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Quantifying the probability distribution function of the transient climate response to cumulative CO<sub>2</sub> emissions

Lynsay Spafford, Andrew H. MacDougall

2020Environmental Research Letters20 citationsDOIOpen Access PDF

Abstract

Abstract The Transient Climate Response to Cumulative CO 2 Emissions (TCRE) is the proportionality between global temperature change and cumulative CO 2 emissions. The TCRE implies a finite quantity of CO 2 emissions, or carbon budget, consistent with a given temperature change limit. The uncertainty of the TCRE is often assumed be normally distributed, but this assumption has yet to be validated. We calculated the TCRE using a zero-dimensional ocean diffusive model and a Monte-Carlo error propagation ( n = 10 000 000) randomly drawing from probability density functions of the climate feedback parameter, the land-borne fraction of carbon, radiative forcing from an e-fold increase in CO 2 concentration, effective ocean diffusivity, and the ratio of sea to global surface temperature change. The calculated TCRE has a positively skewed distribution, ranging from 1.1 to 2.9 K EgC −1 (5%–95% confidence), with a mean and median value of 1.9 and 1.8 K EgC −1 . The calculated distribution of the TCRE is well described by a log-normal distribution. The CO 2 -only carbon budget compatible with 2 °C warming is 1100 PgC, ranging from 700 to 1800 PgC (5%–95% confidence) estimated using a simplified model of ocean dynamics. Climate sensitivity is the most influential Earth System parameter on the TCRE, followed by the land-borne fraction of carbon, radiative forcing from an e-fold increase in CO 2 , effective ocean diffusivity, and the ratio of sea to global surface temperature change. While the uncertainty of the TCRE is considerable, the use of a log-normal distribution may improve estimations of the TCRE and associated carbon budgets.

Topics & Concepts

Radiative forcingEnvironmental scienceCumulative distribution functionClimate modelClimate changeProbability density functionClimate sensitivityAtmospheric sciencesClimatologyPhysicsMeteorologyStatisticsMathematicsGeologyOceanographyAerosolAtmospheric and Environmental Gas DynamicsClimate variability and modelsClimate Change Policy and Economics
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