TY - JOUR
T1 - Geological Net Zero and the need for disaggregated accounting for carbon sinks
AU - Allen, Myles R.
AU - Frame, David J.
AU - Friedlingstein, Pierre
AU - Gillett, Nathan P.
AU - Grassi, Giacomo
AU - Gregory, Jonathan M.
AU - Hare, William
AU - House, Jo
AU - Huntingford, Chris
AU - Jenkins, Stuart
AU - Jones, Chris D.
AU - Knutti, Reto
AU - Lowe, Jason A.
AU - Matthews, H. Damon
AU - Meinshausen, Malte
AU - Meinshausen, Nicolai
AU - Peters, Glen P.
AU - Plattner, Gian Kasper
AU - Raper, Sarah
AU - Rogelj, Joeri
AU - Stott, Peter A.
AU - Solomon, Susan
AU - Stocker, Thomas F.
AU - Weaver, Andrew J.
AU - Zickfeld, Kirsten
N1 - Publisher Copyright:
© Springer Nature Limited 2024.
PY - 2025/2/13
Y1 - 2025/2/13
N2 - Achieving net-zero global emissions of carbon dioxide (CO2), with declining emissions of other greenhouse gases, is widely expected to halt global warming. CO2 emissions will continue to drive warming until fully balanced by active anthropogenic CO2 removals. For practical reasons, however, many greenhouse gas accounting systems allow some ‘passive’ CO2 uptake, such as enhanced vegetation growth owing to CO2 fertilization, to be included as removals in the definition of net anthropogenic emissions. By including passive CO2 uptake, nominal net-zero emissions would not halt global warming, undermining the Paris Agreement. Here we discuss measures to address this problem, to ensure residual fossil fuel use does not cause further global warming: land management categories should be disaggregated in emissions reporting and targets to better separate the role of passive CO2 uptake; where possible, claimed removals should be additional to passive uptake; and targets should acknowledge the need for Geological Net Zero, meaning one tonne of CO2 permanently restored to the solid Earth for every tonne still generated from fossil sources. We also argue that scientific understanding of Net Zero provides a basis for allocating responsibility for the protection of passive carbon sinks during and after the transition to Geological Net Zero.
AB - Achieving net-zero global emissions of carbon dioxide (CO2), with declining emissions of other greenhouse gases, is widely expected to halt global warming. CO2 emissions will continue to drive warming until fully balanced by active anthropogenic CO2 removals. For practical reasons, however, many greenhouse gas accounting systems allow some ‘passive’ CO2 uptake, such as enhanced vegetation growth owing to CO2 fertilization, to be included as removals in the definition of net anthropogenic emissions. By including passive CO2 uptake, nominal net-zero emissions would not halt global warming, undermining the Paris Agreement. Here we discuss measures to address this problem, to ensure residual fossil fuel use does not cause further global warming: land management categories should be disaggregated in emissions reporting and targets to better separate the role of passive CO2 uptake; where possible, claimed removals should be additional to passive uptake; and targets should acknowledge the need for Geological Net Zero, meaning one tonne of CO2 permanently restored to the solid Earth for every tonne still generated from fossil sources. We also argue that scientific understanding of Net Zero provides a basis for allocating responsibility for the protection of passive carbon sinks during and after the transition to Geological Net Zero.
UR - https://www.scopus.com/pages/publications/85213214390
U2 - 10.1038/s41586-024-08326-8
DO - 10.1038/s41586-024-08326-8
M3 - Article
C2 - 39557072
AN - SCOPUS:85213214390
SN - 0028-0836
VL - 638
SP - 343
EP - 350
JO - Nature
JF - Nature
IS - 8050
ER -