LAMACLIMA (Output of two-phase Earth system model simulations for LAMACLIMA: idealized global land-use and high-ambition future mitigation land-use scenarios.)
LAnd MAnagement for CLImate Mitigation and Adaptation (LAMACLIMA) enhances understanding of the coupled effects between climate and land cover/land management (LCLM), informing sustainable land-based adaptation
Output of first-phase Earth system model simulations for LAMACLIMA: idealized global land-use scenarios, including cropland expansion, re/afforestation, irrigation, wood harvest, and reference control
Land use plays a critical role in global mitigation and local adaptation. However, its impacts on local and remote climate and the carbon cycle remain poorly understood across Earth system models (ESMs).
This dataset contains MPI-ESM-1.2 output from the first-phase FRST simulation of idealized global forest re/afforestation. The simulation branches from the 2014 CMIP6 historical concentration-driven simulation
MPI-ESM-1.2 output from first-phase LAMACLIMA simulations: idealized global land-use scenarios, including cropland expansion, re/afforestation, irrigation, wood harvest, and control.
Land use plays a critical role in global mitigation and local adaptation. However, its impacts on local and remote climate and the carbon cycle remain poorly understood across Earth system models (ESMs).