一株胶质芽胞杆菌对磷矿石风化作用的实验研究

以一株质芽孢杆菌为例研究实验条件下微生物对磷矿石的风化作用.以直接作用和间接作用的方式研究培养基中胶质芽孢杆菌对磷矿粉的风化作用,即在装有100目磷矿石粉的液体培养基中接种,研究该菌对磷矿石粉的直接风化作用;同时,将装有100目磷矿石粉的透析袋放入液体培养基中再接入该菌,研究其对磷矿石粉的间接风化作用.按不同时间取培养液上清液,过滤,用电感耦合等离子体发射光谱(ICP-OES)测定滤液中Ca2 、Mg2 、Na 、Mn2 、Al3 、Fe3 和K 等浓度,比色法测定水溶性P(Pws)和水溶性Si (Siws) 的含量;滤膜上的固体物称重并消解后,同上方法测定Ca2 、Mg2 、Na 、Mn2 、Al3 、Fe3 和K 等浓度以及Pws和Siws含量.此外,细菌风化作用后的矿物残渣用电子探针作表面微观形态分析和XRD矿物物相分析.结果表明:胶质芽孢杆菌对磷矿石粉风化的直接作用强度大于间接作用;对不同矿物的风化强度不同,对粘土矿物的风化作用较明显.提出细菌对磷矿石的风化作用源自细菌生长导致的机械破坏作用、胞外分泌物的生化降解作用以及多种因素之间的协同作用.     

细菌和真菌对复合污染模拟废水的处理研究

本文利用胶质芽孢杆菌(Bacillus mucilaginosus)和黑曲霉(Aspergillus niger)处理铜-苯酚(简称铜-酚)和镉-苯酚(简称镉-酚)这类有机-无机复合污染模拟废水,采用胶质芽孢杆菌和黑曲霉分别单独、联合或先后处理等5种方式,探讨了这两类菌体对复合污染模拟废水的处理效果及优化方法。结果表明,微生物对铜-酚废水的处理效果优于对镉-酚废水。对于铜-酚废水的处理表明,当废水中苯酚浓度为50~200 mg/L时,去除率可达80%以上,最高可达94.65%,其中铜的去除率较苯酚低;当模拟废水中铜浓度为30 mg/L时,可达最高去除率(60.02%)。微生物对镉-酚废水的处理表明,当废水中镉离子浓度为4 mg/L时,最高去除率为58.44%,苯酚的去除率一直保持在30%左右。     

胶质芽孢杆菌的胞外分泌物与细菌的解钾作用

研究了胶质芽孢杆菌(Bacillus mucilaginosus)KO1菌株在不同培养条件下,其荚膜多糖含量随时间的变化以及菌株在有氮、无氮培养基中的解钾作用。结果表明,尽管该菌在无氮培养条件下的菌体数量远小于有氮培养条件,但无氮培养条件下所提取的细菌多糖多于在有氮条件下培养所提取的细菌多糖;胶质芽孢杆菌在以添加钾长石粉或黑云母粉制作的无氮培养基中生长可形成大量多糖,采用丙酮法进行细菌培养液多糖提取,发现细菌培养的第3天所提多糖含量最高;胶质芽孢杆菌在以添加钾长石粉或黑云母粉制作的有氮培养基中生长亦可形成较多的多糖,且在细菌培养的第4天所提多糖含量最高;胶质芽孢杆菌在有氮条件下对含钾矿物的释钾率高于在无氮条件下的释钾率,这可能与该菌在有氮条件下生长更快、可产生较多菌体细胞有关。分析表明,该菌在有氮条件下产生的胞外糖蛋白高于在无氮条件下产生的胞外糖蛋白,蛋白质在细菌分解转化含钾矿物过程中可能发挥重要作用。     

胶质芽孢杆菌3027对钙基蒙脱石的矿物结构影响

粘土矿物在地球表层分布广泛,与微生物的交互作用十分常见。微生物能否通过除还原Fe(Ⅲ)之外的其他途径影响贫铁蒙脱石的结构与物相,成为粘土矿物与微生物交互作用的新问题。本研究选取胶质芽孢杆菌Bacillus mucilaginosus 3027与钙基蒙脱石在35℃、常压条件下进行交互作用实验,考察胶质芽孢杆菌生命活动对蒙脱石晶体结构的影响。实验定期取样进行pH值与体系总蛋白含量测试,并利用显微傅里叶变换红外光谱(micro-FTIR)、同步辐射X射线近边吸收结构(XANES)、X射线衍射(XRD)和扫描电镜(SEM)对最终产物进行矿物学表征。实验结果显示,胶质芽孢杆菌在蒙脱石矿物悬浊液中生长,代谢分泌大量有机酸导致体系pH值降低,使蒙脱石中Si元素溶出,并造成蒙脱石晶体结构中硅氧四面体对称性、O—H振动等发生变化,Fe配位八面体对称性下降,矿物表面出现边缘卷曲现象。在微生物作用后的矿物样品中,探测到新形成的α-石英物相,可能与微生物的活动密切相关。     

胶质芽孢杆菌－蒙脱石相互作用实验研究

利用硅酸盐细菌研究了微生物对硅酸盐矿物的分解作用。选取层状硅酸盐矿物蒙脱石在30℃与一株编号为3025的硅酸盐细菌B.mucilaginosus进行交互作用,并利用电感耦合等离子体发射光谱仪(ICP-AES)分析溶液中Si、Al、Mg离子的出溶量,利用X射线衍射(XRD)和显微红外光谱(Micro-FTIR)分析微生物作用后矿物物相和微结构变化。发现经硅酸盐细菌作用后,蒙脱石化学成分及晶体结构发生了细微变化,为微生物活动促进粘土矿物分解作用研究提供了实验和理论依据。     

伯克霍尔德菌作用下黑云母的风化作用——对次生矿物的初步研究

以黑云母为矿物材料,以伯克霍尔德菌为微生物材料进行了矿物风化的长期培养实验。用X射线衍射仪测定了小于1μm粒级的固相产物的矿物成分,用扫描电子显微镜/X射线能谱仪观察和测定了矿物形态和化学成分。结果表明,伯克霍尔德菌菌株8B不仅能加速黑云母的风化进程,而且能促进形成鳞片状和球状粘土矿物(很有可能分别是蛭石和蒙脱石)。通过对次生矿物形成过程的分析,认为蛭石是黑云母通过结构转变的方式而形成,其转化过程具继承型模式的特点;蒙脱石则可能是黑云母溶解后重新结晶而成,属于溶解-沉淀模式。     

龙葵+胶质芽孢杆菌修复Cd污染石墨尾矿试验研究

采用盆栽试验,分析龙葵+胶质芽孢杆菌的植物-微生物组合在修复石墨尾矿砂Cd污染的有效性.试验结果表明:接种芽孢杆菌可以一定程度降低土壤中的PH值,提升土壤中Cd的生物活性,将土壤中有效Cd的含量提高46.03％,使龙葵吸收的Cd浓度提高了23.53％;同时胶质芽孢杆菌还可以通过解磷、解钾作用促进龙葵的生长,使龙葵的单株...     

含钾矿粉对胶质芽孢杆菌分泌胞外多糖的影响

研究了不同实验条件下,含钾矿粉对胶质芽孢杆菌（Bacillus mucilaginosus）分泌胞外多糖的影响,以进一步揭示细 菌与矿物的相互作用机理。实验分别采用无矿（不加含钾矿粉）无钾（不含可溶性钾）、无矿有钾（有可溶性钾）、有矿（100 mL培养液加0.3 g含钾矿粉）无钾及有矿有钾4组培养基培养胶质芽孢杆菌,进行产胞外多糖的分析比较。研究发现,在有 钾长石粉但不含钾离子的培养条件下,胶质芽孢杆菌产生的多糖和蛋白质含量最高;在既有钾矿粉又有可溶性钾离子存在 的培养条件下,菌体产生的蛋白质和胞外多糖含量稍低;在无钾矿粉的条件下,无论有没有钾离子的两种培养基中,蛋白 质和多糖含量都很低。研究结果表明,有无钾矿粉的不同培养条件能够引起胶质芽孢杆菌分泌胞外多糖的单糖组成成分产 生明显差异,胶质芽孢杆菌胞外分泌物与细菌对含钾矿粉中钾的利用密切相关。     

胶质芽孢杆菌胞外多糖在肥料矿物分解转化中的作用

本文探讨了胶质芽孢杆菌胞外多糖在细菌分解转化矿物过程中的作用。将事先提取的胞外粗多糖按一定浓度梯度与矿粉混合,24 h后再次提取多糖称重,证实多糖与矿粉颗粒之间的吸附现象。计算结果表明,矿粉对多糖的吸附随多糖量的增加而呈较明显的增长,之后增幅逐渐趋于平缓。在无氮培养基中添加不同种类矿粉培养细菌,然后分别提取粗多糖和较纯多糖,发现矿物种类对胶质芽孢杆菌多糖的分泌有显著影响。添加含有细菌所需矿质养料的矿粉在培养液中,胞外多糖含量相对增高,说明细菌分泌胞外多糖受到矿物化学组成的影响,即细菌胞外多糖的产生与它们对矿物养料的需求和矿物的风化过程有密切联系。     

一株岩生真菌对方解石的风化作用

选用一株从碳酸盐岩表面分离的真菌,研究了实验条件下该真菌对方解石的风化作用.通过检测风化培养基与对照培养基的pH值、Ca2+浓度、挥发性代谢产物以及分析真菌一矿物相互作用过程中的矿物表面微观形态变化,研究该真菌对方解石的风化过程和作用机理.结果表明:在实验条件下该真菌对方解石具有较强的风化作用,风化培养基上清液中的Ca2+浓度分别是死菌对照的3.98倍和纯水对照的13.73倍;该真菌生长过程中会分泌有机酸和醇类等代谢产物,真菌和矿粉之间会形成菌体-矿物聚集体或复合体,促进方解石的风化.分析认为该真菌对方解石的风化作用包括机械破坏,代谢产物溶蚀、络合作用以及多种因素之间的协同作用.     

Study on the Flocculability of Metal Ions by Bacillus Mucilaginosus GY03 Strain

Inrecentyears,withtherapiddevelopmentofindustrialeconomy ,wastewaterisdischargedinhugevolumeandtheaccumulationofheavymetalionsinsoilsandwatersourcesisspeededuprapidly .Asaresult,waterpollutionhasbecomeadailydeterioratingproblem .Heavymetalsareeasytoenterthefoodchain ,therebyconstitutingagreatthreattothehealthofanimalsandhu manbeings .Therefore,howtoeffectivelyhandleheavymetalpollutionhasbecomeacommonat tractionformankind .Theroutineheavymetaltreatmentmethodsaremainlythechemical,phys icalandphy…     

Effect of Aspergillus niger on weathering of phosphorite rock

Weathering mechanism of phosphorite rock by Aspergillus niger has been studied. Ten strains of phosphate-solubilizing fungi were isolated from rhizosphere soils by using dilute plate method in solid inorganic phosphorus culture. According to the size of soluble phosphate circle in the medium, a strain of stronger phosphate-solubilizing fungus was acquired, which was identified as, Aspergillus niger using identification methods of morphology and ITS sequences comparison in Genbank. In liquid culture, incubation in static state, the weathering of apatite rock with the fungus by contrast method： putting apatite powder （200 mesh） in liquid culture medium of flask, inoculation fungus after autoclave （setting sterile control） for studying direct weathering process; putting dialysis bag with apatite powder （200 mesh） in liquid culture medium of flask, inoculation fungus after autoclave （setting sterile control） for studying indirect weathering process.     

Weathering of phosphorus-bearing mineral powder and calcium phosphate by Aspergillus niger

The weathering of phosphorus-bearing mineral powder(PBMP) and calcium phosphate(CP) by Aspergillus niger was compared,and the mechanism involved was analyzed for the comprehensive utilization of PBMP.The concentration of water-soluble phosphorus(WSP),Mg2+,and Ca2+at different culture times,microstructures of particles,and mineral compositions was examined by ultraviolet-visible spectrometer(UV),atomic absorption spectrometry(AAS),scanning electron microscopy(SEM),and X-ray diffraction(XRD).Results showed that the change in the concentrations of WSP,Mg2+,and Ca2+were related to the growth of A.niger and the different mineral compositions.Compared with CP,PBMP was weathered harder by fungi.Traces of the weathered mineral were found through SEM.CP not only showed traces of erosion damage but also appeared as a rhombohedron-like substance.The XRD test indicated that the weathering minerals can form water calcium oxalate.Further analysis revealed that the mechanism of PBMP and CP weathering by A.niger was the collaborative result of mycelium biomechanical effects and the acid-soluble role of acidic metabolites.The phosphorus dissolution rate of PBMP after 20 d was 46.83%,whereas that of CP after 12 d was 91.01%.The findings of this study are significant to the effective use of waste PBMP and to the exploitation of low-grade phosphate rock resources.     

Interactions between <Emphasis Type="Italic">Bacillus mucilaginosus</Emphasis> and silicate minerals (weathered adamellite and feldspar): Weathering rate,products, and reaction mechanisms

Bacillus mucilaginosus is a common soil bacterium,and usually used as a model bacterium in studying microbe-mineral interactions.Several reaction mechanisms of B.mucilaginosus weathering silicate minerals were proposed.However,the molecule mechanisms and detailed processes were still unclear.In this paper,bacterium-mineral interactions were studied in terms of variations in pH value over the experimental period,variations in mineral composition,weathering rates of silicate minerals and volatile metabolites in the culture medium,etc.,to further explore the bacterium-mineral interaction mechanisms.The results showed that B.mucilaginosus could enhance silicate mineral weathering obviously.The weathering rates were quite different for various kinds of silicate minerals,and the weathering rate of weathered adamellite could reach 150 mg/m2/d.Although B.mucilaginosus produced little acidic substance,pH in the microenvironment of bacterium-mineral complex might be far lower than that of the circumjacent environment;a large amount of acetic acid was found in the metabolites,and was likely to play an important role as a ligand.These results appear to suggest that acidolysis and ligand degradation are the main mechanisms of B.mucilaginosus dissolving silicate minerals,the formation of bacterium-mineral complexes is the necessary condition for the bacteria weathering silicate minerals,and extracelluar polysaccharides played important roles in bacterium-mineral interaction processes by forming bacterium-mineral complexes and maintaining the spe-cial physicochemical properties of microenvironment.     

Effect of Bacillus mucilaginosus on weathering of phosphorite and a preliminary analysis of bacterial proteins

The authors investigated the effect of Bacillus mucilaginosus on weathering of phosphorite. Analysis of different proteins was of significance in exploring the molecular biological mechanism in the bacterial weathering process. The concrete methods are described as follows： Mineral powder was put into liquid culture medium and B. mucilaginosus was incubated in the medium. The control （group） had no mineral powder in the medium. The treatments and controls were cultured simultaneously under the same condition. In a few days, the supernatant was filtrated, the main cations （Ca^2＋, Mg^2＋, Na^＋, Mn^2＋, Al^3＋, Fe^3＋, K^＋） were measured by ICP-OES, and the contents of water soluble phosphorus （Pws） and silicon （Siws） were determined by colorimetry. The residual solid was weighed on the filter paper, followed by digestion with concentrated HNO3. The concentrations of the main cations and Pws, Siws in the digest liquid were measured by using the method mentioned above. After the supernatant was centrifuged, the precipitation was used to analyze the protein differences between the treatment groups and the control groups by 2-dimentional gel electrophoresis （2-DE）. The experimental results showed that apatite and quartz were partially weathered, but kaolinite was dissolved completely. The population of bacteria increased when mineral powder was added in the liquid medium. Software analysis and comparison of the 2-DE pictures of bacterial proteins revealed 1134 visible protein spots in the treatment group, and 729 visible protein spots in the control group. To compare the bacterial protein expression contents of the treatment group with those of the control group, there were 496 different protein spots, including 214 protein spots which indicated that the protein contents increased, 75 protein spots were indicative of a decrease, and 207 proteins were newly synthesized. It is proposed that the increased bacterial contents may be related to some protein expression and activation after the     

烟曲霉对蛇纹石和橄榄石的风化作用

含镁硅酸盐矿物是重要自然资源,国内外大都采用传统的化学方法进行开发利用,而微生物法释放含镁硅酸盐矿物中镁和硅的研究还未见报道.试验采用摇瓶培养与对照结合的方法研究烟曲霉(Aspergillusfumigatus)对含镁硅酸盐矿物——蛇纹石和橄榄石的风化作用.试验采用ICP-OES测定第5、10、20、30 d培养液滤液...