id,name,description,createdAt,updatedAt,datasetId,additionalInfo,link,dataPublishedBy
17615,"CO2 mitigation curves for 1.5C (Andrews & GCP, 2019)","{""link"": ""http://folk.uio.no/roberan/t/global_mitigation_curves.shtml"", ""retrievedDate"": ""13th December 2019"", ""additionalInfo"": ""Data denotes the range of CO2 mitigation curves for a range of 'start year scenarios': scenarios are based on the annual emission reductions necessary to keep global temperature rise below 1.5C if emissions mitigation was to start in a given year. \n\nFor example, 'Start in 2010' marks the necessary future emissions pathway to have a >66% chance of keeping global average temperatures below 1.5C warming if global CO2 emissions mitigation had started in 2010, very quickly peaking then falling. \n\nData is sourced from Robbie Andrew, and available for download here: http://folk.uio.no/roberan/t/global_mitigation_curves.shtml\n\nHistorical emissions to 2017 are sourced from CDIAC/Global Carbon Project, projection to 2018 from Global Carbon Project (Le Quéré et al. 2018).\n\nGlobal cumulative CO2 emissions budgets are from the IPCC Special Report on 1.5°C (Rogelj et al 2018): 420 GtCO2 for a 66% of 1.5°C and 1170 GtCO2 for a 66% of 2°C. Mitigation curves describe approximately exponential decay pathways such that the quota is never exceeded (see Raupach et al., 2014)."", ""dataPublishedBy"": ""Robbie Andrews, based on data from the Global Carbon Project"", ""dataPublisherSource"": ""Historical emissions to 2017 from CDIAC/Global Carbon Project, projection to 2018 from Global Carbon Project (Le Quéré et al. 2018)""}",2019-12-13 12:22:24,2019-12-13 12:22:24,4884,"Data denotes the range of CO2 mitigation curves for a range of 'start year scenarios': scenarios are based on the annual emission reductions necessary to keep global temperature rise below 1.5C if emissions mitigation was to start in a given year. 

For example, 'Start in 2010' marks the necessary future emissions pathway to have a >66% chance of keeping global average temperatures below 1.5C warming if global CO2 emissions mitigation had started in 2010, very quickly peaking then falling. 

Data is sourced from Robbie Andrew, and available for download here: http://folk.uio.no/roberan/t/global_mitigation_curves.shtml

Historical emissions to 2017 are sourced from CDIAC/Global Carbon Project, projection to 2018 from Global Carbon Project (Le Quéré et al. 2018).

Global cumulative CO2 emissions budgets are from the IPCC Special Report on 1.5°C (Rogelj et al 2018): 420 GtCO2 for a 66% of 1.5°C and 1170 GtCO2 for a 66% of 2°C. Mitigation curves describe approximately exponential decay pathways such that the quota is never exceeded (see Raupach et al., 2014).",http://folk.uio.no/roberan/t/global_mitigation_curves.shtml,"Robbie Andrews, based on data from the Global Carbon Project"