All abstracts by Martin Thullner in conference series: Goldschmidt
(2023) Isotope Fractionation Reveals Limitations and Microbial Regulation of Pollutant Biodegradation at Low ConcentrationsElsner M, Sun F, Kundu K, Ehrl B, Gharasoo M, Marozava S, Mellage A, Merl-Pham J, Peters J, Wang Z, Bakkour R, Melsbach A, Cao X, Zimmermann R, Griebler C, Thullner M & Cirpka OA
(2021) Response of Microbial Activity to Dynamic Flow Conditions in the Vadose Zone: A Modeling Study
Khurana S, Heße F & Thullner M
(2020) Influence of Spatio-Temporal Heterogeneity on Biogeochemical Cycling in the Subsurface Using a Numerical Modeling Approach
Khurana S, Heße F & Thullner M
(2019) Using Triple-Isotope Analysis for Quantifying the Contribution of Three Competing Pathways to Total Degradation
Thullner M, Centler F & Hofstetter T
(2017) How Porous Media Heterogeneities Influence Biodegradation of a Self-Inhibiting Substrate
Gharasoo M, Elsner M & Thullner M
(2013) Relevance of Mass Transfer Processes for the Interpretation of Stable Isotope Fractionation
Thullner M, Centler F, Fischer A, Hesse F, Richnow H-H & Wick LY
(2012) Removal of Volatile Groundwater Contaminants in Vertical Soil Filter Systems: Quantitative Process Analysis
Thullner M, De Biase C, Maier U & Oswald S
(2012) Multi-Scale Modeling of Transverse Reactive Mixing in a Coastal Aquifer
M.Nick H, Raoof A, Thullner M & Regnier P
(2012) Implementing Stable Isotope Fractionation of Two Elements in Reactive Transport Models to Validate Novel Assessment Methods for Biodegradation in Aquifers
Centler F & Thullner M
(2011) Pore Scale Heterogeneity of Porous Media Influencing the Spatial and Temporal Distribution of Microbial Metabolic Activity
Stolpovsky K, Gharasoo M & Thullner M
(2009) Stable Isotope Fractionation as a Tool to Determine Substrate Bioavailability
Thullner M, Kampara M, Richnow H, Harms H & Wick L
(2009) Dynamic Response of Microbial Activity to Intermittent Stress: Effects of Dormancy in Biogeochemical Simulations
Stolpovsky K, Van Cappellen P & Thullner M
(2004) Reactive Transport Modeling of Sediment Oxygen Demand in Lake Erie Sediments
Matisoff G, Aguilera D & Thullner M