蛋白酶最高酶活提高51%.铜绿假单胞菌产蛋白酶能力明显强于枯草芽孢杆菌,前者对照样的蛋白酶产量是后者对照样蛋白酶产量的6倍多.发酵过程中,铜绿假单胞菌酶提取液的表面张力明显低于枯草芽孢杆菌;添加表面活性剂对菌体生长有一定影响,但对pH值变化影响不大;挥发性有机质变化与微生物酶活成正相关关系.     

提高平菇深层培养木质素降解酶活性和对直接湖蓝5B脱色率的探索性研究

以稻草为主要营养基质对平菇进行深层培养,研究了不同浓度(100、200、400、600、800 mg·L-1)直接湖蓝5B对平菇菌丝体产量的影响,以及平菇对不同浓度(100、150、200、250、300、400 mg·L-1)直接湖蓝5B的脱色率.此外,还研究了平菇分别与3种酵母菌(酿酒酵母、产朊假丝酵母和热带假丝酵母)混菌培养及用不同浓度(50、100、200、300、400 mg·L-1)直接湖蓝5B预适应培养的平菇菌种对木质素降解酶活性和直接湖蓝5B脱色率的影响.结果表明:100~400 mg·L-1的直接湖蓝5B均可显著提高了平菇菌丝体产量,而800 mg·L-1的染料对菌丝体的生长有显著抑制作用;染料浓度越高,平菇对其的脱色率越低,发酵时间越长,脱色效果越好.与平菇单菌发酵相比,平菇分别与酿酒酵母和产朊假丝酵母混菌培养可显著提高发酵体系漆酶的活性,平菇分别与所试3种酵母菌混菌培养时锰过氧化物酶活性均有显著增加,与产朊假丝酵母混菌培养时两种酶活性的增加量最大;用50、100、200 mg·L-1直接湖蓝5B预适应培养的菌种接种可显著提高平菇分泌的漆酶的活性,而50mg·L-1和100 mg·L-1的则显著提高锰过氧化物酶的活性.平菇分别与所试3种酵母混菌培养,以及用50 mg·L-1和100 mg·L-1直接湖蓝5B预培养的平菇菌种接种,发酵体系对直接湖蓝5B的脱色效果有显著促进作用,其中,平菇与产朊假丝酵母混菌培养时脱色率最高,达96.3%.通过比较直接湖蓝5B脱色率与漆酶、锰过氧化物酶活性之间的关系可以看出,漆酶、锰过氧化物酶活性与脱色率间基本呈正相关关系.     

五株分离酵母菌的甘油酯和脂肪酸降解活性比较

比较了5株从环境中筛选得到的酵母菌[博伊丁假丝酵母(Candida boidinii Ramirez热带假丝酵母(Candida tropicalis),深红酵母(Rhodotorula rubra),产朊假丝酵母(Candida utilis),皮状丝孢酵母(Trichosporon Cutaneum)]对甘油酯和脂肪酸的降解活性.其中皮状丝孢酵母对甘油酯具有较高的降解活性,在7d的时间里对以甘油酯为主要成分的豆油去除率为47%;所有菌株均具有较高的脂肪酸降解活性,在1d的时间里对以脂肪酸为主要成分的色拉油加工废水的油去除率达50%～90%.5株酵母菌混合培养后对色拉油加工废水的油比降解速率明显提高,是单株菌的4～8倍.色拉油加工废水油去除率的进一步提高在于强化复合微生物体系中的甘油酯降解.     

餐厨垃圾好氧生物处理菌株的选育

文章以枯草芽孢杆菌、巨大芽孢杆菌等10株细菌为出发菌株,以耐高温、生长速度快、生物安全性、生物拮抗性以及产酶能力为筛选原则,从中筛选得到4株细菌,分别为:地衣芽孢杆菌(Bacillus licheniformis,TKFW1003)、巨大芽孢杆菌(Bacillus megaterium,TKFW1005)、纳豆芽孢杆菌(Bacillus natto,TKFW1102)、枯草芽孢杆菌(Bacillus subtilis,TKFW1108)。然后将筛选得到的4株细菌按10%的比例添加到30 L固态发酵罐中,再添加10%的麸皮和50%的水为辅料,对餐厨垃圾进行固态发酵处理。最后将固态发酵结束后得到的产品取出烘干粉碎,经检测:经好氧微生物处理后得到的产品,其有效活菌数、有机质含量、水分含量及蛔虫卵死亡率等指标均达到了农业部农用有机肥标准,此法实现了餐厨垃圾的无害化、资源化、减量化处理,具有生产成本低、无二次污染、可操作性强等优点。     

处理啤酒洗糟废水同时生产单细胞蛋白

用热带假丝酵母在 1.5L气升式内循环生物反应器中处理啤酒生产中的洗糟废水 ,同时生产热带假丝酵母 .探讨了 pH,温度及氮源对降解废水动力学的影响 .实验结果表明 ,用热带假丝酵母既可以有效地降解洗糟废水中的 COD,又可以产生一定数量可作单细胞蛋白的酵母 .对于含糖 0.3%左右的洗糟废水可获得约 500 mg/L(干重 )的酵母 ,并可使废水 COD降解约 80% .     

枯草芽孢杆菌对铜绿微囊藻抑制效果的研究

为探讨枯草芽孢杆菌(Bacillus subtilis)对铜绿微囊藻(Microcystis aeruginosa)的抑制效果,在实验室条件下,研究了枯草芽孢杆菌不同生长时期(延迟期、对数期、稳定期和衰亡期)无菌滤液对铜绿微囊藻生长的影响、枯草芽孢杆菌抑制铜绿微囊藻生长的作用方式以及无菌滤液影响下铜绿微囊藻丙二醛(MDA)含量、超氧化物歧化酶(SOD)活性和光合色素含量的变化.结果显示:枯草芽孢杆菌对数期、稳定期和衰亡期滤液抑藻效果明显好于延迟期,作用第8d,对铜绿微囊藻的去除率分别达到81.19%、91.41%、91.82%;4个处理组铜绿微囊藻的叶绿素a含量均显著低于对照组.添加稳定期滤液后,铜绿微囊藻MDA含量显著升高,SOD活性先升高后降低;在对光合色素的影响中,类胡萝卜素受到的影响不如叶绿素a显著.结果表明,枯草芽孢杆菌对铜绿微囊藻的抑制效果是通过分泌胞外物质实现的,且分泌物具有很强的热稳定性.推测该胞外分泌物能够破坏光合色素,影响光合作用,抑制藻细胞的生长;同时抑制SOD活性,使细胞膜脂过氧化程度不断加深,进而破坏藻细胞的完整性,表现出对藻很强的抑制效果.     

锰、砷对枯草芽孢杆菌铀富集的影响

通过单因素实验及多因素实验,研究了枯草芽孢杆菌对铀(U)、锰(Mn)和砷(As)的富集规律及锰、砷对铀富集的影响,并利用红外光谱(FTIR)分析其影响机理。研究表明:铀浓度>75 mg/L、锰浓度>25 mg/L或砷浓度>25 mg/L均会对枯草芽孢杆菌的生长产生明显的抑制;同时,铀、锰浓度在0~100 mg/L范围内其浓度与吸附率呈负相关,砷在0~100 mg/L范围内其吸附率先升高后降低的趋势,且75 mg/L时吸附率最高,达到86.09%。多因素实验发现,砷浓度低于60 mg/L时促进枯草芽孢杆菌富集铀,>80 mg/L则抑制。<40mg/L的锰增加铀的富集,浓度高于60 mg/L锰对其铀的吸附产生抑制作用。锰和砷通过抑制细菌生长、竞争菌体表面负点性基团、改变菌体物质特性等方式影响菌体对铀的吸附。     

酸性含硒含镉废水低温生物强化处理技术研究

本研究将枯草芽孢杆菌接种于活性污泥中,系统考察了酸性含硒含镉废水的低温生物强化处理效果.研究发现,活性污泥联合枯草芽孢杆菌对硒、镉的去除效率(Se:94.9%,Cd:99.1%)高于单一枯草芽孢杆菌(B菌)、混合枯草芽孢杆菌及活性污泥.影响因素试验结果表明,在20℃、pH 4.0、甲醇为碳源时生物强化硒、镉去除效率较高.利用SBR反应器处理酸性(pH 4.0)含硒(3.7～10.0 mg·L~(-1))含镉(5.0～11.2 mg·L~(-1))废水,在低温(8.0～10.8℃)条件下运行80个周期,硒、镉和COD的平均去除率分别为97.4%、90.7%和95.0%.红外光谱分析表明,酰胺基、芳香族C—H伸缩健在硒、镉去除中起到主要作用.透射电镜与能谱分析证实了生物强化污泥对硒、镉去除之后形成纳米颗粒物.通过高通量测序分析微生物群落结构,发现生物强化污泥中富集了Pseudomonas(假单胞菌属)、Dechloromonas(脱氯单胞菌)等典型硒还原菌.     

纳米材料对环境中微生物活性的影响研究

研究纳米材料对环境中微生物细胞活性的影响可为纳米材料的生物安全性评价提供一定的理论基础.以大肠杆菌和枯草芽孢杆菌为受试生物,采用电导率仪测定细菌培养液电导率变化,分别研究了纳米TiO2、纳米ZnO、纳米Fe3O4、纳米SiO2、纳米二氧化钛载银、纳米磷酸锆载银、纳米棕色银对细菌细胞膜通透性的影响.结果表明,纳米材料对革兰氏阳性枯草芽孢杆菌细胞活性影响更大;同种纳米材料,粒径越小,对细菌的细胞活性影响越强;对细菌细胞活性影响最大的是纳米棕色银,对细菌细胞活性影响最小的是纳米SiO2和Fe3O4.     

Biogenic volatile organic compound emissions from leaves and fruits of apple and peach trees during fruit development

Biogenic volatile organic compounds (BVOCs) are widely involved in a variety of atmospheric chemical processes due to their high reactivity and species diversity. To date, however, research on BVOCs in agroecosystems, particularly fruit trees, remains scarce despite their large cultivation area and economic interest. BVOC emissions from different organs (leaf or fruit) of apple and peach trees were investigated throughout the stages of fruit development (FS, fruit swelling; FC, fruit coloration; FM, fruit maturity; and FP, fruit postharvest) using a proton-transfer-reaction mass spectrometer. Results indicated that methanol was the most abundant compound emitted by the leaf (apple tree leaf 492.5 ± 47.9 ng/(g·hr), peach tree leaf 938.8 ±  154.5 ng/(g·hr)), followed by acetic acid and green leaf volatiles. Beside the above three compounds, acetaldehyde had an important contribution to the emissions from the fruit. Overall, the total BVOCs (sum of eight compounds studied in this paper) emitted by both leaf and fruit gradually decreased along the fruit development, although the effect was significant only for the leaf. The leaf (2020.8 ±  258.8 ng/(g·hr)) was a stronger BVOC emitter than the fruit (146.0 ± 45.7 ng/(g·hr)) (P = 0.006), and there were no significant differences in total BVOC emission rates between apple and peach trees. These findings contribute to our understanding on BVOC emissions from different plant organs and provide important insights into the variation of BVOC emissions across different fruit developmental stages.     

角蛋白酶产生菌的分离鉴定及其kerC的克隆表达

以四川农业大学养鸡场堆砌废弃羽毛处土壤为样品,筛选出一株具有较强降解羽毛能力的细菌B-3菌株.经形态学、生理生化特性和16S rRNA基因序列分析,鉴定其为枯草芽孢杆菌(Bacillus subtilis),命名为枯草芽孢杆菌B-3.并成功克隆到该菌株的角蛋白酶基因kerC(GenBank No.:JN021789),在大肠杆菌BL21(Escherichia coli BL21)中获得了高效表达.该基因全长1146bp,GC含量46.5%,编码381个氨基酸,与已报道的枯草芽孢杆菌YYW-1的kerC基因(GenBank No.: EU362730)同源性达到100%.重组菌株经IPTG诱导后角蛋白酶酶活力达14.8U/mL,经His-Tag纯化和SDS-PAGE分析表明,重组角蛋白酶分子量约为60kDa(融合了硫氧还蛋白,Trx).重组角蛋白酶最适反应温度和pH值分别为65℃与7.0.     

Effects of UV intensity and water turbidity on microbial indicator inactivation

The effects of UV intensity and turbidity on selected microbial indicator inactivation were investigated. Results showed that UV disinfection was effective in killing all the selected microbial indicators, the resistance order of the microorganisms was as follows： MS-2 coliphage 〉 Bacillus subtilis 〉 E. coil 〉 Staphylococcus aureus and Candida albicans. UV intensity had influence on the inactivation of all the microorganisms, high UV disinfection efficency was obtained with higher UV intensity. Turbidity had impact on the bacteria inactivation rate, but there was no evidence that turbidity had any negative contribution to MS-2 coliphage. Under the same UV dosage, higher UV intensity could overcome the negative influence of turbidity on UV performance, enhanced microorganism inactivation effect in turbidity water.     

Fungal contamination of stored automobile-fuels in a tropical environment

Because of the lack of reports, the base levels of microbial contamination on stored fuels are unknown in tropical regions and it is unclear whether these levels have some influence on fuel quality parameters. Therefore, fungal quality in automobile fuels stored across Costa Rican territory was evaluated during two years according to the standard ASTM D6974-04. For a total of 96 samples, counts and identification of molds and yeasts were performed on regular gas, premium gas and diesel taken from the bottom and superior part of the container tanks. The highest contamination was found on the bottom of the tanks, where an aqueous phase was usually identified, showing populations over the ones present in the hydrocarbon itself (up to 108 CFU/L). Diesel was the most contaminated fuel (up to 107 CFU/L); however, an alteration on the physicochemical parameters was not observed in any kind of fuel. Seventy-five mold strains were isolated, Penicillium sp. being the most common genus (45.8% of the samples), and ten yeast strains, from the genera Candida sp. and Rhodotorula sp. Four of the yeasts were able to grow on diesel as the sole carbon source, at concentrations ranging from 0.5% to 25%. Increasing the frequency of tank cleaning, adding antimicrobial agents and monitoring microbial populations are recommended strategies to improve microbial quality of stored fuels.     

Assessing dormant season organophosphate use in California almonds

Organophosphate (OP) pesticides were recommended during the dormant season to control overwintering insects such as peach twig borer, San Jose scale, European red mite, and brown mite in California almond and stone fruit orchards. However, since 1990, dormant OP use had fallen under increased scrutiny due to surface water contamination concerns. Studies have shown positive correlation between OP use and residue load in surface water. The purpose of this study is to assess the trends and regional patterns of OP use in almond orchards, and to identify factors that may have influenced those trends, including weather, pest pressure, and use of alternatives to OP such as pyrethroid, dormant oils, and Bacillus thuringiensis (Bt) for the assessment of the impacts to surface water quality. Pesticide use data from the California Department of Pesticide Regulation were analyzed. Regression analyses were used to assess trends from 1992 to 2000, and a geographic information system (GIS) was used to visualize the spatial variation in pesticide use. Results from this study indicated that, statewide, dormant OP use decreased while the use of some alternatives, such as dormant pyrethroid, no dormant insecticides, and in-season pyrethroid, oil alone, and Bt, increased in the last 9 years. The significant decreasing trend of OP use was observed for the measures of kilogram per hectare crop planted, percentage of total planted hectare treated, and numbers of growers who applied dormant OP. The reduction of dormant OP use appeared in all major almond-growing counties. Correlation analyses revealed that more rain was associated with less dormant OP use. A higher percent of almond damage, or rejects, was related to higher OP use in the following dormant season and in-season periods. However, the effects of weather and percent of nut rejects can only explain small portion of the variations in dormant OP use. Therefore, in addition to weather and pest pressures, economic pressures and various outreach and extension programs may also have played a role in encouraging farmers to reduce their use of dormant OP.     

精喹禾灵降解菌株Bacillus subtilis H的分离鉴定及降解特性

以精喹禾灵为唯一碳源,从长期受精喹禾灵污染土壤中分离筛选出一株精喹禾灵降解菌株H.通过形态观察、生理生化试验和16S rRNA基因序列分析,将菌株H鉴定为枯草芽孢杆菌（Bacillus subtilis ）.菌株H在温度为30~42℃和pH值7~9范围内,72h内对100mg/L精喹禾灵的降解率均可达95%以上.利用超高效液相色谱-质谱联用（UPLC-MS）鉴定菌株H降解精喹禾灵的产物为精喹禾灵酸.这是首次报道枯草芽孢杆菌对精喹禾灵的降解.     

土壤改良剂及其组合原位钝化果园土壤中的Pb、Cd

采用土壤改良剂及其组合,研究了重庆市金果园2个园区土壤中Pb、Cd的原位钝化效果.实验包括8种处理:对照、生石灰、过磷酸钙、有机肥、生石灰+过磷酸钙、生石灰+有机肥、过磷酸钙+有机肥、生石灰+过磷酸钙+有机肥.结果表明,除单施过磷酸钙外,其它改良剂处理都能降低枇杷园和桃园土壤酸度.与对照比较,单施生石灰可显著提高枇杷园和桃园土壤pH,处理120 d时土壤pH分别提高0.93和0.79个单位.改良剂处理均能降低土壤中Pb、Cd的生物有效性,进而降低果品中的Pb、Cd含量.配施生石灰和过磷酸钙可显著降低枇杷园和桃园土壤有效态Pb含量,处理150 d时分别下降3.46%和3.56%,枇杷和桃子中Pb含量分别下降18.3%和14.44%.单施生石灰可显著降低枇杷园土壤有效态Cd含量,处理150 d时下降10.95%;配施生石灰、过磷酸钙和有机肥能显著降低桃园土壤有效态Cd含量,处理150 d时下降7.09%.施加改良剂可进一步降低枇杷中的Cd含量,单施生石灰使枇杷和桃子中的Cd含量分别下降30.91%和24.62%.