Thorben Amann
Thorben Amann
Center for Earth System Research and Sustainability (CEN), University of Hamburg
Email verificata su - Home page
Citata da
Citata da
Negative emissions—Part 2: Costs, potentials and side effects
S Fuss, WF Lamb, MW Callaghan, J Hilaire, F Creutzig, T Amann, ...
Environmental Research Letters 13 (6), 063002, 2018
Negative emissions—Part 1: Research landscape and synthesis
JC Minx, WF Lamb, MW Callaghan, S Fuss, J Hilaire, F Creutzig, T Amann, ...
Environmental Research Letters 13 (6), 063001, 2018
Potential and costs of Carbon Dioxide Removal by Enhanced Weathering of rocks
J Strefler, T Amann, N Bauer, E Kriegler, J Hartmann
Environmental Research Letters 13 (3), 034010, 2018
Potential CO2 removal from enhanced weathering by ecosystem responses to powdered rock
DS Goll, P Ciais, T Amann, W Buermann, J Chang, S Eker, J Hartmann, ...
Nature Geoscience 14 (8), 545-549, 2021
Enhanced Weathering and related element fluxes–a cropland mesocosm approach
T Amann, J Hartmann, E Struyf, W de Oliveira Garcia, EK Fischer, ...
Biogeosciences 17 (1), 103-119, 2020
Carbon dynamics in the freshwater part of the Elbe estuary, Germany: Implications of improving water quality
T Amann, A Weiss, J Hartmann
Estuarine, Coastal and Shelf Science 107, 112-121, 2012
Increasing biomass demand enlarges negative forest nutrient budget areas in wood export regions
W de Oliveira Garcia, T Amann, J Hartmann
Scientific Reports 8 (1), 5280, 2018
Earthquake-induced structural deformations enhance long-term solute fluxes from active volcanic systems
T Hosono, J Hartmann, P Louvat, T Amann, KE Washington, AJ West, ...
Scientific reports 8 (1), 14809, 2018
Terrestrial sediments of the earth: development of a global unconsolidated sediments map database (GUM)
J B÷rker, J Hartmann, T Amann, G Romero‐Mujalli
Geochemistry, Geophysics, Geosystems 19 (4), 997-1024, 2018
Impacts of enhanced weathering on biomass production for negative emission technologies and soil hydrology
W de Oliveira Garcia, T Amann, J Hartmann, K Karstens, A Popp, ...
Biogeosciences 17 (7), 2107-2133, 2020
Ideas and perspectives: Synergies from co-deployment of negative emission technologies
T Amann, J Hartmann
Biogeosciences 16 (15), 2949-2960, 2019
Inorganic carbon fluxes in the inner Elbe estuary, Germany
T Amann, A Weiss, J Hartmann
Estuaries and Coasts 38, 192-210, 2015
Carbon accounting for Enhanced Weathering
T Amann, J Hartmann
Frontiers in Climate, 54, 2022
Silica fluxes in the inner Elbe Estuary, Germany
T Amann, A Weiss, J Hartmann
Biogeochemistry 118 (1-3), 389-412, 2014
Chemical weathering of loess and its contribution to global alkalinity fluxes to the coastal zone during the Last Glacial Maximum, Mid‐Holocene, and Present
J B÷rker, J Hartmann, T Amann, G Romero‐Mujalli, N Moosdorf, ...
Geochemistry, Geophysics, Geosystems 21 (7), e2020GC008922, 2020
Silica dynamics of tidal marshes in the inner Elbe Estuary, Germany
A Weiss, T Amann, J Hartmann
Silicon 5, 75-89, 2013
Enhanced Weathering potentials-the role of in situ CO2 and grain size distribution
T Amann, J Hartmann, R Hellmann, ET Pedrosa, A Malik
Frontiers in Climate 4, 131, 2022
Silicon isotope composition of dissolved silica in surface waters of the Elbe Estuary and its tidal marshes
A Weiss, C De La Rocha, T Amann, J Hartmann
Biogeochemistry 124, 61-79, 2015
Constraints on Enhanced Weathering and related carbon sequestration–a cropland mesocosm approach
T Amann
Deutsche Nationalbibliothek, 2018
Hydrothermal and magmatic contributions to surface waters in the Aso caldera, southern Japan: Implications for weathering processes in volcanic areas
G Romero-Mujalli, J Hartmann, T Hosono, P Louvat, K Okamura, ...
Chemical Geology 588, 120612, 2022
Il sistema al momento non pu˛ eseguire l'operazione. Riprova pi¨ tardi.
Articoli 1–20