Litcius/Paper detail

Much of zero emissions commitment occurs before reaching net zero emissions

Charles D. Koven, Benjamin M. Sanderson, Abigail L. S. Swann

2022Environmental Research Letters26 citationsDOIOpen Access PDF

Abstract

Abstract We explore the response of the Earth’s coupled climate and carbon system to an idealized sequential addition and removal of CO 2 to the atmosphere, following a symmetric and continuous emissions pathway, in contrast to the discontinuous emissions pathways that have largely informed our understanding of the climate response to net zero and net negative emissions to date. We find, using both an Earth system model and an ensemble of simple climate model realizations, that warming during the emissions reduction and negative emissions phases is defined by a combination of a proportionality of warming to cumulative emissions characterized by the transient climate response to emissions (TCRE), and a deviation from that proportionality that is governed by the zero emissions commitment (ZEC). About half of the ZEC is realized before reaching zero emissions, and the ZEC thus also controls the timing between peak cumulative CO 2 emissions and peak temperature, such that peak temperature may occur before peak cumulative emissions if ZEC is negative, underscoring the importance of ZEC in climate policies aimed to limit peak warming. Thus we argue that ZEC is better defined as the committed warming relative to the expected TCRE proportionality, rather than as the additional committed warming that will occur after reaching net zero CO 2 emissions. Once established, the combined TCRE and ZEC relationship holds almost to complete removal of prior cumulative CO 2 emissions. As cumulative CO 2 emissions approach zero through negative CO 2 emissions, CO 2 concentrations drop below preindustrial values, while residual long-term climate change continues, governed by multicentennial dynamical processes.

Topics & Concepts

Greenhouse gasEnvironmental scienceClimate changeAtmospheric sciencesCumulative effectsCarbon dioxide equivalentGlobal warmingClimate modelZero emissionClimatologyPhysicsBiologyEcologyGeologyAtmospheric and Environmental Gas DynamicsClimate Change Policy and EconomicsClimate Change and Geoengineering