Andreas Kappler
Affiliations: | 2000 | Universität Tübingen, Tubingen, Germany |
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"Andreas Kappler"Parents
Sign in to add mentor| Andreas Brune | grad student | 2000 | Universität Tübingen, Tubingen, Germany |
Children
Sign in to add trainee| Aleksandra Mloszewska | post-doc | 2015-2016 | Universität Tübingen (Evolution Tree) |
| Yu Pei | post-doc | 2022-2023 | Universität Tübingen, Tubingen, Germany |
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Publications
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| Xiang Y, Hou J, Ren L, et al. (2025) Spontaneous Abiotic Reduction of Arsenate to Arsenite Mediated by Structural Fe(II) Resulting from Abundant Oxygen Vacancy Clusters in Poorly Crystalline Ferrihydrite in Drought Environments. Environmental Science & Technology |
| Xu X, Mansor M, Li G, et al. (2025) Size-Dependent Reduction Kinetics of Iron Oxides in Single and Mixed Mineral Systems. Environmental Science & Technology |
| Grimm H, Lorenz J, Straub D, et al. (2024) Nitrous oxide is the main product during nitrate reduction by a novel lithoautotrophic iron(II)-oxidizing culture from an organic-rich paddy soil. Applied and Environmental Microbiology. e0126224 |
| Nikeleit V, Mellage A, Bianchini G, et al. (2024) Inhibition of phototrophic iron oxidation by nitric oxide in ferruginous environments. Nature Geoscience. 17: 1169-1174 |
| Wu YF, Huang H, Zhang J, et al. (2024) Sulfate-mediated Fe(III) mineral reduction accelerates arsenic mobilization by a Desulfovibrio strain isolated from paddy soil. The Science of the Total Environment. 954: 176529 |
| Liu J, Duan Y, Chen H, et al. (2024) Extent of As(III) versus As(V) adsorption on iron (oxyhydr) oxides depends on the presence of vacancy cluster-like micropore sites: Insights into a seesaw effect. The Science of the Total Environment. 954: 176376 |
| Grimm H, Drabesch S, Nicol A, et al. (2024) Arsenic immobilization and greenhouse gas emission depend on quantity and frequency of nitrogen fertilization in paddy soil. Heliyon. 10: e35706 |
| Voggenreiter E, Schmitt-Kopplin P, ThomasArrigo L, et al. (2024) Emerging investigator series: preferential adsorption and coprecipitation of permafrost organic matter with poorly crystalline iron minerals. Environmental Science. Processes & Impacts |
| Chauhan A, Patzner MS, Bhattacharyya A, et al. (2024) Interactions between iron and carbon in permafrost thaw ponds. The Science of the Total Environment. 946: 174321 |
| Han X, Wang F, Zheng S, et al. (2024) Morphological, Microstructural, and In Situ Chemical Characteristics of Siderite Produced by Iron-Reducing Bacteria. Environmental Science & Technology |