Abstract
Recently, assessments have robustly linked stabilization of global-mean temperature rise to the necessity of limiting the total amount of emitted carbon-dioxide (CO2). Halting global warming thus requires virtually zero annual CO2 emissions at some point. Policymakers have now incorporated this concept in the negotiating text for a new global climate agreement, but confusion remains about concepts like carbon neutrality, climate neutrality, full decarbonization, and net zero carbon or net zero greenhouse gas (GHG) emissions. Here we clarify these concepts, discuss their appropriateness to serve as a long-term global benchmark for achieving temperature targets, and provide a detailed quantification. We find that with current pledges and for a likely (>66%) chance of staying below 2 °C, the scenario literature suggests net zero CO2 emissions between 2060 and 2070, with net negative CO2 emissions thereafter. Because of residual non-CO2 emissions, net zero is always reached later for total GHG emissions than for CO2. Net zero emissions targets are a useful focal point for policy, linking a global temperature target and socio-economic pathways to a necessary long-term limit on cumulative CO2 emissions.
Highlights
Global-mean temperature rise is to first order proportional to the cumulative amount of CO2 emitted into the atmosphere
Any given level of temperature stabilization is associated with an upper bound on cumulative CO2 emissions (IPCC 2013), sometimes termed a carbon budget or quota
Based on an assessment of scenarios that take into account possible evolutions of our global society (Clarke et al 2014), the Intergovernmental Panel on Climate Change (IPCC) Synthesis Report finds that to keep warming to below 2 °C with a likely (>66%) chance, such pathways would require cumulative emissions to be limited to around 1000 GtCO2 after 2011 with near-zero long-lived greenhouse gases (GHG) by the end of the century (IPCC 2014a)
Summary
Netherlands 5 Australian-German College of Climate & Energy Transitions, School of Earth Sciences, The University of Melbourne, 3010 Melbourne, Victoria, Australia 6 PRIMAP Group, Potsdam Institute for Climate Impact Research (PIK), PO Box 60 12 03, D-14412 Potsdam, Germany 7 Center for Environmental Systems Research, Uni Kassel, D-34117 Kassel, Germany 8 Graz University of Technology, Inffeldgasse, A-8010 Graz, Austria
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