README

This README explains the contents of the data supporting the findings of the study:

Monier, E. et al. Toward a consistent modeling framework to assess multi-sectoral climate impacts. Nat. Commun. doi:10.1038/s41467-018-02984-9 (2018).


‘Figure2a.csv' (csv, 12KB) is a spreadsheet with time series of total anthropogenic radiative forcing (W/m2) for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios along with the 4 Representative Concentration Pathways (RCP) scenarios (van Vuuren et al., 2013). This data underlies Figure 2a from Monier et al. (2018).

‘Figure2b.csv' (csv, 16KB)is a spreadsheet with time series of global surface warming(degree Celsius) relative to 1871-1880 for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios along with the 4 RCP scenarios. The multi-model ensemble mean is shown for global mean temperature in the 4 RCPs. The number of climate models used to computed the multi-model ensemble mean for the RCP8.5, RCP6.0, RCP4.5 and RCP2.6 are, respectively, 35, 20, 36 and 26. Temperature observations are from the Berkeley Earth Surface Temperatures (BEST, Rhode et al., 2013). This data underlies Figure 2b from Monier et al. (2018).

‘ocean.pH.3periods.4scenarios.nc’ (netcdf, 631KB) is a netcdf file with mean ocean pH data, in latitude x longitude format, over 3 periods (2001-2010, 2046-2055 and 2091-2100) for the the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios. This data underlies Figure 3a and Supplementary Figure 2 from Monier et al. (2018).

‘Figure3c.csv’ (csv, 1KB) is a spreadsheet with changes in population experiencing different Water Stress Index (WSI) by 2100 (2091-2100 mean) relative to present day (2001-2010 mean) for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios. This data underlies Figure 3c from Monier et al. (2018).

‘Figure3d.csv’ (csv, 1KB) is a spreadsheet with changes in global crop yield (%) in 2050 (2046-2055 mean) and 2100 (2091-2100 mean) compared to present day (2001-2010) accounting for land management adaptation for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios. This data underlies Figure 3d from Monier et al. (2018).

‘SupplementaryFigure2a.csv’ (csv, 1KB) is a spreadsheet with time series of global anthropogenic CO2 emissions from energy (Gt CO2/year) for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios. This data underlies Supplementary Figure 2a from Monier et al. (2018).

‘SupplementaryFigure2b.csv’ (csv, 1KB) is a spreadsheet with time series of global anthropogenic GHG emissions (Gt CO2/year) for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios. This data underlies Supplementary Figure 2b from Monier et al. (2018).

‘SupplementaryFigure4.csv’ (csv, 1KB) is a spreadsheet with the ercentage of global population experiencing different level of Water Stress Index by the end of the century (2091-2100 mean) for the Paris Forever, Oceans, Mountains and 2C integrated economic and climate scenarios. This data underlies Supplementary Figure 4 from Monier et al. (2018).

Bibliography

Rohde, R. et al. A new estimate of the average earth surface land temperature spanning 1753 to 2011. Geoinformatic Geostat. Overv. 1, 1–7 (2013).

van Vuuren, D. P. et al. The representative concentration pathways: an overview. Clim. Change 109, 5–31 (2011).