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Abstract While cumulative carbon dioxide (CO 2 ) emissions dominate anthropogenic warming over centuries, temperatures over the coming decades are also strongly affected by short-lived climate pollutants (SLCPs), complicating the estimation of cumulative emission budgets for ambitious mitigation goals. Using conventional Global Warming Potentials (GWPs) to convert SLCPs to “CO 2 -equivalent” emissions misrepresents their impact on global temperature. Here we show that peak warming under a range of mitigation scenarios is determined by a linear combination of cumulative CO 2 emissions to the time of peak warming and non-CO 2 radiative forcing immediately prior to that time. This may be understood by expressing aggregate non-CO 2 forcing as cumulative CO 2 forcing-equivalent (CO 2 -fe) emissions. We show further that contributions to CO 2 -fe emissions are well approximated by a new usage of GWP, denoted GWP*, which relates cumulative CO 2 emissions to date with the current rate of emission of SLCPs. GWP* accurately indicates the impact of emissions of both long-lived and short-lived pollutants on radiative forcing and temperatures over a wide range of timescales, including under ambitious mitigation when conventional GWPs fail. Measured by GWP*, implementing the Paris Agreement would reduce the expected rate of warming in 2030 by 28% relative to a No Policy scenario. Expressing mitigation efforts in terms of their impact on future cumulative emissions aggregated using GWP* would relate them directly to contributions to future warming, better informing both burden-sharing discussions and long-term policies and measures in pursuit of ambitious global temperature goals.
Allen et al. (Wed,) studied this question.