Abstract
Societal Impact Statement: The global carbon budget provides annual updates to society on the main cause of climate change—CO2 emissions—and quantifies carbon-uptake ecosystem services provisioned by the biosphere. We show that more consistent assumptions in the estimates of land-atmosphere carbon exchange results in a global carbon budget that is imbalanced (gains do not equal losses). This imbalance implies that key processes causing land carbon fluxes, especially processes associated with human land management and recovery following abandonment in anthropogenic biomes (anthromes), have been misquantified. This impacts policy for land carbon management across scales and calls for better understanding of carbon cycling in anthromes. Summary: Inconsistencies in the calculation of the two anthropogenic land flux terms of the global carbon cycle are investigated. The two terms—the direct anthropogenic flux (caused by direct human disturbance in anthromes, currently a carbon source to the atmosphere) and the indirect anthropogenic flux (caused indirectly by human activities that lead to global change and affecting all biomes, currently an atmospheric carbon sink)—are typically calculated independently, resulting in inconsistent underlying assumptions. We harmonize the estimation of the two anthropogenic land flux terms by incorporating previous estimates of these inconsistencies. We recalculate the global carbon budget (GCB) and apply change-point analysis to the cumulative budget imbalance. Cumulative over 1850–2018 (1959–2018), harmonization results in a 13% lesser (4% greater) land use source from anthromes and a 20% (23%) lesser land sink. This recalculation yields a greater non-closure of the GCB, indicating a missing carbon sink averaging 0.65 Pg C year−1 since the early 20th century. The imbalance likely results from a combination of method discontinuity and structural errors in the assessment of the direct anthropogenic land use flux, greater ocean carbon uptake, structural errors in land models, and in how these land terms are quantified for the budget. We caution against overconfidence in considering the GCB a solved problem and recommend further study of methodological discontinuities in budget terms. We strongly recommend studies that quantify the direct and indirect anthropogenic land fluxes simultaneously to ensure consistency, with a deeper understanding of human disturbance and legacy effects in anthromes.
Original language | English |
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Journal | Plants People Planet |
DOIs | |
State | Accepted/In press - 2024 |
Funding
We would like to thank Fortunat Joos for discussions around the ice\u2010core atmospheric CO data and budget imbalance. We also thank two anonymous reviewers for their time and thoughtful feedback. We acknowledge the Global Carbon Project, which is responsible for the Global Carbon Budget (GCB). We thank the GCB TRENDY land modeling, ocean modeling, and fCO2\u2010mapping groups for producing and making available their model outputs and fCO2\u2010product output. This research was supported as part of the FACE Model Data Synthesis project, funded by the U.S. Department of Energy, Office of Science, and Office of Biological and Environmental Research. ORNL is managed by UT\u2010Battelle, LLC, for the DOE under contract DE\u2010AC05\u20101008 00OR22725. SS, MS, PF acknowledge support of the European Space Agency, CLIMATE\u2010SPACE RECCAP2 project (Contract 4000144908/24/I\u2010LR). 2
Funders | Funder number |
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Office of Science | |
Biological and Environmental Research | |
U.S. Department of Energy | DE‐AC05‐1008 00OR22725 |
European Space Agency | 4000144908/24/I‐LR |
Keywords
- anthromes
- bookkeeping models
- carbon cycle
- dynamic global vegetation models (DGVMs)
- global carbon budget
- land cover and land use change emissions
- natural carbon sink