Biohydrometallurgy techniques of low grade ores: A review on black shale

Hydrometallurgy

Volumn 117-118, Issue , 2012, Pages 1-12

  Anjum, Fozia ^a   Shahid, Muhammad ^b   Akcil, Ata ^c  

^a GOVERNMENT COLLEGE UNIVERSITY   (Pakistan)

^b UNIVERSITY OF AGRICULTURE   (Pakistan)

^c SULEYMAN DEMIREL UNIVERSITY   (Turkey)

Author keywords

Bioleaching; Black shale; Microorganism; Minerals dissolution; Sonobioleaching

Indexed keywords

BIOHYDROMETALLURGY; BLACK SHALE; BLACK SHALES; COMMERCIAL APPLICATIONS; CONVENTIONAL TECHNIQUES; CURRENT STATUS; ECO-FRIENDLY TECHNOLOGIES; EFFICIENT TECHNOLOGY; ENVIRONMENTAL POLLUTIONS; FUTURE TECHNOLOGIES; HIGH ENERGY; LOW-GRADE ORES; METAL PRODUCTION; MICROBIAL COMMUNITIES; MICROBIOLOGICAL PROCESS; SONOBIOLEACHING; TOXIC CHEMICALS; ULTRASOUND TREATMENTS;

BIOLEACHING; METAL IONS; METALS; MICROORGANISMS; ORES; PYROMETALLURGY; SHALE;

METAL RECOVERY;

EID: 84859436291     PISSN: 0304386X     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.hydromet.2012.01.007     Document Type: Review

References (198)

1. A. Abdelouas, W. Lutze, W. Gong, E.H. Nuttall, B.A. Strietelmeier, and B.J. Travis Biological reduction of uranium in groundwater and subsurface soil Sci. Total. Environ. 1-3 250 2000 21 35 (Pubitemid 30201695)
2. C. Acharya, R.N. Kar, L.B. Sukla, and N. Vibhuti Fungal leaching of manganese ore Trans. Indian Inst. Metall. 5 57 2004 501 508 (Pubitemid 40366769)
3. A.D. Agate Recent advances in microbial mining World J. Microbiol. Biotechnol. 12 1996 487 495 (Pubitemid 26370087)
4. S. Agatzini, and P. Tzeferis Bioleaching of nickel-cobalt oxide ores Aust. IMM Proc. 1 1997 9 15
5. E. Aghaiea, M. Pazoukib, M.R. Hosseinia, M. Ranjbara, and F. Ghavipanjeh Response surface methodology (RSM) analysis of organic acid production for Kaolin beneficiation by Aspergillus niger Chem. Eng. J. 147 2009 245 251
6. A. Akcil Potential bioleaching developments towards commercial reality: Turkish metal mining's future Miner. Eng. 17 2004 477 480
7. A. Akcil, and H. Deveci Mineral biotechnology of sulphides (chapter 4) S. Jain, A. Khan, M.K. Rai, Geomicrobiology 2010 Science Publishers Enfield, New Hampshire, USA 101 137
8. G. Akinci, and D.E. Guven Bioleaching of heavy metals contaminated sediment by pure and mixed cultures of Acidithiobacillus spp Desalination 1-3 268 2011 221 226
9. C.N.O. Alvarez, and B.P. Roser Geochemistry of black shales from the Lower Cretaceous Paja Formation, Eastern Cordillera, Colombia: source weathering, provenance, and tectonic setting J. South Am. Earth Sci. 23 2007 271 289 (Pubitemid 46554874)
10. F. Amiri, S. Yaghmaei, and S.M. Mousavi Bioleaching of tungsten-rich spent hydro cracking catalyst using Penicillium simplicissimum Bioresour. Technol. 2 102 2011 1567 1573
11. F. Anjum, H.N. Bhatti, and A. Ambreen Bioleaching of black shale by Acidithiobacillus ferrooxidans Asian J. Chem. 7 21 2009 5251 5266
12. F. Anjum, H.N. Bhatti, M.A. Ghauri, I.A. Bhatti, M. Asgher, and M.R. Asi Bioleaching of copper, cobalt and zinc from black shale by Penicillium notatum Afr. J. Biotechnol. 19 8 2009 5038 5045
13. F. Anjum, H.N. Bhatti, M. Asgher, and M. Shahid Leaching of metals from black shale using organic acids produced by Aspergillus niger J. Appl. Clay Sci. 3-4 47 2010 356 361
14. F. Anjum, H.N. Bhatti, and M.A. Ghauri Enhanced bioleaching of metals from black shale using ultrasonics Hydrometallurgy 3-4 100 2010 122 128
15. Arzani Diagenetic evolution of mudstones: black shales to laminated limestones, an example from the Lower Jurassic of SW Britain J. Sci., Islamic Repub. Iran 15 3 2004 257 267
16. K.M.M. Aung, and Y.P. Ting Bioleaching of spent fluid catalytic cracking catalyst using Aspergillus niger J. Biotechnol. 116 2005 159 170 (Pubitemid 40128566)
17. B. Avvaru, S.B. Roy, S. Chowdhury, K.N. Hareendran, and A.B. Pandit Enhancement of the leaching rate of uranium in the presence of ultrasound Ind. Eng. Chem. Res. 45 2006 7639 7648 (Pubitemid 44797584)
18. F. Baldi, V. Leonardi, A.D. Annibale, A. Piccolo, F. Zecchini, and M. Petruccioli Integrated approach of metal removal and bioprecipitation followed by fungal degradation of organic pollutants from contaminated soils Eur. J. Soil Biol. 5-6 43 2007 380 387 (Pubitemid 47552892)
19. J.A. Barrera-Godinez, T.J. Okeefe, and J.L. Watson Effect of ultrasound on acidified brine leaching of double kiln treated EAF dust Miner. Eng. 5 1992 1365
20. Barrick Gold Corporation Unlock the value http://www.unlockthevalue.com 2010 (last accessed 17 January 2010)
21. O. Bayraktar Bioleaching of nickel from equilibrium fluid catalytic cracking catalysts World J. Microbiol. Biotechnol. 21 2005 661 665 (Pubitemid 41073906)
22. T.M. Bhatti, J.M. Bigham, A. Vuorinen, and O.H. Tuovinen Weathering of phlogopite in simulated bioleaching solutions Int. J. Miner. Process. 1-2 98 2011 30 34
23. M. Boon, and J.J. Heijnen Chemical oxidation kinetics of pyrite in bioleaching processes Hydrometallurgy 48 1998 27 41 (Pubitemid 128416291)
24. K. Bosecker Microbial leaching in environmental clean-up programmes Hydrometallurgy 59 2001 245 248 (Pubitemid 32077443)
25. P.B. Bousshard, R. Bachofen, and H. Brandle Metal leaching of fly ash from municipal waste incineration by Aspergillus niger Environ. Sci. Technol. 30 1996 3066 3070 (Pubitemid 26332665)
26. H. Brandl, R. Bosshard, and M. Wegmann Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi Hydrometallurgy 59 2001 319 326 (Pubitemid 32077451)
27. C.L. Brierley How will biomining be applied in future? Trans. Nonferrous Metall. Soc. China 18 2008 1302 1310
28. C.L. Brierley Biohydrometallurgical prospects Hydrometallurgy 104 2010 324 328
29. J.A. Brierley, and C.L. Brierley Present and future commercial applications of biohydrometallurgy Hydrometallurgy 59 2001 233 239 (Pubitemid 32077441)
30. S. Brocht, M.V. Durance, V. Villeneuve, P. D'Hugues, and M. Mugabi Modelling of the bioleaching of sulphide ores: application for the simulation of the bioleaching/gravity section of the Kasese Cobalt Company Ltd process plant Miner. Eng. 17 2004 253 260
31. C. Brombacher, R. Bachofen, and H. Brandl Biohydrometallurgical processing of solids. A patent review Appl. Microbiol. Biotechnol. 48 1997 577 587 (Pubitemid 27511580)
32. P. Burba, B. Jakubowski, R. Kuckuk, K. Kullmer, and K.G. Heumann Characterization of aquatic humic substances and their metal complexes by immobilized metal-chelate affinity chromatography on iron (III)-loaded ion exchangers Fresenius J. Anal. Chem. 368 2000 689 696
33. E.P. Burford, M. Fomina, and G.M. Gadd Fungal involvement in bioweathering and biotransformation of rocks and minerals Miner. Mag. 67 2003 1127 1155 (Pubitemid 38335429)
34. R.M. Bustin Gas shale tapped for big pay AAPG Explor. 26 2 2005 30
35. C. Cameselle, M.T. Ricart, M.J. Nunez, and J.M. Lema Iron removal from kaolin. Comparison between in situ and two stage bioleaching processes Hydrometallurgy 68 2003 97 105
36. D.J. Casadonte, J.R.M. Flores, and M. Petrier The use of pulsed ultrasound technology to improve environmental remediation: a comparative study Environ. Technol. 26 2005 1411 1418
37. I.M. Castro, J.L.R. Fietto, R.X. Vieira, M.J.M. Tropia, L.M.M. Campos, E.B. Paniago, and R.L. Brand Bioleaching of zinc and nickel from silicates using Aspergillus niger cultures Hydrometallurgy 57 2000 39 49
38. R. Chakrabarti, P.A. Abanda, R.E. Hannigan, and A.R. Basu Effects of diagenesis on the Nd-isotopic composition of black shales from the 420 Ma Utica shale magnafacies Chem. Geol. 244 2007 221 231 (Pubitemid 47355005)
39. N. Chow, A. Nacu, D. Warkentin, I. Aksenov, and H. Teh The recovery of manganese from low grade resources: bench scale metallurgical test program completed 2010 Kemetco Research Inc. No. 445-5600 Parkwood Way Richmond, BC V6V 2 M2 Canada
40. A.R. Colmer, and M.E. Hinkle The role of microorganisms in acid mine drainage: a preliminary report Science 106 1950 253 256
41. B.D. Conner Bioleaching and Electro Bioleaching of Sulphide Minerals 2005 Master of Science in Chemical Engineering, West Virginia University Morgan town, West Virginia
42. J.P. Croue, M.F. Benedetti, D. Violleau, and J.A. Leenheer Characterization and copper binding of humic and non humic organic matter isolated from the South Platte River: evidence for the presence of nitrogenous binding site Environ. Sci. Technol. 37 2003 328 336 (Pubitemid 36109779)
43. G. Curutchet, and E. Donati Iron-oxidizing and leaching activities of sulphur grown Thiobacillus ferrooxidans cells on other substrates: effect of culture pH J. Biosci. Bioeng. 90 2000 57 60
44. P. D'Hugues, and P. Spolaore Biohydrometallurgy applied to exploitation of black shale resources: overview of bioshale FP6 European project. Bioshale consortium Trans. Nonferrous Metall. Soc. China 6 18 2008 87
45. A. Deepatana, J.A. Tang, and M. Valix Comparative study of chelating ion exchange resins for metal recovery from bioleaching of nickel laterite ores Miner. Eng. 19 2006 1280 1289 (Pubitemid 44302313)
46. M. Dopson, and E.B. Lindstrom Potential role of Thiobacillus caldus in arsenopyrite bioleaching Appl. Environ. Microbiol. 65 1999 36 40 (Pubitemid 29029615)
47. Dumont Nickel Inc. Dumont launches baseline R&D to study micro-organisms in its Alberta polymetallic black shales http://www. dumontnickel.com/ 2010 (last accessed 15 January 2010)
48. J.R. Dyni Geology and resources of some world oil-shale deposits U.S. Geological Survey Scientific Investigations Report, 2005-5294 2006 42
49. H.L. Ehrlich Past, present and future of biohydrometallurgy Hydrometallurgy 59 2001 127 137
50. H.L. Ehrlich Beginnings of rational bioleaching and highlights in the development of biohydrometallurgy: a brief history Eur. J. Miner. Process. Environ. Prot. 4 2004 102 112
51. H. Falk, Lavergren, and B. Bergback Metal mobility in alum shale from Oland Sweden J. Geochem. Explor. 90 2006 157 165 (Pubitemid 44111726)
52. J. Farbiszewska-Kiczma, T. Farbiszewska, and M. Bak Bioleaching of metals from Polish Black Shale in neutral medium Physicochem. Probl. Miner. Process. 38 2004 273 280
53. Finders Resources Limited Annual Report 2009 http://www.findersresources. Com/reports/financial.php 2010 (last accessed 15 January 2010)
54. T.A. Fowler, P.R. Holmes, and F.K. Crundwell On the kinetics and mechanism of the dissolution of pyrite in the presence of Thiobacillus ferrooxidans Hydrometallurgy 59 2001 257 270 (Pubitemid 32077445)
55. G.M. Gadd Microbial metal transformations J. Microbiol. 2 39 2001 83 88
56. G.M. Gadd Microbial influence on metal mobility and application for bioremediation Geoderma 2-4 122 2004 109 119 (Pubitemid 39204478)
57. C. Galindo, L. Mougin, S. Fakhi, A. Nourreddine, A. Lamghari, and H. Hannache Distribution of naturally occurring radionuclides (U, Th) in Timahdit black shale (Morocco) J. Environ. Radioact. 92 2007 41 54 (Pubitemid 44827458)
58. C. Garcia-Balboa, C.I. Bedoya, F. Gonzaleza, M.L. Blazqueza, J.A. Munoza, and Ballester Bio-reduction of Fe (III) ores using three pure strains of Aeromonas hydrophila, Serratia fonticola and Clostridium celerecrescens and a natural consortium Bioresour. Technol. 101 2010 7864 7871
59. M. Gericke, J.W. Neale, and P.J. Van-Staden A Mintek perspective of the past 25 years in minerals bioleaching J. SAIMM 109 2009 567 585
60. Y. Ghorbani, M. Oliazadeh, A. Shahvedi, R. Roohi, and A. Pirayehgar Use of some isolated fungi in biological leaching of aluminum from low grade bauxite Afr. J. Biotechnol. 6 11 2007 1284 1288 (Pubitemid 46954102)
61. Y. Ghorbani, I.M. Oliazadeh, and A. Shahvedi Aluminum solubilization from red mud by some indigenous fungi in Iran J. Appl. Biosci. 7 2008 207 213
62. A. Giaveno, and E. Donati Bioleaching of heazelwoodite by Thiobacllus sp Process. Biochem. 36 2001 955 962
63. G. Golab, and B. Orlowska The effect of amino and organic acids produced by the selected microorganisms on metal leaching Acta Microbiol. Pol. 37 (1) 1 1988 83 93
64. T. Grobelski, J.F. Kiczma, and T. Fabriszewska Bioleaching of Polish black shale Physicochem. Probl. Miner. Process. 41 2007 259 264
65. S.N. Groudev Biological leaching of gold from ores Paper Presented at the 14th CMMI Congress July 2-6, Edinburg, UK 1990
66. F.K. Grundwell, P.R. Holmes, and T.A. Fowler How do bacteria interact with minerals? J. SAIMM 100 7 2000 2000
67. R.P. Hackl Commercial applications of bacteria-mineral interactions J.M. McIntosh, L.A. Groat, Biological-Mineralogical Interactions 1997 Mineralogical Association of Canada Ottawa 143 167
68. X. Hai, Y. Daoyong, and Q. Guohe Characterization of petroporphyrins in Gudao residue by UV-Vis spectrophotometry laser desorption ionization-time of flight mass spectrometery Fuel 84 6 2005 647
69. R.O. Hallberg, and D.T. Rickard SMA "Gruvarbetarna" i Falun 1973 Swedish Natural Science Research Council Stockholm 102
70. N.B. Harris The deposition of organic-carbon-rich sediments: models, mechanisms, and consequences, introduction N.B. Harris, The Deposition of Organic Carbon Rich Sediments: Models, Mechanisms, and Consequences Special Publication 82 2005 Society for Sedimentary Geology Tulsa, OK 1 5
71. M.E. Hoque, and O.J. Philip Biotechnological recovery of heavy metals from secondary sources-an overview Mater. Sci. Eng. 2 31 2011 57 66
72. M.R. Hosseini, M. Pazouki, M. Ranjbar, and M. Habibian Bioleaching of iron from highly contaminated Kaolin clay by Aspergillus niger Appl. Clay Sci. 37 2007 251 257 (Pubitemid 47370873)
73. M.L.B. Jenifer, C.P. Jim, S.K. Maria, B.I. Irena, A.D. Sandra, J.C. Colin, and P. Anderson Methods evaluating vanadium tolerance in bacteria isolated from crude oil contaminated land J. Microbiol. Meth. 1 58 2004 87 100 (Pubitemid 38716133)
74. S.Y. Jiang, J.H. Yang, H.F. Ling, Y.Q. Chen, H.Z. Feng, K.D. Zhao, and P. Ni Extreme enrichment of polymetallic Ni-Mo-PGE-Au in Lower Cambrian black shales of South China: an Os isotope and PGE geochemical investigation Palaeogeogr. Palaeoclimatol. Palaeoecol. 254 1-2 2007 217 228 (Pubitemid 47418099)
75. D.B. Johnson Biodiversity and ecology of acidophilic microorganisms FEMS Microbiol. Ecol. 27 1998 307 317 (Pubitemid 29012445)
76. D.B. Johnson Biohydrometallurgy and the environment: intimate and important interplay Hydrometallurgy 83 2006 153 166 (Pubitemid 44118562)
77. L. Jong -Un, K. Sung-Min, and K. Kyoung-Woong Microbial removal of uranium in uranium bearing black shale Chemosphere 5 2005 147 154
78. C. Junya, G. Zhang, Z. Mao, Z. Fang, and C. Yang Precipitation of valuable metals from bioleaching solution by biogenic sulphides Miner. Eng. 22 2009 289 295
79. D.P. Kelly, and A.P. Wood Reclassification of some species of Thiobacillus to the newly designated genera Acidithiobacillus gen. nov., Halothiobacillus gen. nov., and Thermithiobacillus gen. nov Int. J. Syst. Evol. Microbiol. 50 2000 511 516 (Pubitemid 30167492)
80. M.P. Ketris, and Y.E. Yudovich Estimations of Clarkes for carbonaceous biolithes: world averages for trace element contents in black shales and coals Int. J. Coal Geol. 78 2009 135 148
81. A.M. Khalid, M.A. Anwar, A.M. Shernsi, G. Niazi, and K. Akhtar Biohydrometallurgy of low-grade, carbonate bearing sandstone uranium ore A.E. Tonna, J.E. Wey, V.I. Lahhmanan, Biohydrometallurgical technologies 1993 The Minerals, Metals & Materials Society Warrendale 285 292
82. S. Kojima Stable Supply of Mineral Resources 2002 Mineral and Natural Resources Division, Ministry of Economy, Trade and Industry Japan
83. Y. Konishi, S. Asai, and M. Tokushige Kinetics of the bioleaching of chalcopyrite concentrate by acidophilic thermophile Acidianus brierleyi Biotechnol. Prog. 15 1999 681 688 (Pubitemid 29384635)
84. E. Konopka, E. Kisielowska, and K. Szataba Recovery of trace amounts of metals of dissipated non-workable raw material by bacterial leaching method (In Polish) XXV Krakowska Konferencja Naukowo Techniczna Przerobki Kopalin 1993 295 303 Szczawnica, Poland
85. B. Kribek, I. Sykorova, J. Pasava, and V. Machovic Organic geochemistry and petrology of barren and Mo-Ni-PGE mineralized marine black shales of the Lower Cambrian Niutitang Formation (Southern China) Int. J. Coal Geol. 72 3-4 2007 240 256 (Pubitemid 350018640)
86. C.H.K. Lam, W.M. Alvin, J.P. Barford, and G. McKay Use of incineration MSW Ash: a review Sustainability 2 2010 1943 1968
87. L. Le, J. Tang, D. Ryan, and M. Valix Bioleaching nickel laterite ores using multi-metal tolerant Aspergillus foetidus organism Miner. Eng. 19 2006 1259 1265 (Pubitemid 44314163)
88. M.J. Leahy, M.R. Davidson, and M.P. Schwarz A two dimensional CFD model for heap bioleaching of chalcocite ANZIAM J. 46 E 2005 C439 C457
89. W.W. Leathen, N.A. Kinsel, and S.A. Braley Ferrobacillus ferrooxidans: a chemosynthetic autotrophic bacterium J. Bacteriol. 72 1956 700 704
90. M. Li, C. Wei, G. Fan, C. Li, C. Deng, X. Zhao, G. Zhang, G. Huo, and H. Li Kinetics of atmospheric leaching molybdenum from metalliferous black shales by air oxidation in alkali solution Hydrometallurgy 3-4 97 2009 233 236
91. M. Li, C. Wei, G. Fan, C. Li, Z. Deng, and X. Li Acid leaching of black shale for extraction of vanadium Trans. Nonferrous Metall. Soc. China 20 2010 s112 s117
92. M. Li, C. Wei, G. Fan, H. Wu, C. Li, and X. Li Acid leaching of black shale for the extraction of vanadium Int. J. Miner. Process. 1-4 95 2010 62 67
93. B. Lian, W. Bin, M. Pan, C. Liu, and H.H. Teng Microbial release of potassium from K-bearing minerals by thermophilic fungus Aspergillus fumigatus Geochim. Cosmochim. Acta 1 72 2008 87 98 (Pubitemid 350227029)
94. G. Liang, Y. Mo, and Q. Zhou Novel strategies of bioleaching metals from printed circuit boards (PCBs) in mixed cultivation of two acidophiles Enzyme Microb. Technol. 7 47 2010 322 326
95. H.M. Lizama A kinetic description of percolation bioleaching Miner. Eng. 17 2004 23 32
96. H.M. Lizama, J.R. Harlamovs, D.J. McKay, and Z. Dai Heap leaching kinetics is proportional to the irrigation rate divided by heap height Miner. Eng. 18 2005 623 630 (Pubitemid 40408799)
97. A. Luszczkiewicz Wykorzystanie frakcji czarnych lupkow miedzionosnych z rud z rejonu lubinsko-glogowskiego Wspolczesne problemy przerobki rud miedzi w Polsce, Pachowica 2000 137 152
98. S.K. Mandal, and P.C. Banerjee Iron leaching from China clay with oxalic acid: effect of different physico-chemical parameters Int. J. Miner. Process. 74 2004 263 270
99. J.W. Mao, B. Lehmann, A.D. Du, G.D. Zhang, D.S. Ma, Y.T. Wang, M.G. Zeng, and R. Kerrich Re-Os dating of polymetallic Ni-Mo-PGE-Au mineralization in lower Cambrian black shales of south China and its geologic significance Econ. Geol. Bull. Soc. Econ. Geol. 97 2002 1051 1061 (Pubitemid 35212744)
100. T.J. Mason Developments in ultrasound-non-medical-review Prog. Biophys. Mol. Biol. 93 2007 166 175
101. R.G. McDonald, and B.I. Whittington Atmospheric acid leaching of nickel laterites Hydrometallurgy 91 2008 5.6 5.69
102. J. McManus, W.M. Berelson, and S. Severmann Molybdenum and uranium geochemistry in continental margin sediments: palaeoproxy potential Geochim. Cosmochim. Acta 70 18 2006 4643 4662 (Pubitemid 44430773)
103. D. Mishra, D.J. Kim, J.G. Ahn, and J.C. Lee Bacterial leaching of metals from sulphide minerals and industrial wastes KIGAM Bull. 1 9 2004 48 57
104. A. Mishra, N. Pradhan, R.N. Kar, L.B. Sukla, and B.K. Mishra Microbial recovery of uranium using native fungal strains Hydrometallurgy 2008 04 05
105. S. Mohapatra, N. Pradhan, S. Mohanty, and L.B. Sukla Recovery of nickel from lateritic nickel ore using Aspergillus niger and optimization of parameters Miner. Eng. 3 22 2009 311 313
106. M.B. Mooiman, K.C. Sole, and D.J. Kinneberg Challenging the traditional hydrometallurgy curriculum-an industry perspective Hydrometallurgy 1-2 79 2005 80 88 (Pubitemid 41382640)
107. P. Moore Scaling fresh heights in heap leach technology Min. Mag. 198 2008 54 66
108. M.J. Moura, J. Sousa, and M. Costa-Ferreira Removal of metals from waste incinerator bottom ash by acidophilic microbes Abstracts/J. Biotechnol. 118S1 2005 S1 S189
109. C.N.K. Mulligan, N. Galvez-Cloutier, and N. Renaud Biological leaching of copper mine residues by Aspergillus niger R. Amils, A. Ballester, Biohydrometallurgy and the Environment Toward the Mining of the 21st Centuary. Part A: Bioleaching, Microbiology 1999 Elsevier Amsterdam 453 462
110. C.N. Mulligan, M. Kamali, F. Bernard, and F. Gibbs Bioleaching of heavy metals from a low-grade mining ore using Aspergillus niger J. Hazard. Mater. 110 2004 77 84 (Pubitemid 38739010)
111. A. Murad, K. El-Holi, and S. Al-Delaimy Citric acid production from whey with sugars and additives by Aspergillus niger Afr. J. Biotechnol. 2 10 2003 356 359
112. T. Nagaoka, N. Ohmura, and H. Saiki A novel mineral flotation process using Thiobacillus ferrooxidans Appl. Environ. Microbiol. 65 1999 3588 3593 (Pubitemid 29398990)
113. H. Nakazawa, H. Fujisawa, and H. Sato Effect of activated carbon on the bioleaching of chalcopyrite concentrate Int. J. Miner. Process. 55 1998 87 94
114. J. Nalini, and D.K. Sharma Biohydrometallurgy of nonsulfidic minerals J. Geomicrobiol. 2 2004 135 144
115. T.J. Nameroff, L.S. Balistrieri, and J.W. Murray Suboxic trace metal geochemistry in the eastern tropical North Pacific Geochim. Cosmochim. Acta 66 2002 1139 1158 (Pubitemid 34395217)
116. K.L. Narayana, K.M. Swamy, K.S. Rao, and J.S. Murty Leaching of metals from ores with ultrasound Miner. Process. Extr. Metall. Rev. 16 1997 239 259
117. S. Ndlovu Biohydrometallurgy for sustainable development in the African minerals industry Hydrometallurgy 91 2008 20 27
118. P. Nurmie, B. Ozkaya, K. Sasaki, A.H. Kaksonen, M. Riekkola-Vanhanen, O.H. Tuovinen, and J.A. Puhakka Biooxidation and precipitation for iron and sulfate removal from heap bioleaching effluent streams Hydrometallurgy 101 2010 7 14
119. L.V. Ogurtsova, G.I. Karavaiko, Z.A. Avakyan, and A.A. Korenevskii Activity of various microorganisms in extracting elements from bauxite Microbiology 58 1990 774 780
120. M.W. Ojeda, E. Perino, M.C. Del, and Ruiz Gold extraction by chlorination using a pyrometallurgical process Miner. Eng. 22 2009 409 411
121. G.J. Olson Microbial oxidation of gold ores and gold bioleaching FEMS Microbiol. Lett. 119 1994 1 6 (Pubitemid 24185625)
122. G.J. Olson, J.A. Brierley, and C.L. Brierley Bioleaching review part B: progress in bioleaching: applications of microbial processes by the minerals industries Appl. Microbiol. Biotechnol. 63 2003 249 257 (Pubitemid 38130573)
123. M.S. Oncel, M. Ince, and M. Bayramo Leaching of silver from solid waste using ultrasound assisted thiourea method Ultrason. Sonochem. 12 2005 237 242 (Pubitemid 39371208)
124. B. Orberger, J. Pasava, J.P. Gallein, L. Daudin, and P. Trocellier Se, As, Mo, Ag, Cd, In, Sb, Pt, Au, Tl, Re traces in biogenic and abiogenic sulfides from Black Shales (Selwyn Basin, Yukon territories, Canada): a nuclear microprobe study Nucl. Instrum. Meth. Phys. Res. B 210 2003 441 448
125. B. Orberger, G. Jean-Paul, Daniele L. Pintia, F. Michel, D. Laurent, R.G. Darren, and J. Pasava Nitrogen and carbon partitioning in diagenetic and hydrothermal minerals from Paleozoic Black Shales, (Selwyn Basin, Yukon Territories, Canada) Chem. Geol. 218 2005 249 264 (Pubitemid 40664850)
126. C. Orquidea, F. Galizia, I. Hernandez, J. Marrero, and E. Donati Cobalt and nickel recoveries from laterite tailings by organic and inorganic bio-acids Hydrometallurgy 94 2008 18 22
127. J.Y. Pan, D.S. Ma, F. Xia, S.H. Chen, S.L. Cao, G.L. Guo, and Z.G. Xie Study on nickel and molybdenum minerals in Ni-Mo sulphide layer of the lower Cambrian black rock series, Northwestern Hunan Acta Mineralog. Sin. 25 3 2005 283 288
128. PAR BIOSHALE Search for sustainable way of exploiting black shale ores using biotechnologies. A specific targested research project co funded by the Europian Commission (FP Programme) Contract NMP2-CT-2004-0-710 2004
129. Peralta, G.L., 1997. Characterization, leachability and acid mine drainage of geothermal solid residues. A thesis submitted in conformity with the requirements for the degree of Doctor of Philosophy. Department of Chemical Engineering and Applied Chemistry, University of Toronto, Canada.
130. R.B. Perkins, D.Z. Piper, and C.E. Mason Trace-element budgets in the Ohio-Sunbury shales of Kentucky: constraints on ocean circulation and primary productivity in the Devonian Mississippian Appalachian Basin Palaeogeogr. Palaeoclimatol. Palaeoecol. 265 2008 14 29
131. B. Pesic Electrometallurgy review: how can pyroprocessing of spent nuclear fuel benefit from the existing knowledge base, and the need for future research 2nd ACE Workshop, Idaho University Consortia. Nuclear Materials Research, Issues, and Applications 2007
132. S.T. Petsch, K.J. Edwards, and T.I. Eglinton Abundance, distribution and 13C analysis of microbial phospholipid-derived fatty acids in a black shale weathering profile Org. Geochem. 34 2003 731 743 (Pubitemid 36614810)
133. P.S. Pina, V.A. Leao, C.A. Silva, D. Daman, and J. Frenay The effect of ferrous and ferric iron on sphalerite bioleaching with Acidithiobacillus sp. Miner. Eng. 18 2005 549 551 (Pubitemid 40339838)
134. D.Z. Piper, and S.E. Calvert A marine biogeochemical perspective on black shale deposition Earth Sci. Rev. 95 2009 63 96
135. D.Z. Piper, R.B. Perkins, and H.D. Rowe Rare-earth elements in the Permian Phosphoria Formation: paleo proxies of ocean geochemistry Deep-Sea Res. 54 2007 1396 1413 (Pubitemid 47241271)
136. M. Polgary, K. Tazaki, H. Watanabe, T. Vigh, and A. Gucsik Geochemical aspect of chemolithoautotrophic bacterial activity in the role of black shale hosted Mn mineralisation, Jurassic age, Hungary, European Clay Sci. 12 2 2006 233 239
137. N. Pradhan, B. Das, C.S. Gahan, R.N. Kar, and L.B. Sukla Beneficiation of iron ore slime using Aspergillus niger and Bacillus circulans Bioresour. Technol. 97 2006 1876 1879
138. Y. Ran, J.M. Fu, G.Y. Sheng, R. Beckett, and B.I. Hart Fractionation and composition of colloidal and suspended particulate materials in rivers Chemosphere 41 2000 33 43 (Pubitemid 30226542)
139. K.S. Rao, K.L. Narayana, K.M. Swamy, and J.S. Murty Influence of ultrasound in ammoniacal leaching of a copper oxide ore Metall. Mater. Trans. 28B 1997 721
140. D.E. Rawlings Microbially assisted dissolution of minerals and its use in the mining industry Pure Appl. Chem. 76 2004 847 859
141. D.E. Rawlings, D. Dew, and C.D. Plessis Biomineralization of metal containing ores and concentrates: review Trends Biotechnol. 1 21 2003 38 44 (Pubitemid 35441292)
142. W.X. Ren, P.J. Li, Y. Geng, and X.J. Li Biological leaching of heavy metals from a contaminated soil by Aspergillus niger J. Hazard. Mater. 1-3 167 2009 164 169
143. I. Rezza, E. Salinas, M. Elorza, M. Sanz de Tosetti, and E. Donato Mechanisms involved in bioleaching of an aluminosilicate by heterotrophic microorganisms Process. Biochem. 36 2001 495 500 (Pubitemid 32105223)
144. M. Riekkola-Vanhanen Bioleaching of the Talvivaara black schist ore Materia (former Vuoriteollisuus - Bergshanteringen) 3 2005 40 45
145. S. Robertson, P. Van-Staden, A. Vercuil, G. Glover, and B. Shaidaee Heap bioleaching of low-grade chalcopyrite ore from the Darehzare deposit ALTA 2007 Copper 2006 ALTA Hydrometallurgical Services Melbourne 13
146. G. Rossi Biohyrometallurgy 1990 McGraw-Hill Hamburg, Germany
147. Z. Sadowski Biogeochemia, wybrane zagadnienia 2005 Oficyna Wydawnicza Politechniki Wroclawskiej
148. Z. Sadowski, and A. Szubert Comparison of black shale bioleaching process using stationary and agitated systems Physicochem. Probl. Miner. Process. 41 2007 387 395
149. P.C. Sangave, and A.B. Pandit Ultrasound and enzyme assisted biodegradation of distillery wastewater J. Environ. Manage. 80 2006 36 46 (Pubitemid 43677018)
150. D. Santhiya, and Y.P. Ting Bioleaching of spent refinery processing catalyst using Aspergillus niger with high-yield oxalic acid J. Biotechnol. 116 2005 171 184
151. A. Sayer, and G.M. Gadd Binding of cobalt and zinc by organic acids and culture filtrates of Aspergillus niger grown in the absence or presence of insoluble cobalt or zinc phosphate Jacqueline Mycol. Res. 105 10 2001 1261 1267 (Pubitemid 33119167)
152. P.M. Scotney, S. Roberts, R.J. Herrington, A.J. Boyce, and R. Burgess The development of volcanic hosted massive sulphide and barite-gold orebodies on Wetar Island, Indonesia Miner. Deposita 14 2005 76 99 (Pubitemid 41001537)
153. A. Shanableh, and P. Ginige Impact of metals bioleaching on the nutrient value of biological nutrient removal biosolids Water Sci. Technol. 6 39 1999 175 181 (Pubitemid 29221622)
154. Z. Shi-jie, Q. Wen-qing, Y. Zhong-qiang, Z. Yan-sheng, W. Jun, and R. Liu-yi Bioleaching of low grade nickel sulfide mineral in column reactor Trans. Nonferrous Metall. Soc. China 18 2008 1480 1484
155. M.P. Silverman, and E.F. Munoz Fungal leaching of titanium from rock Appl. Microbiol. 22 1971 923 924
156. A. Singh, R.K. Sharma, M. Agarwal, and F.M. Marshal Risk assessment of heavy metal toxicity through contaminated vegetables from waste water irrigated area of Varanasi, India Trop. Ecol. 51 2S 2010 375 387
157. M. Steiner, E. Wallis, B.D. Erdtmann, Y.L. Zhao, and R.D. Yang Submarine hydrothermal exhalative ore layers in black shales from South China and associated fossils insights into a Lower Cambrian facies and bio-evolution Palaeogeogr. Palaeoclimatol. Palaeoecol. 169 2001 165 191 (Pubitemid 32515970)
158. L.B. Sukla, K.M. Swamy, K.L. Narayana, R.N. Kar, and V.V. Panchanadikar Bioleaching of Sukinda laterite using ultrasonics Hydrometallurgy 37 1995 387 391
159. K.M. Swamy, L.B. Sukla, K.L. Narayana, R.N. Kar, and V.V. Panchanadikar Use of ultrasound in microbial leaching of nickel from laterites Ultrason. Sonochem. 2 1995 S5 S9
160. K.M. Swamy, K.L. Narayana, N. Vibhuti, and Misra Bioleaching with ultrasound Ultrason. Sonochem. 12 2005 301 306 (Pubitemid 39389162)
161. A. Szubert, M. Lupinski, and Z. Sadowski Application of shrinking core model to bioleaching of black shale particles Physicochem. Probl. Miner. Process. 40 2006 211 225
162. Tang, J.Y., 2004. Bioleaching of low grade nickel laterite ore with heterotrophic microorganisms. Ph.D. Thesis. The University of Sydney.
163. J.A. Tang, and M. Valix Leaching of low grade limonite and nontronite ores by fungi metabolic acids Miner. Eng. 19 2006 1274 1279 (Pubitemid 44302312)
164. I.I. Tarasova Bio hydrometallurgical technologies A.E. Torma, J.E. Wey, Lakshmanan Proceedings of International Bioleaching Processing TMS Min. Metals Mater. 1 1993 357
165. A. Tasa, A. Vourinen, O. Garcia, and O. Tuovinen Biologically enhanced dissolution of Pyrite rich Black shale concentrate J. Environ. Sci. Health A32 9 & 10 1997 2683 2695
166. T. Tekin Use of ultrasound in the dissolution kinetics of phosphate rock in HCl Hydrometallurgy 64 2002 187 192 (Pubitemid 34704423)
167. 3 Ultrason. Sonochem. 8 2001 373 377 (Pubitemid 32664034)
168. K.L. Temple, and A.R. Colmer The autotrophic oxidation of iron by new bacterium, Thiobacillus ferrooxidans J. Bacteriol. 62 5 1951 605 611
169. V. Thangavelu, J. Tang, D. Ryan, and M. Valix Effect of saline stress on fungi metabolism and biological leaching of weathered saprolite ores Miner. Eng. 19 2006 1266 1273 (Pubitemid 44302309)
170. N. Tribovillard, T.W. Lyons, A. Riboulleau, and Bout-Roumazeilles A possible capture of molybdenum during early diagenesis of dysoxic sediments Soc. Geol. Fr. Bull. 179 2008 3 12
171. M.L.W. Tuttle, and G.N. Breit Weathering of the New Albany Shale, Kentucky, USA: I. Weathering zones defined by mineralogy and major-element composition Appl. Geochem. 24 2009 1549 1564
172. M.L.W. Tuttle, G.N. Breit, and M.B. Goldhaber Geochemical data from New Albany shale, Kentucky: a study in metal mobility during weathering of black shales US Geol. Surv. Open File Rep., 03-207 2003
173. M.L.W. Tuttle, G.N. Breit, and M.B. Goldhaber Weathering of the New Albany shale, Kentucky: II. Redistribution of minor and trace elements Appl. Geochem. 24 5 2009 1565 1578
174. P.G. Tzeferis, S. Agatzini, and E.T. Nerantzis Mineral leaching of non-sulphide nickel ore using heterotrophic micro organisms Lett. Appl. Microbiol. 18 4 2008 209 213
175. A. Uryga, Z. Sadowski, and A. Grotowski Bioleaching of cobalt from mineral products Physicochem. Probl. Miner. Process. 38 2004 291 299
176. M. Valix, and L.O. Loon Adaptive tolerance behavior of fungi in heavy metals Miner. Eng. 16 2003 193 198
177. M.F. Valix, Usai, and R. Malik Fungal bioleaching of low grade laterite ore Miner. Eng. 14 2 2001 197 203 (Pubitemid 32227003)
178. F. Veglio, F. Beolchini, and S. Ubaldini Empirical models for oxygen mass transfer: a comparison between shake flask and lab-scale fermentor and appilcation to manganiferous ore bioleaching Process. Biochem. 33 4 1998 367 376 (Pubitemid 28243440)
179. R. Venkateshwara, T.C. Shivammavar, and S.M. Gaddad Bioleaching of Copper from chalcopyrite ore by fungi Indian J. Exp. Biol. 40 3 2002 319 324 (Pubitemid 34212851)
180. K.S. Wang, K.L. Lin, and H.C. Lee Melting of municipal solid waste incinerator fly ash by waste-derived thermite reaction J. Hazard. Mater. 162 2009 338 343
181. H.R. Watling Bioleaching of sulfide minerals with emphasise of copper sulfides, a review Hydrometallurgy 84 2006 81 108 (Pubitemid 44307480)
182. H.R. Watling The bioleaching of nickel-copper sulphides Hydrometallurgy 91 2008 70 88
183. G.M. Wenberg, F.H. Erbisch, and M.E. Volin Leaching of copper by fungi Min. Eng. 23 1971 207 212
184. M. Wengel, E. Kothe, C.M. Schmidt, K. Heide, and G. Gleixner Degradation of organic matter from black shales and charcoal by the wood-rotting fungus Schizophyllum commune and release of DOC and heavy metals in the aqueous phase Sci. Total. Environ. 367 2006 383 393 (Pubitemid 44173042)
185. Wen-Tang, L. Yan-hong, and W. Yi Removal of phosphorous from iron ore with high content phosphorous by selected hydrometallurgical process Hydrometall. China 2011 2011 02
186. R.S. Willscher, and K. Bosecker Studies on the leaching behaviour of heterotrophic micro organisms isolated from an alkaline slag dump Hydrometallurgy 71 2003 257 264
187. S. Willscher, C. Pohle, J. Sitte, and P. Werner Solubilization of heavy metals from a fluvial AMD generating tailings sediment by heterotrophic microorganisms: part I: influence of pH and solid content J. Geochem. Explor. 2-3 92 2007 177 185 (Pubitemid 46039446)
188. World Nuclear Association, and Ian Hore-Lacy In Situ Leach (ISL) Mining of Uranium 2010
189. H.Y. Wu, and Y.P. Ting Metal extraction from municipal solid waste (MSW) incinerator fly ash chemical leach in fungal bioleaching Enzyme Microbiol. Technol. 38 6 2006 839 847
190. Y. Xiang, P. Wu, N. Zhu, T. Zhang, W. Liu, J. Wu, and P. Li Bioleaching of copper from waste printed circuit boards by bacterial consortium enriched from acid mine drainage J. Hazard. Mater. 1-3 184 2010 812 818
191. T.J. Xu, and Y.P. Ting Fungal bioleaching of incineration fly ash: metal extraction and modeling growth kinetics Enzyme Microbiol. Technol. 44 5 2009 323 328
192. J. Yang, Q. Wang, Q. Wang, and T. Wu Heavy metals extraction from municipal solid waste incineration fly ash using adapted metal tolerant Aspergillus niger J. Bioresour. Technol. 100 1 2009 254 260
193. C. Yang, W. Qin, S. Lai, J. Wang, Y. Zhang, F. Jiao, L. Ren, T. Zhuang, and Z. Chang Bioleaching of a low grade nickel-copper-cobalt sulfide ore Hydrometallurgy 1-2 106 2011 32 37
194. B. Yu, H. Dong, E. Widom, J. Chen, and C. Lin Geochemistry of basal Cambrian black shales and cherts from the Northern Tarim Basin, Northwest China: implications for depositional setting and tectonic history J. Asian Earth Sci. 34 2009 418 436
195. R.Y. Zhang, J.I. Xia, J.H. Peng, Q. Zhang, C.G. Zhang, Z.Y. Nie, and Gua A new strain Leptospirillum ferriphilum YTW315 for bioleaching of metal sulfides ores Trans. Nonferrous Metall. Soc. China 1 20 2010 135 141
196. Z. Zhao, G. Zhang, G. Huo, and H. Li Kinetics of atmospheric leaching molybdenum from metalliferous black shales by air oxidation in alkali solution Hydrometallurgy 97 2009 233 236
197. 5 Hunan. Nonferrous Met. 22 1 2006 16 20
198. Y. Zhou, X. Huang, G. Huang, X. Bai, and Y. Li Cu and Fe Bioleaching in low-grade chalcopyrite and bioleaching mechanisms using Penicillium janthinellum strain GXCR Chin. J. Biotechnol. 24 11 2008 1993 2002