The JSBACH (Jena-Scheme for Biosphere-Atmosphere Coupling in Hamburg) and TRACES (Trace Gases and Aerosol Cycles in the Earth System) project aims at the integration of climate and biogeochemistry model
Methane emission fields for natural methane fluxes (wetlands, termites, fire) from 1850 to 3009, for SSP scenarios 1-1.9, 1-2.6, 2-4.5, 3-7.0, and 5-8.5.
Fluxes generated with MPI-ESM, as described in
Supplementary material for
Torres Mendonça, G., Pongratz, J., Reick, C.H.: Identification of linear response functions from arbitrary perturbation experiments in the presence of noise - Part II. Application
Supplementary material for
Torres Mendonça, G., Pongratz, J., Reick, C.H.: Identification of linear response functions from arbitrary perturbation experiments in the presence of noise - Part I. Method development and toy model demonstration, 2021
Two sets of equilibrium simulations where vegetation and lakes are prescribed to decline gradually to analyze the effect of changes in land surface cover on North Atlantic dust deposition. Two sets of
a sensitivity study to separate the effect of changes in land surface (including lakes and vegetation) and changes in atmosphere-ocean conditions on changes in Saharan dust emission and North Atlantic
Data for publication ‘Rapid increase in simulated North Atlantic dust deposition due to fast change of northwest African landscape during the Holocene’
Time slice simulations to investigate the dynamics of North Atlantic dust deposition and its link to Saharan dust emission, landscape and climate.
This archive contains material for the publication