5.5 Parameter effect split by scenarios
| Scenario label | Scenario condition |
|---|---|
| plantsImprove | ‘utility_per_capita_type_n_plants_to_humans > utility_per_capita_type_1_plants_to_humans’ |
| humansImprove | ‘utility_per_capita_type_n_humans_to_plants > utility_per_capita_type_1_humans_to_plants’ |
| bothImprove | ‘utility_per_capita_type_n_plants_to_humans > utility_per_capita_type_1_plants_to_humans ~~~ AND ~~~ utility_per_capita_type_n_humans_to_plants > utility_per_capita_type_1_humans_to_plants’ |
| plantsLessBase | ‘utility_other_to_type_1_plants > utility_other_to_type_n_plants’ |
| humansLessBase | ‘utility_other_to_type_1_humans > utility_other_to_type_n_humans’ |
| bothLessBase | ‘utility_per_capita_type_n_plants_to_humans > utility_per_capita_type_1_plants_to_humans ~~~ AND ~~~ utility_per_capita_type_n_humans_to_plants > utility_per_capita_type_1_humans_to_plants’ |
5.5.1 Mutualistic human type gives more utility (\(\bar{U}_{H_{n}P}> \bar{U}_{H_{1}P}\))
Coevolution coefficients
Dependency coefficients
Timings
5.5.2 Mutualistic plant type gives more utility (\(\bar{U}_{P_{n}H}> \bar{U}_{P_{1}H}\))
Coevolution coefficients
Dependency coefficients
Timings
5.5.3 Mutualistic types (human and plant) give more utility (\(\bar{U}_{H_{n}P}> \bar{U}_{H_{1}P}\) AND \(\bar{U}_{P_{n}H}> \bar{U}_{P_{1}H}\))
Coevolution coefficients
Dependency coefficients
Timings
5.5.4 Mutualistic human type gets less utility from other resources (\(U_{bH_{1}}>U_{bH_{n}}\))
Coevolution coefficients
Dependency coefficients
Timings
5.5.5 Mutualistic plant type gets less utility from other resources (\(U_{bP_{1}}>U_{bP_{n}}\))
Coevolution coefficients
Dependency coefficients
Timings
5.5.6 Mutualistic types (human and plant) get less utility from other resources (\(U_{bH_{1}}>U_{bH_{n}}\) AND \(U_{bP_{1}}>U_{bP_{n}}\))
Coevolution coefficients
Dependency coefficients
Timings
