F. Glombitza scite author profile

The iron-oxidizing microbial community in two pilot plants for the treatment of acid mine water was monitored to investigate the influence of different process parameters such as pH, iron concentration, and retention time on the stability of the system to evaluate the applicability of this treatment technology on an industrial scale. The dynamics of the microbial populations were followed using T-RFLP (terminal restriction fragment length polymorphism) over a period of several months. For a more precise quantification, two TaqMan assays specific for the two prominent groups were developed and the relative abundance of these taxa in the iron-oxidizing community was verified by real-time PCR. The investigations revealed that the iron-oxidizing community was clearly dominated by two groups of Betaproteobacteria affiliated with the poorly known and not yet recognized species "Ferrovum myxofaciens" and with strains related to Gallionella ferruginea, respectively. These taxa dominated the microbial community during the whole investigation period and accelerated the oxidation of ferrous iron despite the changing characteristics of mine waters flowing into the plants. Thus, it is assumed that the treatment technology can also be applied to other mine sites and that these organisms play a crucial role in such treatment systems.

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Chemical and microbiological solubilization of silicates

Friedrich¹,

Платонова²,

Karavaiko³

et al. 1991

Acta Biotechnologica

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The solubilization of silicates was investigated using kaolin and quartz sand as model substances. The mineral solubilization was studied in the concentration of solubilized Si and Al. The chemical leaching of the silicates was carried out using inorganic and organic acids as well as sodium hydroxide. The process was more effective in the alkine than in the acid p H range. In the acid medinm, oxalic acid showed maximum acidity and a tendency to form complex structures, especially with aluminium, and was most effective in leaching. The microbiological influence on solubilization reactions was tested using a number of microorganisms among them acid, alkali and slime-forming species. The highest. leaching activity was observed in the case of Thiobucillus thiooxiduns, whereas the heterotrophic microorganisms (among them Bacillus muciluginosus) did not exercise D solubilizing effect on the silicates. X-ray phase analysis of leached kaolin samples did not show any differences from the non-leached mineral.

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Treatment of acid lignite mine flooding water by means of microbial sulfate reduction

Glombitza

2001

Waste Management

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Metal-Containing Residues from Industry and in the Environment: Geobiotechnological Urban Mining

Glombitza

Reichel

2013

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This chapter explains the manifold geobiotechnological possibilities to separate industrial valuable metals from various industrial residues and stored waste products of the past. In addition to an overview of the different microbially catalyzed chemical reactions applicable for a separation of metals and details of published studies, results of many individual investigations from various research projects are described. These concern the separation of rare earth elements from phosphorous production slags, the attempts of tin leaching from mining flotation residues, the separation of metals from spent catalysts, or the treatment of ashes as valuable metal-containing material. The residues of environmental technologies are integrated into this overview as well. The description of the different known microbial processes offers starting points for suitable and new technologies. In addition to the application of chemolithoautotrophic microorganisms the use of heterotrophic microorganisms is explained.

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F. Glombitza

Bacterial Diversity in a Mine Water Treatment Plant

Population Dynamics of Iron-Oxidizing Communities in Pilot Plants for the Treatment of Acid Mine Waters

Chemical and microbiological solubilization of silicates

Treatment of acid lignite mine flooding water by means of microbial sulfate reduction

Metal-Containing Residues from Industry and in the Environment: Geobiotechnological Urban Mining

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