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- Idealized experiments designed to quantify carbon cycle feedback sensitivities
- Idealized 1% per year CO2, BGC coupling, C-driven, constant N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (140 y)
- Idealized 1% per year CO2, RAD coupling, C-driven, constant N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (140 y)
- Idealized 1% per year CO2, FULL coupling, C-driven, constant N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (140 y)
- Idealized experiments designed to quantify the influence of nutrient cycles on carbon cycle feedback sensitivities
- Idealized 1% per year CO2, BGC coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (140 y)
- Idealized 1% per year CO2, RAD coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (140 y)
- Idealized 1% per year CO2, FULL coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (140 y)
- Pre-industrial control experiment to quantify residual drift in climate and biogeochemical cycles
- 500–1000 y control, C-driven, constant N-dep, aerosols, CH4 and other GHGs, no crops or LUC or management (500–1000 y)
- Historical experiments designed to evaluate model performance and investigate emergent constraints
- Historical CO2, BGC coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (165 y)
- Historical CO2, RAD coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (165 y)
- Historical CO2, FULL coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (165 y)
- Historical CO2, BGC coupling, E-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (165 y)
- Historical CO2, RAD coupling, E-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (165 y)
- Historical CO2, FULL coupling, E-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (165 y)
- Future scenario experiments to quantify future changes in carbon cycle storage for given CO2 emission trajectories
- SSP5-8.5 to 2100, BGC coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (85 y)
- SSP5-8.5 to 2100, RAD coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (85 y)
- SSP5-8.5 to 2100, FULL coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (85 y)
- SSP5-8.5 to 2100, BGC coupling, E-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (85 y)
- SSP5-8.5 to 2100, RAD coupling, E-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (85 y)
- SSP5-8.5 to 2100, FULL coupling, E-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (85 y)
- Extension of future scenario experiments to quantify non-linear carbon cycle feedbacks, strengthening of biogeophysical & biogeochemical feedbacks, and shifting strength of ocean and land feedbacks
- SSP-8.5 to 2300, BGC coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (200 y)
- SSP-8.5 to 2300, RAD coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (200 y)
- SSP-8.5 to 2300, FULL coupling, C-driven, increasing N-dep, aerosols, CH4 and other GHGs, dynamic crops and LUC and management (200 y)
Water Cycle Experiments
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