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Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters

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Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters. / Johnson, D. B.; Jameson, E.; Rowe, O. F. et al.
Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation. Cyfrol 71-73 Trans Tech Publications, 2009. t. 693-696 (Advanced Materials Research).

Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion CynhadleddPennodadolygiad gan gymheiriaid

HarvardHarvard

Johnson, DB, Jameson, E, Rowe, OF, Wakeman, K & Hallberg, KB 2009, Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters. yn Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation. cyfrol. 71-73, Advanced Materials Research, Trans Tech Publications, tt. 693-696.

APA

Johnson, D. B., Jameson, E., Rowe, O. F., Wakeman, K., & Hallberg, K. B. (2009). Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters. Yn Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation (Cyfrol 71-73, tt. 693-696). (Advanced Materials Research). Trans Tech Publications.

CBE

Johnson DB, Jameson E, Rowe OF, Wakeman K, Hallberg KB. 2009. Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters. Yn Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation. Trans Tech Publications. tt. 693-696. (Advanced Materials Research).

MLA

Johnson, D. B. et al. "Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters". Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation. Advanced Materials Research. Trans Tech Publications. 2009, 693-696.

VancouverVancouver

Johnson DB, Jameson E, Rowe OF, Wakeman K, Hallberg KB. Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters. Yn Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation. Cyfrol 71-73. Trans Tech Publications. 2009. t. 693-696. (Advanced Materials Research).

Author

Johnson, D. B. ; Jameson, E. ; Rowe, O. F. et al. / Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters. Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation. Cyfrol 71-73 Trans Tech Publications, 2009. tt. 693-696 (Advanced Materials Research).

RIS

TY - CHAP

T1 - Sulfidogenesis at low pH by acidophilic bacteria and its potential for the selective recovery of transition metals from mine waters

AU - Johnson, D. B.

AU - Jameson, E.

AU - Rowe, O. F.

AU - Wakeman, K.

AU - Hallberg, K. B.

PY - 2009/9/24

Y1 - 2009/9/24

KW - Acidithiobacilllus ferrooxidans

KW - metal precipitation

KW - sulfate-reducing bacteria

KW - sulfidogenesis

KW - sulfate reduction

KW - sulfur reduction

M3 - Chapter

SN - 9780878493227

VL - 71-73

T3 - Advanced Materials Research

SP - 693

EP - 696

BT - Biohydrometallurgy: a meeting point between microbial ecology,metal recovery processes and environmental remediation

PB - Trans Tech Publications

ER -