All abstracts by Stephan M. Kraemer in conference series: Goldschmidt
(2023) Effect of Biogenic Ligands and NOM on the Mobility of Fe and P from Vivianite Under Changing Redox ConditionsMetz R, Schenkeveld WDC, Kumar N & Kraemer SM
(2023) Experimental Evidence for Mass-Independent Fractionation of Even-Mass Mercury Isotopes Related to the Nuclear Volume Effect
Schwab L, Gallati N, Reiter SM, McLagan D, Biester H, Kumar N, Kimber R, Kraemer SM & Wiederhold JG
(2023) Exploring the Role of DNA-Mineral Interactions in the Long-Term Preservation of Ancient DNA
Singh VV, Kimber R, Kumar N & Kraemer SM
(2023) Mineralogical Controls over aDNA Recovery from Cave Sediments
Exler F, Fernandes DM, Kimber R, Oberreiter V, Sawyer SK, Kumar N, Pinhasi R & Kraemer SM
(2023) Effect of Oxygen on Synergistic Interactions between Reductive and Ligand-Promoted Fe Mobilization
Schenkeveld WDC & Kraemer SM
(2023) Mobilization of U from Noncrystalline U(IV) by Humic Substances Under Anoxic Conditions
Chardi KJ, Schenkeveld WDC, Kumar N, Giammar DE & Kraemer SM
(2023) Remobilization of Chromium by Organic Ligands in Paddy Soils
Wang W, Kistler A, Yadav A, Kumar N & Kraemer SM
(2022) Kinetic Versus Equilibrium Mercury Isotope Effects during Homogenous and Surface Catalyzed Mercury(II) Reduction by Iron(II)
Schwab L, Gallati N, McLagan DS, Biester H, Kraemer SM & Wiederhold JG
(2022) Effect of Competing Complexing Cations and Humic Substances on Ligand-Induced Mobilization of Non-Crystalline U(IV) Under Anoxic Conditions
Chardi KJ, Schenkeveld WDC, Kumar N, Noël V, Giammar DE & Kraemer SM
(2022) Suitability of Vivianite as a Long-Term Phosphate Sink in Terrestrial and Aquatic Systems and the Effect of Metal Incorporation
Metz R, Kumar N, Schenkeveld WDC, Obst M & Kraemer SM
(2021) Speciation Influences Copper Mobilisation from Marine Sediments by the Chalcophore Methanobactin
Rushworth D, Kumar N, Noel V, van Helmond NAGM, Slomp CP, Lehmann MF, Schenkeveld WDC & Kraemer SM
(2021) High Mercury Sorption in Low Organic Matter Aquifer Material Using Column Experiments
McLagan DS, Esser C, Schwab L, Pietrucha J, Wiederhold JG, Kraemer SM & Biester HU
(2021) Experimental Determination of Kinetic Mercury Isotope Fractionation during Reduction of Hg(II) by Dissolved Fe(II) and Fe(II)-bearing Minerals
Schwab L, Gallati N, McLagan DS, Kraemer SM, Biester HU & Wiederhold JG
(2021) The Mechanism and Effect of Vivianite Oxidation on the Bioavailability of P and Fe
Metz R, Kumar N, Schenkeveld WDC & Kraemer SM
(2021) Remobilization of Uranium from a Bioreduced Field Sediment by Organic Ligands
Chardi KJ, Alvarez Salas M, Kumar N, Schenkeveld WDC, Noel V, Pjevac P, Giammar D & Kraemer SM
(2020) Photogenerated Fe(II) Accelerates Ligand-Controlled Dissolution Rates of Iron(hydr)oxides
Biswakarma J, Kang K, Schenkeveld WDC, Kraemer SM, Hering JG & Hug SJ
(2019) Copper Sulfide Dissolution by Methanobactin, a Methanotrophic Chalcophore
Rushworth D, Hoffmann K, Christl I, Kretzschmar R, Schenkeveld W & Kraemer S
(2019) Fe Acquisition by Coumarins; An Interplay between Ligand-Controlled and Reductive Dissolution
Schenkeveld W, Kang K & Kraemer S
(2019) Surface Catalyzed Fe(II) Oxidation Process and its Influence on Ligand-Controlled Fe(III) (Hydr)oxide Dissolution Rate
Kang K, Schenkeveld WDC, Biswakarma J, Hug SJ, Hering JG & Kraemer SM
(2019) Isotope Exchange and Fe(II)-catalyzed Ligand-Controlled Dissolution of Iron(hydr)oxides in the Carbonate System
Biswakarma J, Kang K, Schenkeveld WDC, Kraemer SM, Hering JG & Hug SJ
(2019) Mercury Isotope and Species Analyses as a Tool to Trace Processes in Contaminated Soils and Sediments
Schwab L, McLagan DS, Kraemer SM, Biester H & Wiederhold JG
(2019) Dissolution of Iron Oxides in the Presence of Ligands and Reductants
Kraemer SM & Schenkeveld WDC
(2018) How the Ammonia Oxidizing Archaeon Nitrososphaera Viennensis Responds to Copper Limitation
Reyes C, Pribasnig T, Kerou M, Bayer B, Schleper C & Kraemer SM
(2018) Fe(II)-catalyzed Ligand-Controlled Dissolution of FeOOH: ATR-FTIR, Isotopic, and Kinetic Studies
Biswakarma J, Kang K, Schenkeveld WDC, Borowski SC, Kraemer SM, Hering JG & Hug SJ
(2017) Laboratory and Field Investigations of Methanotrophic Copper Acquisition
Rushworth DD, Reyes C, Steinle L, Schenkeveld WDC, Lehmann MF & Kraemer SM
(2017) Ligand-Controlled Fe(hydr)oxide Dissolution Catalyzed by Electron Transfer
Kang K, Biswakarma J, Borowski SC, Hug SJ, Hering JG, Schenkeveld WDC & Kraemer SM
(2017) Iron-Specificity of Plant and Microbial Siderophores in Soils
Kraemer SM, Zeller C & Schenkeveld WDC
(2017) Tracing Hg Transformations in Contaminated Soil Using Hg Isotopes
Brocza FM, Biester H, Richard J-H, Kraemer SM & Wiederhold JG
(2017) Radical Generation and Transition Metals on Chrysotile Asbestos Surfaces
Walter M, Schenkeveld WDC, Geroldinger G, Gille L & Kraemer SM
(2017) Constraints to Synergistic Effects between Ligands and Reductants in Plant Iron Acquisition from Soil
Schenkeveld WDC & Kraemer SM
(2017) Copper Uptake in the Ammonia Oxidizing Archaeon Nitrososphaera Viennensis
Reyes C, Schleper C & Kraemer S
(2016) Kinetic Specificity in Biological Iron Acquisition
Kraemer SM & Schenkeveld WDC
(2016) Oxalate and Fe(II) Adsorption onto the (010) Goethite Surface: A DFT Investigation of Ligand- and Reduction-Promoted Dissolution
Kubicki J, Tunega D & Kraemer S
(2015) Structures of Carboxylates on Iron(hydr)oxide Surfaces Studied with FTIR and DFT Calculations
Borowski S, Kubicki J, Kraemer S & Hug S
(2015) Synergisms between Fe Acquisition Strategies
Schenkeveld W, Wang Z, Giammar D & Kraemer S
(2015) Thermodynamic Versus Kinetic Specificity in Biological Iron Acquisition
Kraemer SM & Schenkeveld WDC
(2013) The Role of Soil Cu in Chelate Mediated Fe Acquisition by Plants
Schenkeveld W & Kraemer S
(2012) Coupled Geochemical Processes Limiting Phytosiderophore-Promoted Iron Uptake from Soils
Schenkeveld W, Oburger E, Schindlegger Y, Regelsberger A, Hann S, Puschenreiter M & Kraemer S
(2011) Competitive Ligand Exchange between Cu-Humate Complexes and Methanobactin
Pesch M-L, Christl I, Kraemer SM & Kretzschmar R
(2011) Size Dependent Element Interaction and Speciation in Environmental Nanoparticles
Neubauer E, von der Kammer F, Kraemer SM & Hofmann T
(2011) Microbial Fe(III)-Reduction in Highly Calcareous Agricultural Soils
Sánchez-Alcala I, Straub KL, Del Campillo MC, Kraemer SM & Torrent J
(2009) Fe Isotope Fractionation during Phyllosilicate Dissolution: Effect of Protons, Ligands and K Concentration
Kiczka M, Wiederhold JG, Kraemer SM, Bourdon B & Kretzschmar R
(2009) Sulfur Cycle Mediated Microbial Reduction of Ferric Iron
Straub KL, Schink B & Kraemer SM
(2009) Microbial Reduction of Fe-Bearing Minerals in Calcareous Soils
Sanchez-Alcala I, Straub KL, del Campillo MC, Kraemer SM & Torrent J
(2009) Photoreductive Dissolution of Lepidocrocite in the Presence and Absence of Siderophores
Kraemer S, Borer P, Sulzberger B, Hug S & Kretzschmar R
(2008) Iron Oxide Photodissolution in the Presence of Siderophores
Kraemer S, Borer P, Sulzberger B, Hug S & Kretzschmar R
(2007) The Impact of Fe Isotope Fractionation by Plants on the Isotopic Signature of Soils
Kiczka M, Wiederhold JG, Kraemer SM, Bourdon B & Kretzschmar R
(2007) Mechanistic Study of the Photodissolution of Lepidocrocite (<gamma>-FeOOH) by Model Siderophores
Borer P, Hug S, Sulzberger B, Kraemer S & Kretzschmar R
(2005) The Effect of Synthetic and Biogenic Surfactants on Iron Oxide Dissolution
Carrasco N, Kretzschmar R & Kraemer S
(2005) Iron Isotope Fractionation during Goethite Dissolution by Oxalate
Wiederhold JG, Kraemer SM, Teutsch N, Halliday AN & Kretzschmar R
(2005) The Effect of Bacterial and Plant Siderophores on uranium(IV)oxide Dissolution
Kraemer S, Frazier S & Kretzschmar R
(2004) Iron Isotope Fractionation during Soil Formation – Comparison of Ligand and Redox Controlled Processes
Wiederhold J, Teutsch N, Kraemer S, Kretzschmar R & Halliday A
(2002) Production and Isolation of Phytosiderophores
Frazier S, Reichard PU, Kretzschmar R & Kraemer SM
(2002) Fast Ligand Controlled Goethite Dissolution Kinetics Under Non-Steady State Conditions in the Presence of Siderophores and Oxalate
Reichard PU, Kretzschmar R & Kraemer SM