Andreas Kappler
Andreas Kappler
Professor for Geomicrobiology, University of Tübingen, Germany
Verified email at - Homepage
Cited by
Cited by
HL Ehrlich, DK Newman
CRC press, 2008
Biogeochemical redox processes and their impact on contaminant dynamics
T Borch, R Kretzschmar, A Kappler, PV Cappellen, M Ginder-Vogel, ...
Environmental science & technology 44 (1), 15-23, 2010
The interplay of microbially mediated and abiotic reactions in the biogeochemical Fe cycle
ED Melton, ED Swanner, S Behrens, C Schmidt, A Kappler
Nature Reviews Microbiology 12 (12), 797-808, 2014
Linking N2O emissions from biochar-amended soil to the structure and function of the N-cycling microbial community
J Harter, HM Krause, S Schuettler, R Ruser, M Fromme, T Scholten, ...
The ISME journal 8 (3), 660-674, 2014
Deposition of banded iron formations by anoxygenic phototrophic Fe (II)-oxidizing bacteria
A Kappler, C Pasquero, KO Konhauser, DK Newman
Geology 33 (11), 865-868, 2005
Biochar as an electron shuttle between bacteria and Fe (III) minerals
A Kappler, ML Wuestner, A Ruecker, J Harter, M Halama, S Behrens
Environmental Science & Technology Letters 1 (8), 339-344, 2014
Geomicrobiological cycling of iron
A Kappler, KL Straub
Reviews in Mineralogy and Geochemistry 59 (1), 85-108, 2005
Phenazines and other redox-active antibiotics promote microbial mineral reduction
ME Hernandez, A Kappler, DK Newman
Applied and environmental microbiology 70 (2), 921-928, 2004
Organic coating on biochar explains its nutrient retention and stimulation of soil fertility
N Hagemann, S Joseph, HP Schmidt, CI Kammann, J Harter, T Borch, ...
Nature communications 8 (1), 1089, 2017
Humic substances as fully regenerable electron acceptors in recurrently anoxic environments
L Klüpfel, A Piepenbrock, A Kappler, M Sander
Nature Geoscience 7 (3), 195-200, 2014
Extracellular electron transfer through microbial reduction of solid-phase humic substances
EE Roden, A Kappler, I Bauer, J Jiang, A Paul, R Stoesser, H Konishi, ...
Nature geoscience 3 (6), 417-421, 2010
Electron shuttling via humic acids in microbial iron (III) reduction in a freshwater sediment
A Kappler, M Benz, B Schink, A Brune
FEMS Microbiology Ecology 47 (1), 85-92, 2004
An evolving view on biogeochemical cycling of iron
A Kappler, C Bryce, M Mansor, U Lueder, JM Byrne, ED Swanner
Nature Reviews Microbiology 19 (6), 360-374, 2021
Shewanella oneidensis MR-1 Uses Overlapping Pathways for Iron Reduction at a Distance and by Direct Contact under Conditions Relevant for Biofilms
DP Lies, ME Hernandez, A Kappler, RE Mielke, JA Gralnick, DK Newman
Applied and environmental microbiology 71 (8), 4414-4426, 2005
Magnetite and green rust: synthesis, properties, and environmental applications of mixed-valent iron minerals
M Usman, JM Byrne, A Chaudhary, S Orsetti, K Hanna, C Ruby, A Kappler, ...
Chemical reviews 118 (7), 3251-3304, 2018
Formation of Fe (III)-minerals by Fe (II)-oxidizing photoautotrophic bacteria
A Kappler, DK Newman
Geochimica et Cosmochimica Acta 68 (6), 1217-1226, 2004
Redox transformation of arsenic by Fe (II)-activated goethite (α-FeOOH)
K Amstaetter, T Borch, P Larese-Casanova, A Kappler
Environmental science & technology 44 (1), 102-108, 2010
Kinetics of microbial and chemical reduction of humic substances: implications for electron shuttling
J Jiang, A Kappler
Environmental science & technology 42 (10), 3563-3569, 2008
Iron biomineralization by anaerobic neutrophilic iron-oxidizing bacteria
J Miot, K Benzerara, G Morin, A Kappler, S Bernard, M Obst, C Férard, ...
Geochimica et Cosmochimica Acta 73 (3), 696-711, 2009
Fe (III) mineral formation and cell encrustation by the nitrate‐dependent Fe (II)‐oxidizer strain BoFeN1
A Kappler, B Schink, DK Newman
Geobiology 3 (4), 235-245, 2005
The system can't perform the operation now. Try again later.
Articles 1–20