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Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches.

Research output: Contribution to conferencePaper

Standard Standard

Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches. / Kimura, S.; Coupland, K.; Hallberg, K.B. et al.
2004. 1057-1065 Paper presented at Biohydrometallurgy; a sustainable technology in evolution.

Research output: Contribution to conferencePaper

HarvardHarvard

Kimura, S, Coupland, K, Hallberg, KB, Johnson, DB, Tsezos, M (ed.), Hatzikioseyian, A (ed.) & Remoudaki, E (ed.) 2004, 'Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches.', Paper presented at Biohydrometallurgy; a sustainable technology in evolution, 1/01/04 pp. 1057-1065.

APA

Kimura, S., Coupland, K., Hallberg, K. B., Johnson, D. B., Tsezos, M. (Ed.), Hatzikioseyian, A. (Ed.), & Remoudaki, E. (Ed.) (2004). Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches.. 1057-1065. Paper presented at Biohydrometallurgy; a sustainable technology in evolution.

CBE

Kimura S, Coupland K, Hallberg KB, Johnson DB, Tsezos M, Hatzikioseyian A, Remoudaki E, ed. 2004. Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches. Paper presented at Biohydrometallurgy; a sustainable technology in evolution.

MLA

Kimura, S. et al. Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches.. Biohydrometallurgy; a sustainable technology in evolution, 01 Jan 2004, Paper, 2004.

VancouverVancouver

Kimura S, Coupland K, Hallberg KB, Johnson DB, Tsezos M, (ed.), Hatzikioseyian A, (ed.) et al.. Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches.. 2004. Paper presented at Biohydrometallurgy; a sustainable technology in evolution.

Author

Kimura, S. ; Coupland, K. ; Hallberg, K.B. et al. / Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches. Paper presented at Biohydrometallurgy; a sustainable technology in evolution.

RIS

TY - CONF

T1 - Composition of biofilm communities in acidic mine waters as revealed by combined cultivation and biomolecular approaches.

AU - Kimura, S.

AU - Coupland, K.

AU - Hallberg, K.B.

AU - Johnson, D.B.

A2 - Tsezos, M.

A2 - Hatzikioseyian, A.

A2 - Remoudaki, E.

PY - 2004/1/1

Y1 - 2004/1/1

M3 - Paper

SP - 1057

EP - 1065

T2 - Biohydrometallurgy; a sustainable technology in evolution

Y2 - 1 January 2004

ER -