2008年, 第18卷, 第06期　刊出日期：2008-06-25

  

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Basic Research of Bioleaching Microorganisms
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  Microbial community structure and function in sulfide ore bioleaching systems

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  中国有色金属学报（英文版）. 2008, 18(06): 1295-1301.

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  The severe current situation facing to minerals processing is that the most minerals are characterized by low-grade, being complex and very hard to deal with. It is necessary to find a new way to solve these questions. Nowadays, biohydrometallurgy draw more and more attention because of its simple process, low cost and kindness to environment. However, the lack of suitable bacteria and hard research on the mechanisms between the bacteria and ores or bacteria in gene level result in the low efficiency and poor yield of the target metal in bioleaching. Therefore, the understanding of the microbial community structure and function in the bioleaching systems is very important for the optimization of microbial community by controlling the operating conditions in bioleaching systems, thus enhancing the leaching rate. A review is given on the achievements and progress related to the study on microbial community structure and function in sulfide ore bioleaching systems made in our research group.
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  How will biomining be applied in future?

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  中国有色金属学报（英文版）. 2008, 18(06): 1302-1310.

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  This paper reviews the current status of commercial biomining operations around the world, identifies factors that drive the selection of biomining as a processing technology, describes challenges to exploiting these innovations, and concludes with a discussion of biomining’s future. Biomining is commercially applied using engineered dumps, heaps and stirred tanks. Overcoming the technical challenges of lowering costs, processing low-grade, low-quality and complex ores and utilizing existing capital investments at mines requires better understanding of microbial activities and innovative engineering. Surmounting biomining commercial challenges entails improved mining company/biomining innovator cooperation and intellectual property control.
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  High level arsenic resistance in bacteria present in biooxidation tanks used to treat gold-bearing arsenopyrite concentrates: A review

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  中国有色金属学报（英文版）. 2008, 18(06): 1311-1318.

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  The microbial consortium used in continuous-flow, stirred tank processes to treat gold-bearing arsenopyrite concentrates became adapted to high concentrations of arsenic over a number of years. The dominant microorganisms, Acidithiobacillus caldus and Leptospirillum ferriphilum, were found to contain two sets of arsenic resistance genes. One set of ars genes was present in all isolates of a species irrespective of whether they were highly arsenic resistant or not. A second set of ars genes was present on Tn21-like transposons and was found in all strains tested that had been adapted to high concentrations of arsenic. The arsenic resistance transposons present in At. caldus and L. ferriphilum were closely related, but sufficiently different for them to have been acquired independently rather than having been passed from one bacterium to the other. The transposons were transpositionally active in Escherchia coli and were shown to confer higher levels of arsenic resistance than the chromosomally-located ars genes where it was possible to test this. Transposons containing arsenic resistance genes that were identical or closely related to the transposon from L. ferriphilum, originally found in South Africa, were also found in both L. ferrooxidans and L. ferriphilum isolates from South America and Europe. An arsB gene knockout of At. caldus was produced by homologous recombination that demonstrated both the ability of the chromosomal ars genes to confer low levels of arsenic resistance in At. caldus and the development of a genetic system for the creation of knock-out mutants.
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  Development and application of functional gene arrays for microbial community analysis

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  中国有色金属学报（英文版）. 2008, 18(06): 1319-1327.

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  Functional gene markers can provide important information about functional gene diversity and potential activity of microbial communities. Although microarray technology has been successfully applied to study gene expression for pure cultures, simple, and artificial microbial communities, adapting such a technology to analyze complex microbial communities still presents a lot of challenges in terms of design, sample preparation, and data analysis. This work is focused on the development and application of functional gene arrays (FGAs) to target key functional gene markers for microbial community studies. A few key issues specifically related to FGAs, such as oligonucleotide probe design, nucleic acid extraction and purification, data analysis, specificity, sensitivity, and quantitative capability are discussed in detail. Recent studies have demonstrated that FGAs can provide specific, sensitive, and potentially quantitative information about microbial communities from a variety of natural environments and controlled ecosystems. This technology is expected to revolutionize the analysis of microbial communities, and link microbial structure to ecosystem functioning.
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   BioMinE:
  An integrated project for developing biohydrometallurgy in Europe —Executive summary of its activities and outputs after three years

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  中国有色金属学报（英文版）. 2008, 18(06): 1328-1335.

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  Biohydrometallurgy is the offspring of the unexpected union of biotechnology and metallurgy. From specific properties of some extreme biotopes, active principles of interactions between microbial metabolisms and minerals have been extracted to be used as efficient metallurgical processes. Many profitable industrial operations based on these bioprocesses have been running to recover copper, gold, uranium or cobalt for instance and many other applications have been designed. Europe was quite active in this area in the past, but currently the leadership is in South Africa, America and Australia. BioMinE (Biotechnology of Metal-bearing material In Europe) is a large integrated project launched with the support of the European Commision. It is aimed at stimulating synergies between the most relevant universities, research and industrial organizations to develop new concepts in this technical field that allow a better exploitation of the mineral resources in the future. The European non-ferrous metals mining industry has initiated and developed the BioMinE project as they identified the need to find new processes for metal extraction from resources of today and of tomorrow.
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  Comparative study on biosorption of Pb(Ⅱ) and Cr(Ⅵ) by
  Synechococcus sp.

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  中国有色金属学报（英文版）. 2008, 18(06): 1336-1342.

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  The comparative study on adsorptions of Pb(Ⅱ) and Cr(Ⅵ) ions by free cells and immobilized cells of Synechococcus sp. was performed, in which different aspects including Zeta potential of the cells, the influence of pH, temperature and initial concentration of metal ions, as well as adsorption kinetics and mechanism were referred. The lyophilized free cells have a surface isoelectric point at pH 3, and the correlative experiment indicates that there is an electrostatic adsorption feature of Cr(Ⅵ) and Pb(Ⅱ). The immobilization of the free cells by Ca-alginate does not significantly modify the adsorption features of the biosorbent. The absorption processes of Cr(Ⅵ) and Pb(Ⅱ) on both free and immobilized cells are apparently affected by pH and the initial concentration of metal ions in the bulk solution, but are much weakly affected by temperature in the test range of 10−50 ℃. The slow course of biosorption follows the first order kinetic model, the adsorption of Pb(Ⅱ) obeys both Langmuir and Freundlich isotherm models, while the adsorption of Cr(Ⅵ) obeys only Freundlich model. FT-IR results indicate that carboxylic, alcoholic, amide and amino groups are responsible for the binding of the metal ions, and reduction of Cr(Ⅵ) to Cr(Ⅲ) takes place after Cr(Ⅵ) adsorbs electrostatically onto the surface of the biosorbents.
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  Development and evaluation of whole-genome oligonucleotide array for Acidithiobacillus ferrooxidans ATCC 23270

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  中国有色金属学报（英文版）. 2008, 18(06): 1343-1351.

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  To effectively monitor the characteristic of Acidithiobacillus ferrooxidans ATCC 23270 at the whole-genomic level, a whole-genome 50-mer-based oligonucleotide microarray was developed based on the 3 217 ORFs of A. ferrooxidans ATCC 23270 genome. Based on artificial oligonucleotide probes, the results showed that the optimal hybridization temperature was 45 ℃. Specificity tests with the purified PCR amplifications of 5 genes (Sulfide-quinone reductase, Cytochrome C, Iron oxidase, Mercuric resistance protein, Nitrogenase iron protein) of A. ferrooxidans ATCC 23270 indicated that the probes on the arrays appeared to be specific to their corresponding target genes. Based on the WGA hybridization to global transcriptional difference of A. ferrooxidans ATCC 23270 strains cultured with Fe(Ⅱ) and S(0), the developed 50-mer WGA could be used for global transcriptome analysis of A. ferrooxidans ATCC 23270. The detection limit was estimated to be approximately 5 ng with the genomic DNA, and at 100 ng of the DNA concentration, all of the signals reached the saturation. In addition, strong linear relationships were observed between hybridization signal intensity and the target DNA concentrations (r²=0.977 and 0.992). The results indicated that this technology had potential as a specific, sensitive and quantitative tool for detection and identification of the strain A. ferrooxidans ATCC 23270 at the whole-genome level.
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  Microbial aspects of acid mine drainage and its bioremediation

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  中国有色金属学报（英文版）. 2008, 18(06): 1352-1360.

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  The role of chemolithotrophs such as Acidithiobacillus ferrooxidans, Acidithiobacillus thiooxidans and Leptospirillum ferrooxidans which were isolated from some abandoned mines and processed waste tailings in the generation of acid mine drainage and toxic metal dissolution was discussed. Mechanisms of acid formation and dissolution of copper, zinc, iron and arsenic from copper, lead-zinc and arsenopyrite-bearing sulfide ores and tailings were established in the presence of Acidithiobacillus group of bacteria. Sulphate Reducing Bacteria(SRB) isolated from the above mine sites could be used to precipitate dissolved metals such as copper, zinc, iron and arsenic. Arsenic bioremediation was demonstrated through the use of native microorganisms such Thiomonas spp. which could oxidize arsenite to arsenate. Bioremoval of arsenic through the use of jarosite precipitates generated by Acidithiobacillus ferrooxidans and Leptospirillum ferrooxidans was also found to be very effective. Biotechnological processes  hold great promise in the remediation of acid mine drainage and efficient removal of toxic metal ions such as copper, zinc and arsenic.
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  Expression, purification and molecular modeling of
  iron-containing superoxide dismutase from Acidithiobacillus ferrooxidans

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  中国有色金属学报（英文版）. 2008, 18(06): 1361-1366.

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  The superoxide dismutase(SOD) from Acidithiobacillus ferrooxidans may play an important role in its tolerance to the extremely toxic and oxidative environment of bioleaching. This gene was cloned and then successfully expressed in Escherichia coli. The expressed protein was finally purified by one-step affinity chromatography to homogeneity and observed to be dimer according to SDS-PAGE and MALDI-TOF-MS. The metal content determination and optical spectra results of the recombinant protein confirmed that the protein was an iron-containing superoxide dismutase. Molecular modeling for the protein revealed that the iron atom was ligated by His26, His75, Asp158 and His162.
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  Biodiversity and interactions of acidophiles: Key to understanding and optimizing microbial processing of ores and concentrates

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  中国有色金属学报（英文版）. 2008, 18(06): 1367-1373.

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  Mining companies have become increasingly aware of the potential of microbiological approaches for recovering base and precious metals from low-grade ores, and for remediating acidic, metal-rich wastewaters that drain from both operating and abandoned mine sites. Biological systems offer a number of environmental and (sometimes) economical advantages over conventional approaches, such as pyrometallurgy, though their application is not appropriate in every situation. Mineral processing using micro-organisms has been exploited for extracting gold, copper, uranium and cobalt, and current developments are targeting other base metals. Recently, there has been a great increase in our knowledge and understanding of both the diversity of the microbiology of biomining environments, and of how the microorganisms interact with each other. The results from laboratory experiments which have simulated both stirred tank and heap bioreactor systems have shown that microbial consortia are more robust than pure cultures of mineral-oxidizing acidophiles, and also tend to be more effective at bioleaching and bio-oxidizing ores and concentrates. The paper presented a concise review of the nature and interactions of microbial consortia that are involved in the oxidation of sulfide minerals, and how these might be adapted to meet future challenges in biomining operations.
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  Growth and surface properties of new thermoacidophilic Archaea strain Acidianus manzaensis YN-25 grown on different substrates

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  中国有色金属学报（英文版）. 2008, 18(06): 1374-1378.

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  The growth and surface properties of new thermoacidophilic Archaea strain Acidianus manzaensis YN-25 isolated from an acid hot spring in Tengchong, Yunnan Province, China were investigated cultured on different substrates including soluble substrate ferrous sulfate and nonsoluble solid substrates S⁰, pyrite and chalcopyrite. The growth characteristics of the cells in each substrate were characterized with the changes in cell number, pH, E_h, and concentrations of Fe²⁺ or SO₄²⁻, or ratios of [Fe²⁺] to [Fe³⁺], and the surface properties were characterized and analyzed in terms of Zeta-potential, hydrophobicity, and surface FT-IR spectra of the cells. The results show that the cells grown on solid substrates have higher value of isoelectric points. They are more hydrophobic and express more surface proteins than ferrous sulfate grown cells.
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  Influence of different Fe sources and concentrations on formation of
  magnetosomes in Acidithiobacillus ferrooxidans

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  中国有色金属学报（英文版）. 2008, 18(06): 1379-1385.

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  The whole genome of strain Acidithiobacillus ferrooxidans ATCC 23270 was analyzed by bioinformatics and some homolog genes of functional ones in magnetotactic bacteria were available. To obtain further knowledge of the magnetosomes formation mechanisms of Acidithiobacillus ferrooxidans in response to different Fe sources and concentrations, temporal gene expression profiles of mpsA, magA, mamB and thy were examined by using Real-time quantitative reverse transcription-PCR. The microbial formation of magnetosomes and magnetotaxis was also studied under different Fe²⁺ concentration. The results indicated that ORF numbers of 1622, 0276, 1124 and 2572 of the ATCC 23270 were homologous with mpsA, thy, magA and mamB genes in magnetotactic bacteria. The expression levels of mpsA, magA and mamB were directly related to ferrous concentration, and the highest expression level at 150−200 mmol/L ferrous was gained. The number of magnetosomes in ATCC 23270 and the magnetotaxis of cells were significantly related to the expression level of these three genes, suggesting that these genes were related with the iron transport during the process of magnetosome formation in A. ferrooxidans.
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  Liquid-nitrogen cryopreservation of three kinds of
  autotrophicbioleaching bacteria

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  中国有色金属学报（英文版）. 2008, 18(06): 1386-1391.

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  Three kinds of autotrophic bioleaching bacteria strains, including mesophilic and acidophilic ferrous ion-oxidizing bacteria Acidithiobacillus ferrooxidans (A. ferrooxidans), mesophilic and acidophilic sulfur-oxidizing bacteria Acidithiobacillus thiooxidans (A. thiooxidans), and moderately thermophilic sulfur-oxidizing bacteria Acidianus brierleyi, were cryopreserved in liquid nitrogen and their ferrous ion- or sulfur-oxidizing activities were investigated and compared with the original ones. The results revealed that ferrous ion/sulfur oxidation activities of the strains were almost equal before and after cryopreservation. Glycerin was used as cryoprotective agent. In conclusion, liquid-nitrogen cryopreservation is a simple and effective method for autotrophic bioleaching microorganisms.
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  Repetitive sequence based polymerase chain reaction to
  differentiate close bacteria strains in acidic sites

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  中国有色金属学报（英文版）. 2008, 18(06): 1392-1397.

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  To study the diversity of bacteria strains newly isolated from several acid mine drainage(AMD) sites in China, repetitive sequence based polymerase chain reaction (rep-PCR), a well established technology for diversity analysis of closely related bacteria strains, was conducted on 30 strains of bacteria Leptospirillum ferriphilium, 8 strains of bacteria Acidithiobacillus ferrooxidans, as well as the Acidithiobacillus ferrooxidans type strain ATCC (American Type Culture Collection) 23270. The results showed that, using ERIC and BOX primer sets, rep-PCR produced highly discriminatory banding patterns. Phylogenetic analysis based on ERIC-PCR banding types was made and the results indicated that rep-PCR could be used as a rapid and highly discriminatory screening technique in studying bacterial diversity, especially in differentiating bacteria within one species in AMD.
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  Sulfur activation-related extracellular proteins of Acidithiobacillus ferrooxidans

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  中国有色金属学报（英文版）. 2008, 18(06): 1398-1402.

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  The fractions of the extracellular proteins of Acidithiobacillus ferrooxidans grown on two different energy substrates, elemental sulfur and ferrous sulfate, were selectively prepared with hot water treatment and distinctly shown by two-dimensional gel electrophoresis. Some protein spots with apparently higher abundance in sulfur energy substrate than in ferrous sulfate energy substrate were identified by using MALDI-TOF/TOF. Based on peptide mass fingerprints and bioinformatical analysis, the extracellular proteins were classified according to their functions as conjugal transfer protein, pilin, vacJ lipoprotein, polysaccharide deacetylase family protein, Ser/Thr protein phosphatase family protein and hypothetical proteins. Several extracellular proteins were found abundant in thiol groups and with CXXC functional motif, these proteins may be directly involved in the sulfur activation by use of their thiol group (Pr-SH) to bond the elemental sulfur.
Interaction in Bioleaching of Sulfide Minerals
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  Leptosririllum ferrooxidans-sulfide mineral interactions with reference to bioflotation nad bioflocculation

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  中国有色金属学报（英文版）. 2008, 18(06): 1403-1409.

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  The adhesion of ferrous ions grown Leptospirillum ferrooxidans cells on pyrite and chalcopyrite minerals was investigated through adsorption, Zeta-potential and diffuse reflectance FT-IR measurements. The influence of bacterial species on minerals floatability was determined by Hallimond flotation tests while the flocculation behaviour was examined by Turbiscan measurements. The minerals iso-electric point (pH 6.5−7.5) after interaction with bacterial cells shifted towards cells iso-electric point (pH 3.3), indicating the chemical nature of cells adsorption on mineral surfaces. The FT-IR spectra of minerals treated with bacterial cells showed the presence of all the cell functional groups signifying cells adsorption. The bacterial cells adsorption on chalcopyrite was higher compared with pyrite, which agreed with cells greater depression effect on chalcopyrite flotation and pronounced flocculation behaviour in comparison with pyrite.
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  Bioleaching of anilite by Acidithiobacillus ferrooxidans

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  中国有色金属学报（英文版）. 2008, 18(06): 1410-1414.

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  In order to characterize the efficiency of copper bioleaching from anilite using pure cultures of Acidithiobacillus ferrooxidans in the absence and presence of ferrous sulphate, the experiments were carried out in shake flasks with or without 4 g/L ferrous sulphate (FeSO₄·7H₂O) at pH 2.0, 150 r/min and 35 ℃. The tests show that Acidithiobacillus ferrooxidans is unable to attack anilite in iron-free 9K medium. Anilite is rapidly oxidized by bacterial leaching when ferrous sulphate is added. Chemical oxidation of anilite is slow compared with Acidithiobacillus ferrooxidans initiated solubilization in the presence of iron. The EDAX analysis of the surfaces of anilite confirms that sulfur coating layer is present as a reaction product on the surface of the bacterially leached mineral.
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  Bioleaching of pyrite by A. ferrooxidans and L. ferriphilum

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  中国有色金属学报（英文版）. 2008, 18(06): 1415-1415.

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  Pyrite oxidation rates were examined under various conditions in the presence of A. ferrooxidans and L. ferriphilum, in which different pulp concentration, inoculation amount, external addition of Fe³⁺ and initial pH value were performed. It is found that A. ferrooxidans and L. ferriphilum show similar behaviors in the bioleaching process. The increasing pulp concentration decreases the leaching rate of iron, and external addition of high concentration Fe³⁺ is also adverse to leaching pyrite. The increased inoculation amount and high initial pH value are beneficial to leaching pyrite, and these changed conditions bring more obvious effects on leaching pyrite by L. ferriphilum than by A. ferrooxidans. The results also show that adjusting the pH values in leaching process baffles leaching pyrite due to the formed jarosite. Jarosite formed in leaching process was observed using XRD, SEM and energy spectrum analysis, and a considerable amount of debris with a crystalline morphology is present on the surface of pyrite. The results imply that the indirect action is more important for bioleaching pyrite.
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  Effects of microorganisms on surface properties of
  chalcopyrite and bioleaching

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  中国有色金属学报（英文版）. 2008, 18(06): 1421-1426.

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  The alteration of surface properties of chalcopyrite after biological conditioning with Acidithiobacillus ferrooxidans and Acidithiobacillus caldus was evaluated by Zeta-potential, adsorption studies, FT-IR spectra and contact angle measurement. The Zeta-potential studies show that the iso-electric point(IEP) of chalcopyrite after bacterial treatment moves towards the IEP of pure cells, indicating the adsorption of cells on chalcopyrite surface. The FT-IR spectra of chalcopyrite treated with bacterial cells show the presence of the cell functional groups signifying cells adsorption. Due to the formation of elemental sulfur and intermediate copper sulphides on chalcopyrite surface, the contact angle and surface hydrophobicity of chalcopyrite increase at the initial bioleaching stage. Chalcopyrite bioleaching by Acidithiobacillus ferrooxidans has higher copper extraction, which agrees with the fact that Acidithiobacillus ferrooxidans adsorbed on chalcopyrite surface is much more than Acidithiobacillus caldus. The results support the direct mechanism of sulfide oxidations in bioleaching chalcopyrite.
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  EPS-contact-leaching mechanism of chalcopyrite concentrates by
  A. ferrooxidans

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  中国有色金属学报（英文版）. 2008, 18(06): 1427-1432.

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  The effect of extracelluar polymeric substances(EPS) on the bioleaching chalcopyrite concentrates in the presence of iron- and sulphur-oxidizing bacteria (A. ferrooxidans) was studied. The bacterial number, pH, redox potential, and the concentrations of Fe²⁺and Cu²⁺ ions were investigated. The leached residues were analyzed by the X-ray diffraction and FT-IR. The results indicate that the EPS makes the bacteria adhere to the chalcopyrite surface easily and it is helpful for bacteria in disadvantageous environment. At the same time, EPS film layer with Fe³⁺ deposits on the surface of chalcopyrite and becomes a barrier of oxygen transfer to chalcopyrite to passivate chalcopyrite, and creates the high redox potential space through concentrating Fe³⁺ ions to accelerate bioleaching pyrite in chalcopyrite concentrates. The results suggest that EPS formation promotes bioleaching pyrite and inhibits bioleaching chalcopyrite, especially under high potential condition.
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  Bio-oxidation of arsenopyrite

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  中国有色金属学报（英文版）. 2008, 18(06): 1433-1438.

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  Oxidation of arsenopyrite with Acidithiobacillus ferrooxidans was studied. The electrochemical results show that arsenopyrite is firstly oxidized to As₂S₂ at the potential of 0.2−0.3 V (vs SHE) and As₂S₂ covers the electrode and retards the process continuously. While at higher potential over 0.3 V (vs SHE), As₂S₂ is oxidized to H₃AsO₃, and H₃AsO₃ is then oxidized to H₃AsO₄ at 0.8 V (vs SHE). The leaching results show that the addition of FeS₂ can promote the oxidation of As³⁺ to As⁵⁺ and increase the activity of the bacteria. The best bio-oxidation technical parameters are the initial pH of 1.8−2.0, particle sizes less than 0.074 mm, temperature in the range of 25−30 ℃ and rotating speed of the orbital incubator of 100−160 r/min. The results provide theoretical and technological supports of bio-oxidation arsenopyrite for pretreating refractory arsenic gold ores.
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  Microcalorimetric studies of interaction between
  extracellular polymeric substance and sulfide minerals

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  中国有色金属学报（英文版）. 2008, 18(06): 1439-1439.

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  Extracellular polymeric substance(EPS) seem to be important for bioleaching. For better control of the processes, the function of EPS of leaching bacteria is of crucial importance. Microcalorimetric measurement was used to study the three simulative components of EPS. The attachment of L-cysteine increases with its increasing concentration, which is Langmuir monomolecular layer adsorption. The attachment of glucose on pyrite is similar to mannose, which is not Langmuir monomolecular layer but multilayer adsorption. The results prove that the EPS mediates attachment and reacts with the sulphide surface and results in changed chemical properties of the mineral surface. It provides a new method to study the interaction between EPS and sulfide minerals.
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  Screening and characterization of Acidiphilium sp. PJH and its role in bioleaching

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  中国有色金属学报（英文版）. 2008, 18(06): 1443-1449.

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  A Gram-negative, facultative autotrophic bacterium strain PJH was isolated from the acidic mine drainages sampled in Dexing Mine, Jiangxi Province, China. The isolate grew in a pH range of 1.0−6.0, with pH and temperature optima of 3.5 and 40 ℃, respectively. Spectroscopic experiments show that strain PJH can synthesize polyhydroxybutyrate (PHB). A phylogenetic analysis based on 16S rRNA sequences shows that the isolate belongs to the genus Acidiphilium. Strain PJH has the capability of leaching chalcopyrite. Bioleaching experiments show that it can improve the leaching rate of chalcopyrite by 10.3% when mixed with L. ferriphilium YTW315 after 35 d. Strain PJH has the potential in application to bioleach chalcopyrite with other mesophilic leaching microbes.
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  Purification and enzymatic characteristics of cysteine desulfurase, IscS, in Acidithiobacillus ferrooxidans ATCC 23270

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  中国有色金属学报（英文版）. 2008, 18(06): 1450-1457.

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  A cysteine desulfurase protein, IscS, was encoded by the operon iscSUA in Acidithiobacillus ferrooxidans. The gene of IscS from Acidithiobacillus ferrooxidans ATCC 23270 was cloned and expressed in Escherichia coli. The protein was purified by one-step affinity chromatography to homogeneity. The final protein yield after affinity chromatography was 12.9%. The enzyme was characterized for thermal stability, pH and kinetic parameters. The molecular mass of recombinant IscS was 46 ku by SDS-PAGE. The optimum pH was 8.0−8.5. The enzyme had a temperature optimum at 30 ℃ and was relatively stable at 40 ℃, with 67% loss of activity. 1,5-I-AEDANS significantly inhibited IscS activity. Kinetic parameters K_m and V_max were found to be 0.11 mmol/L and 2.57 μmol/(L∙min).
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  Mechanism of electro-generating leaching of
  chalcopyrite-MnO₂ in presence of Acidithiobacillus thiooxidans

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  中国有色金属学报（英文版）. 2008, 18(06): 1458-1462.

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  A dual cell system with chalcopyrite anode and MnO₂ cathode was used to study the relations between time and such data as the electric quantity and the dissolution rates of the two minerals in the electro-generating leaching(EGL) and the bio-electro-generating leaching(BEGL), respectively. The results showed that the dissolution rates for Cu²⁺ and Fe²⁺ in BEGL were almost 2 times faster than those in EGL, and nearly 3 times for Mn²⁺; the electric output increased nearly by 3 times. The oxidation residue of chalcopyrite was represented by TEM and XRD, whose pattern was similar to that of the raw ore in EGL. The mechanism for leaching of CuFeS₂-MnO₂ in the presence of Acidithiobacillus thiooxidans was proposed as a successive reaction of two independent sub-processes for the anode. The first stage, common to both processes, is dissolution of chalcopyrite to produce Cu²⁺, Fe²⁺ and sulfur. The second stage is subsequent oxidization of sulfur only in BEGL, which is the controlling step of the process. However, the dissolution of MnO₂ lasts until the reaction of chalcopyrite stops or the ores exhaust in two types of leaching.
Bioleaching Technology
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  Simulated small-scale pilot heap leaching of low-grade copper sulfide ore with selective extraction of copper

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  中国有色金属学报（英文版）. 2008, 18(06): 1463-1467.

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  The bioleaching of low-grade copper sulfide ore and the selective extraction of copper were investigated. Lix984 dissolved in kerosene was used as extractant. The results show that it is possible to selectively leach copper from the ores by heap leaching. The copper concentration of leaching liquor after 250 d is 2.17 g/L, and the copper concentration is 0.27 g/L after solvent extraction. The leach liquor was subjected to solvent extraction, scrubbing and selective stripping for the enrichment of copper and the removal of impurities. The pregnant copper sulfate solution produced from the stripping cycle is suitable for copper electro-winning.
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  Bacterial leaching of chalcopyrite and bornite with native bioleaching microorganism

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  中国有色金属学报（英文版）. 2008, 18(06): 1468-1472.

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  A native mesophilic iron-oxidizing bacterium, Acidithiobacillus ferrooxidans, has been isolated (30 ℃) from a typical, lead-zinc concentrate of Dachang Mine in the region of Liuzhou located in the southwest of China. Two typical copper sulfide minerals, chalcopyrite and bornite, were from Meizhou Copper Mine in the region of Guangdong Province, China. Variation of pH and cell growth on time and effects of some factors such as temperature, inoculation cell number, and pulp density on the bioleaching of chalcopyrite and bornite were investigated. The results obtained from the bioleaching experiments indicate that the efficiency of copper extraction depends on all of the mentioned variables, especially the pulp density has more effect than the other factors on the microorganism. In addition, the results show that the maximum copper recovery was achieved using a mesophilic culture. The copper dissolution reached 51.34% for the chalcopyrite while it was 72.35% for the bornite at pH 2.0, initial Fe(Ⅱ) concentration 9 g/L and pulp density 5%, after 30 d.
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  A novel process for sorting fine-sized sulphide minerals by biocoagulation

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  中国有色金属学报（英文版）. 2008, 18(06): 1473-1479.

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  Based on a process design idea, investigations at Technical University of Berlin confirm that the biocoagulation of microorganisms and solid particles would be a new method to generate coarser particles suitable for sorting. The procedure of selective biocoagulation of microorganisms, e.g. yeasts like Saccharomyces cerevisiae and Yarrowia lipolytica respectively, and micro-dispersed solids, e.g. minerals like galena and sphalerite, has been analyzed as a basis for a novel sorting process. Therefore, especially the characteristics of the cell surface of the microorganisms, e.g. the electrostatic charge and the composition of extracellular polymeric substances, as well as their influence on the selective biocoagulation were studied. Experimental investigations show that the microorganisms and the sulphide particles below 10 µm coagulate effectively. Furthermore, the flotation is suitable for the separation of the selectively formed biocoagulates. With the designed column flotation, satisfying recovery rates are reached.
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  Bioleaching of low grade nickel sulfide mineral in column reactor

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  中国有色金属学报（英文版）. 2008, 18(06): 1480-1484.

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  Jinchuan low grade nickel (0.4%−0.6% Ni, mass fraction) sulfide mineral ore contains a remarkably high content of magnesia (30%−35% MgO, mass fraction) present in the main gangue minerals. Bioleaching was performed to investigate the feasibility to process the mineral due to its relative simplicity, eco-friendly operation and low capital cost requirements. The mixed mesophiles were enriched from acid mine drainage samples collected from several acid mines in China. Considering that the magnesia is easily extracted by acid solution and the excessive Mg²⁺ will exceed the tolerance of the mixed mesophiles, three effective means were used to reduce the disadvantage of magnesia during the bioleaching operation. They were adaptation of the mixed mesophiles to improve the tolerance; pre-leaching to remove most leachable magnesia and periodic bleeds of a portion of the pregnant leaching solution to control the level of Mg²⁺ based on the tolerance of the mixed mesophiles. An extraction of nickel (90.3%) and cobalt (88.6%) was successfully achieved within a 300 d leaching process from the Jinchuan low grade nickel sulfide mineral ore using a column reactor at ambient temperature.
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  Biohydrometallurgy applied to exploitation of black shale resources: Overview of Bioshale FP6 European project

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  中国有色金属学报（英文版）. 2008, 18(06): 1485-1490.

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  Bioshale project, co-funded by the European Commission (FP6 programme), started in October 2004 and finished in October 2007. The main objective of this project was to define innovative biotechnological processes for ”eco-efficient” exploitation of black shale ores. The black shale ores contain base, precious and high-tech metals but also high contents of organic matter that handicap metal recovery by conventional techniques. Three world class black shale deposits were chosen as targets of the R&D actions. These include one deposit that existed under natural conditions (Talvivaara, Finland), one currently in process (Lubin, Poland) and one after mining (Mansfeld, Germany). The main technical aspects of the work plan can be summarized as follows: evaluation of the geological resources and selection of metal-bearing components; selection of biological consortia to be tested for metal recovery; assessment of bioprocessing routes, including hydrometallurgical processing for metals recovery; techno-economic evaluation of new processes including social and environmental impacts. An overview of the main results obtained by the 13 European partners (from 8 countries) involved in this completed research programme is given in this work.
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  Bioleaching of chalcopyrite by pure and mixed culture

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  中国有色金属学报（英文版）. 2008, 18(06): 1491-1496.

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  The bioleaching of chalcopyrite in shake flasks was investigated by using pure Acidithiobacillus ferrooxidans and mixed culture isolated from the acid mine drainage in Yushui and Dabaoshan Copper Mine in China, marked as YS and DB, respectively. The mixed culture consisted mainly of Acidithiobacillus ferrooxidans, Acidithiobacillus thiooxidans, and Leptospirillum spp. (Leptospirillum ferriphilum and Leptospirillum ferrooxians). The results show that the mixed culture is more efficient than the pure Acidithiobacillus ferrooxidans because of the presence of the sulfur-oxidizing cultures that positively increase the dissolution rate and the recovery of copper from chalcopyrite. The pH value decreases with the decrease of chalcopyrite leaching rate, because of the formation of jarosite as a passivation layer on the mineral surface during bioleaching. In the bioleaching using the mixed culture, low pH is got from the sulfur oxidizing inhibiting, the formation of jarosite. The copper extraction reaches 46.27% in mixed culture and 30.37% in pure Acidithiobacillus ferrooxidans after leaching for 75 d.
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  Integrated waste and water management in mining and metallurgical industries

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  中国有色金属学报（英文版）. 2008, 18(06): 1497-1505.

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  Extractive operations usually co-produce large quantities of unmarketable materials (mineral wastes), most of which are conventionally discarded to dumps (coarse material) and tailings ponds (fines). Escalating cost and regulation worldwide highlight an increasing need for reduction and re-use of such wastes. The present paper introduces a new integrated waste management scheme for solids and water. The scheme was exemplified by novel treatment of synthetic waste and process water linked to the biohydrometallurgical processing of metal sulphide flotation concentrates. Bioleaching of sulphide concentrate leads to two types of solid waste: a ferrihydrite/gypsum precipitate from neutralisation of the bioleach liquor and un-leached gangue. The paper indicates that, depending upon the minor components involved, the solid phases in admixture might be usefully distributed among three types of product: conventional underground backfill, cemented civil engineering backfill (particularly controlled low strength material or CLSM) and manufactured soil. It emphasizes CLSM containing simulated mineral waste, showing that such material can exhibit the required characteristics of strength, porosity and permeability. When toxic components, e.g., arsenic from refractory gold ore, are present, encapsulation will be required. Process water is typically recycled as far as possible, although any excess should be treated before re-use or discharge. The paper also highlights treatment by reverse osmosis (one of the few methods able to generally remove dissolved components), particularly showing that arsenic in oxidation state +6 can be readily removed for discharge (＜50×10⁻¹² As), although additional ion exchange is needed for potable water (＜10×10⁻¹² As).
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  Dominance of Acidithiobacillus at ore surface of Zijinshan commercial low-grade copper bioleaching heap

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  中国有色金属学报（英文版）. 2008, 18(06): 1506-1512.

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  The microbial community structure in the ore surface of Zijinshan commercial low-grade copper bioleaching heap was investigated by 16S rRNA gene clone library. For both bacteria and Archaea, 105 clones were sequenced. The dominant bacteria species present in the ore surface were Acidithiobacillus and Leptospirillum, accounting for 51.42% and 48.57%, respectively. However, for the Archaea, only one operational taxonomic unit (OUT) belonged to Ferroplasma acidiphilum. These results indicate that function of genus Acidithiobacillus in the commercial low-grade copper bioleaching heap may be underestimated. More detailed and quantitative information on microbial community structure over time are now under investigation.
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  Two-stage precipitation process of iron and arsenic from acid leaching solutions

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  中国有色金属学报（英文版）. 2008, 18(06): 1513-1517.

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  A leaching process for base metals recovery often generates considerable amounts of impurities such as iron and arsenic into the solution. It is a challenge to separate the non-valuable metals into manageable and stable waste products for final disposal, without loosing the valuable constituents. Boliden Mineral AB has patented a two-stage precipitation process that gives a very clean iron-arsenic precipitate by a minimum of coprecipitation of base metals. The obtained product shows to have good sedimentation and filtration properties, which makes it easy to recover the iron-arsenic depleted solution by filtration and washing of the precipitate. Continuos bench scale tests have been done, showing the excellent results achieved by the two-stage precipitation process.
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  Effect of Cu²⁺ ions on bioleaching of marmatite

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  中国有色金属学报（英文版）. 2008, 18(06): 1518-1522.

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  The effect of Cu²⁺ ions on bioleaching of marmatite was investigated through shake leaching experiments. The bacteria inoculated are a mixed culture of Acidithiobacillus ferrooxidans, Acidithiobacillus thiooxidans and Lepthospirillum ferrooxidans. The results show that zinc is selectively leached, and the addition of appropriate content of Cu²⁺ ions has positive effect on the bioleaching of marmatite. SEM and EDX analyses of the leaching residue reveal that a product layer composed of iron sulfide, elemental sulfur and jarosite forms on the mineral surface. The biooxidation of elemental sulfur is catalyzed by the Cu²⁺ ions, which eliminate the barrier to bioleaching of marmatite and keep low pH value. With the addition of 0.5 g/L Cu²⁺ ions, the maximum zinc extraction rate reaches 73% after 23 d at the temperature of 30 ℃ with the pulp density of 10%, while that of iron is only about 10%.
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  Fractal analysis of granular ore media based on
  computed tomography image processing

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  中国有色金属学报（英文版）. 2008, 18(06): 1523-1523.

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  The cross-sectional images of nine groups of ore samples were obtained by X-ray computed tomography(CT) scanner. Based on CT image analysis, the fractal dimensions of solid matrix, pore space and matrix/pore interface of each sample were measured by using box counting method. The correlation of the three fractal dimensions with particle size, porosity, and seepage coefficient was investigated. The results show that for all images of these samples, the matrix phase has the highest dimension, followed by the pore phase, and the dimension of matrix-pore interface has the smallest value; the dimensions of matrix phase and matrix-pore interface are negatively and linearly correlated with porosity while the dimension of pore phase relates positively and linearly with porosity; the fractal dimension of matrix-pore interface relates negatively and linearly with seepage coefficient. Larger fractal dimension of matrix/pore interface indicates more irregular complicated channels for solution flow, resulting in low permeability.
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  Removal of SO₄²⁻, uranium and other heavy metal ions from simulated solution by sulfate reducing bacteria

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  中国有色金属学报（英文版）. 2008, 18(06): 1529-1532.

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  In the case of in-situ leaching of uranium, the primitive geochemical environment for groundwater is changed since leachant is injected into the water bearing uranium deposit. This increases the concentration of SO₄²⁻, uranium and other heavy metal ions and results in the groundwater contamination. The effects of pH values of the simulated solution on the reduction of SO₄²⁻ and the removal of uranium and other heavy metal ions by sulfate reducing bacteria(SRB) were studied. The results show that, when the pH value of the simulated solution is about 8, the reduction rate of SO₄²⁻ by SRB and the removal rate of uranium, Mn²⁺, Zn²⁺, Pb²⁺ and Fe²⁺ will reach their highest values. A bioremediation technique for remediation of groundwater in in-situ leaching uranium mine can be developed.