README.md

Overview of figures, tables and statistics generated from the notebooks

• Notebook sr15_2.0_categories_indicators

  • Validation of scenario data
  • Categorisation by climate impact and warming trajectory including Table 2.1
  • Assignment of illustrative pathway archetypes
  • Computation of metadata indicators

• Notebook spm_sr15_statements

  • Summary statistics and indicators derived from the scenario assessment highlighted in the Summary for Policy Makers (SPM)

• Notebook spm_sr15_figure_3a_global_emissions_pathways

  • Data tables of emissions pathways for Summary for Policymakers (SPM), Figure 3a

• Notebook spm_sr15_figure_3b_illustrative_pathways

  • Diagnostic indicators of illustrative pathways for Summary for Policymakers (SPM), Figure 3b

• Notebook sr15_2.3.1_range_of_assumptions

  • Figure 2.4: Range of assumptions about socio-economic drivers and projections for energy and food demand in the pathways available for this assessment.

• Notebook sr15_2.3.3_global_emissions_characteristics

  • Figure 2.6: Annual global emissions characteristics for 2020, 2030, 2050 and 2100.

• Notebook sr15_2.3.3_global_emissions_statistics

  • Table 2.4: Annual global emissions and absolute annual rates of change

• Notebook sr15_2.3.3_short-lived_climate_forcers

  • Figure 2.7: Global characteristics of a selection of short-lived non-CO2 emissions until mid-century.

• Notebook sr15_2.3.3_short-lived_climate_forcers_radiative_forcing

  • Figure 2.8: Estimated aggregated effective radiative forcing of SLCFs for 1.5°C and 2°C pathway classes in 2010, 2030, 2050, and 2100, as estimated by the FAIR model (Smith et al., 2018).

• Notebook sr15_2.3.4_carbon_dioxide_removal

  • Figure 2.9: Cumulative deployment of carbon dioxide removal (CDR) in 1.5°C-consistent pathways

• Notebook sr15_2.4.1_final_energy

  • Figure 2.14: Decomposition of transformation pathways by energy demand, carbon intensity of electricity, the electricity share in final energy, and the carbon intensity of the residual (non-electricity) fuel mix

• Notebook sr15_2.4.2.1_primary_energy_marker-scenarios

  • Figure 2.15: Primary energy supply for the four illustrative pathway archetypes and the IEA’s Faster Transition Scenario, and their relative location in the ranges for 1.5°C and 2°C pathways

• Notebook sr15_2.4.2.1_primary_energy_statistics

  • Table 2.6: Descriptive statistics of global primary energy supply

• Notebook sr15_2.4.2.2_electricity_generation_marker-scenarios

  • Figure 2.16: Electricity generation for the four illustrative pathway archetypes and the IEA’s Faster Transition Scenario, and their relative location in the ranges for 1.5°C and 2°C pathways

• Notebook sr15_2.4.2.2_electricity_generation_statistics

  • Table 2.7: Descriptive statistics of electricity generation by fuel

• Notebook sr15_2.4.2.3_ccs_deployment

  • Figure 2.17: CCS deployment in 1.5°C and 2°C pathways for biomass, coal and natural gas, and the cumulative quantity of carbon dioxide stored

• Notebook sr15_2.4.4_afolu_emissions

  • Figure 2.25: Agricultural non-CO2 emissions in 1.5°C pathways

• Notebook sr15_2.5_carbon_price_analysis

  • Figure 2.26: Global price of carbon emissions consistent with mitigation pathways grouped by warming category
  • Assessment of relative carbon prices between pairs of 1.5°C vs. 2°C pathways

• Notebook sr15_4.2_sectoral_indicators

  • Table 4.1: Sectoral indicators of the pace of transformation

• Notebook sr15_2.SM.4_geophysical_characteristics

  • Table 2.SM.12: Geophysical characteristics of mitigation pathways

• Notebook sr15_4.SM.1_supplementary_sectoral_indicators

  • Table 4.SM.1: Supplementary indicators of the pace of transformation in mitigation pathways and sectoral studies