D. Barrie Johnson
D. Barrie Johnson
Professor of Environmental Biotechnology, Bangor University
Verified email at - Homepage
Cited by
Cited by
Acid mine drainage remediation options: a review
DB Johnson, KB Hallberg
Science of the total environment 338 (1-2), 3-14, 2005
The microbiology of acidic mine waters
DB Johnson, KB Hallberg
Research in microbiology 154 (7), 466-473, 2003
Biodiversity and ecology of acidophilic microorganisms
DB Johnson
FEMS microbiology ecology 27 (4), 307-317, 1998
The iron-oxidizing proteobacteria
S Hedrich, M Schlömann, DB Johnson
Microbiology 157 (6), 1551-1564, 2011
The microbiology of biomining: development and optimization of mineral-oxidizing microbial consortia
DE Rawlings, DB Johnson
Microbiology 153 (2), 315-324, 2007
Biomining—biotechnologies for extracting and recovering metals from ores and waste materials
DB Johnson
Current opinion in biotechnology 30, 24-31, 2014
Chemical and microbiological characteristics of mineral spoils and drainage waters at abandoned coal and metal mines
DB Johnson
Water, Air and Soil Pollution: Focus 3, 47-66, 2003
Enumeration and characterization of acidophilic microorganisms isolated from a pilot plant stirred-tank bioleaching operation
N Okibe, M Gericke, KB Hallberg, DB Johnson
Applied and environmental microbiology 69 (4), 1936-1943, 2003
New approaches for extracting and recovering metals from mine tailings
C Falagán, BM Grail, DB Johnson
Minerals Engineering 106, 71-78, 2017
Selective solid media for isolating and enumerating acidophilic bacteria
DB Johnson
Journal of microbiological methods 23 (2), 205-218, 1995
Carbon, iron and sulfur metabolism in acidophilic micro-organisms
DB Johnson, KB Hallberg
Advances in microbial physiology 54, 201-255, 2008
Acidithiobacillus ferrivorans, sp. nov.; facultatively anaerobic, psychrotolerant iron-, and sulfur-oxidizing acidophiles isolated from metal mine-impacted environments
KB Hallberg, E González-Toril, DB Johnson
Extremophiles 14, 9-19, 2010
Macroscopic streamer growths in acidic, metal-rich mine waters in North Wales consist of novel and remarkably simple bacterial communities
KB Hallberg, K Coupland, S Kimura, DB Johnson
Applied and environmental microbiology 72 (3), 2022-2030, 2006
Biodiversity of acidophilic prokaryotes
KB Hallberg, DB Johnson
Academic Press 49, 37-84, 2001
Redox transformations of iron at extremely low pH: fundamental and applied aspects
DB Johnson, T Kanao, S Hedrich
Frontiers in microbiology 3, 96, 2012
Remediation of acidic waste waters using immobilised, acidophilic sulfate‐reducing bacteria
Ĺ Kolmert, DB Johnson
Journal of Chemical Technology & Biotechnology: International Research in …, 2001
Reduction of soluble iron and reductive dissolution of ferric iron-containing minerals by moderately thermophilic iron-oxidizing bacteria
TAM Bridge, DB Johnson
Applied and environmental microbiology 64 (6), 2181-2186, 1998
Biological manganese removal from acid mine drainage in constructed wetlands and prototype bioreactors
KB Hallberg, DB Johnson
Science of the Total Environment 338 (1-2), 115-124, 2005
Biodiversity, metabolism and applications of acidophilic sulfur‐metabolizing microorganisms
M Dopson, DB Johnson
Environmental Microbiology 14 (10), 2620-2631, 2012
A comparative study of the microbiology of soils managed under organic and conventional regimes
D Shannon, AM Sen, DB Johnson
Soil Use and Management 18, 274-283, 2002
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