Characterization of apparent sulfur oxidation activity of thermophilic archaea in bioleaching of chalcopyrite 被引量：5

古菌生物浸出黄铜矿过程中的表观硫氧化活性表征(英文)

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摘要 The apparent sulfur oxidation activities of four pure thermophilic archaea, Acidianus brierleyi （JCM 8954）, Metallosphaera sedula （YN 23）, Acidianus manzaensis （YN 25） and Sulfolobus metallicus （YN 24） and their mixture in bioleaching chalcopyrite were compared, which were characterized indirectly by the evolution of the cells concentration, pH value and sulfate ions concentration in solution. The results show that the mixed culture contributed significantly to the raising of leaching rate, which suggests that the mixed culture had a higher sulfur oxidation activity than the pure culture. Meanwhile, the results also indicate that the changes of parameters characterizing the sulfur oxidation activity of thermophilic archaea are often influenced by many factors, so it is hard to reflect accurately the specific sulfur oxidation activities among the different sulfur-oxidizing microbes when bioleaching chalcopyrite at different conditions. Accordingly, an efficient method to characterize microbial sulfur oxidation activity appears to be desirable. 对4株纯的极端嗜热古菌及它们的混合菌在生物浸出黄铜矿过程中的硫氧化活性进行对比研究。结果表明,混合菌比纯菌拥有更高的硫氧化活性,它大幅度促进黄铜矿浸出率的提高。表征嗜热古菌硫氧化活性的参数值通常受很多因素的影响,以致在不同的硫氧化菌和不同的条件下生物浸出黄铜矿时,这些参数很难准确地反映出相应的硫氧化活性。因此,期待找到一种能有效表征浸矿菌硫氧化活性的方法。

作者朱薇夏金兰彭安安聂珍媛邱冠周

机构地区中南大学资源加工与生物工程学院中南大学生物冶金教育部重点实验室

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2013年第8期2383-2388,共6页 中国有色金属学报（英文版）

基金 Project(50974140) supported by the National Natural Science Foundation of China Project(20090162110054) supported by Specialized Research Fund for the Doctoral Program of Higher Education of China

关键词 thermophilic archaea sulfur oxidation activity CHARACTERIZATION BIOLEACHING 嗜热古菌硫氧化活性表征生物浸出

分类号 TF18 [冶金工程—冶金物理化学]

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参考文献22

1张雁生,覃文庆,王军,甄世杰,杨聪仁,张建文,赖绍师,邱冠周.Bioleaching of chalcopyrite by pure and mixed culture[J].中国有色金属学会会刊：英文版,2008,18(6):1491-1496. 被引量：11
2BRIERLEY J A. Response of microbial systems to thermal stress in biooxidation-heap pretreatment of refractory gold ores [J]. Hydrometallurgy, 2003, 71(1-2): 13-19.
3MARHUAL N P, RADHAN N P, KAR R N, SUKLA L B, MISHRA B K. Differential bioleaching of copper by mesophilic and moderately thermophilic acidophilic consortium enriched from same copper mine water sample [J]. Bioresource Technology, 2008, 99(17) 8331-8336.
4PETERSEN J, DIXON D G. Thermophilic heap leaching of a chaleopyrite concentrates [J]. Minerals Engineering, 2002, 15(11): 777-785.
5RAWL1NGS D E. Microbially assisted dissolution of minerals and its use in the mining industry [J]. Pure and Applied Chemistry, 2004, 76(4): 847-859.
6VILCAEZ J, SUTO K, 1NOUE C. A numerical evolution on the viability of heap thermophilic bioleaching of chalcopyrite [J]. Water Dynamics, 2007, 898(1): 217-222.
7PRADHAN N, NATHSARMA K C, SR1NIVASA RAO K, SUKLA L B, MISHRA B K. Heap bioleaching of chalcopyrite: A review [J]. Minerals Engineering, 2008, 21(5): 355-365.
8GERICKE M, PINCHES A, VAN ROOYEN J V. Bioleaching of a chalcopyrite concentrate using an extremely thermophilic culture [J]. Intemational Journal of Mineral Processing, 2001, 62(1-4): 243-255.
9AUERNIK K S, COOPER C R, KELLY R M. Life in hot acid: Pathway analyses in extremely thermoacidophilic archaea [J]. Current Opinion in Biotechnology, 2008, 19(5): 445-453.
10PLUMB J J, MCSWEENEY N J, FRANZMANN P D. Growth and activity of pure and mixed bioleaching strains on low grade chalcopyrite ore [J]. Minerals Engineering, 2008, 21 (1): 93-99.

二级参考文献45

1SMITH R W, MISRA M. Recent developments in the bioprocessing of minerals [J]. Mineral Processing and Extractive Metallurgy Review, 1993, 12: 37-60.
2BARTLETT R W. Biooxidation heap pretreatment of sulfide refractory gold ore [J]. Mineral, 1996, 16: 89-124.
3PRADHAN N, NATHSARMA K C, SRINIVASA RAO K, SUKLA L B, MISHRA B K. Heap bioleaching of chalcopyrite: A review [J]. Minerals Engineering, 2008, 21: 355-365.
4WATLING H R. The bioleaching of sulphide minerals with emphasis on copper sulphides--A review [J]. Hydrometallurgy, 2006, 84: 81-108.
5STOTT M B, WATLING H R, FRANZMANN P D, SUTTON D. The role of iron-hydroxy precipitates in the passivation of chalcopyrite during bioleaching [J]. Minerals Engineering, 2000, 13(10): 1117-1127.
6OLSON G J, BRIERLEY J A, BRIERLEY C L. Bioleaching review (part B): Processing in bioleaching: applications of microbial processes by the minerals industries [J]. Applied Microbiology and Biotechnology, 2003, 63: 249-257.
7CORAM N J, RAWLINGS D E. Molecular relationship between two groups of the genus Leptospirillum and the finding that Leptospirillum ferriphilum sp. nov. dominates South African commercial biooxidation tanks that operate at 40 ℃[J]. Applied and Environmental Microbiology, 2003, 68(2): 838-845.
8OKIBE N, GERICKE M, HALLBERG K B, JOHNSON D B. Enumeration and characterization of acidophilic microorganisms isolated from a pilot plant stirred-tank bioleaching operation [J]. Applied and Environmental Microbiology, 2003, 69(4): 1936 1943.
9RAWLINGS D E. Characteristics and adaptability of iron- and sulfur-oxidizing microorganisms used for the recovery of metals from minerals and their concentrates [J]. Microbial Cell Factories, 2005, 4: 13.
10RAWLINGS D E, CORAM N J, GARDNER M N, DEANE S M. Thiobacillus ealdus and Leptospirillum jerrooxians are widely distributed in continuous-flow biooxidation tanks used to treat a variety of metal-containing ores and concentrates [C]// Biohydrometrallurgy and the Environment toward the Mining of the 21st Century, Part A. Amsterdam: Elsevier, 1999: 773-778.

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1杨俊奎,徐斌,杨大锦.复杂铜精矿氧压浸出综合回收工艺[J].矿冶工程,2011,31(1):73-76. 被引量：14
2吴学玲,袁鹏,胡琪,侯冬梅,苗博,邱冠周.不同嗜酸氧化亚铁硫杆菌(DY15,DY26,DC)对黄铜矿的浸出及其基因Afe0022的差异表达[J].中国有色金属学报,2011,21(4):932-938. 被引量：3
3杨俊奎,徐斌,杨大锦,钟宏,姜涛.复杂铜铅混合精矿氧压浸出综合回收工艺[J].昆明理工大学学报（自然科学版）,2011,36(2):10-15. 被引量：10
4韩涛,尹华群,刘毅,申丽,梁伊丽,刘学端.某低品位硫化铜矿混合菌浸出研究[J].金属矿山,2011,40(9):82-86.
5莫晓兰,林海,傅开彬,董颖博,徐承焱.绢云母对黄铜矿微生物浸出的影响[J].中国有色金属学报,2012,22(5):1475-1481. 被引量：12
6潘颢丹,杨洪英,佟琳琳,仲崇斌,赵玉山.Control method of chalcopyrite passivation in bioleaching[J].Transactions of Nonferrous Metals Society of China,2012,22(9):2255-2260. 被引量：7
7董颖博,林海,周闪闪.黄药类捕收剂对细菌浸出黄铜矿的抑制机理[J].中国有色金属学报,2012,22(11):3201-3207. 被引量：1
8袁学武,谢学辉,范凤霞,朱文祥,刘娜,柳建设.混合菌多样性分析及其浸出高砷金矿条件的优化[J].矿冶工程,2013,33(2):91-96. 被引量：2
9杨洪英,俞娟,佟琳琳,罗文杰.低品位复杂钼精矿的提纯工艺[J].中国有色金属学报,2013,23(7):2012-2018. 被引量：6
10肖春桥,池汝安,方玉娟.Effects of Acidiphilium cryptum on biosolubilization of rock phosphate in the presence of Acidithiobacillus ferrooxidans[J].Transactions of Nonferrous Metals Society of China,2013,23(7):2153-2159. 被引量：4

同被引文献87

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4柳建设,王兆慧,耿梅梅,邱冠周.微生物浸出中微生物-矿物多相界面作用的研究进展[J].矿冶工程,2006,26(1):40-44. 被引量：35
5李万全,张永奎,陈宁,梁颖,黄亚洁.某高硫砷难浸金精矿的细菌氧化预处理[J].金属矿山,2007,36(2):42-44. 被引量：5
6周洪波,刘晰,符波,邱冠周,霍强,曾伟民,柳建设,陈新华.Isolation and characterization of Acidithiobacillus caldus from several typical environments in China[J].Journal of Central South University of Technology,2007,14(2):163-169. 被引量：8
7张雁生,覃文庆,王军,任浏祎,何名飞.中温嗜酸硫杆菌浸出低品位硫化铜矿[J].矿冶工程,2007,27(4):25-30. 被引量：12
8罗志雄,张广积,方兆珩.采用中温菌和常温菌浸出含砷金精矿[J].中国有色金属学报,2007,17(8):1342-1347. 被引量：16
9邬长斌,曾伟民,周洪波,符波,黄菊芳,邱冠周,王淀佐.Bioleaching of chalcopyrite by mixed culture of moderately thermophilic microorganisms[J].Journal of Central South University of Technology,2007,14(4):474-478. 被引量：8
10尚鹤.含砷碳质难处理金矿生物预氧化菌种的选育驯化及群落分析[D].北京:北京有色金属研究总院,2012.52.

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3李寿朋,郭宁,武海艳,邱冠周,刘新星.High efficient mixed culture screening and selected microbial community shift for bioleaching process[J].Transactions of Nonferrous Metals Society of China,2011,21(6):1383-1387. 被引量：6
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9Alafara A.BABA,Folahan A.ADEKOLA,Rasaq F.ATATA,Risikat N.AHMED,Sandeep PANDA.Bioleaching of Zn(Ⅱ) and Pb(Ⅱ) from Nigerian sphalerite and galena ores by mixed culture of acidophilic bacteria[J].Transactions of Nonferrous Metals Society of China,2011,21(11):2535-2541. 被引量：2
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