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Bomb radiocarbon evidence for strong global carbon uptake and turnover in terrestrial vegetation

Heather Graven, Hamish Warren, Holly Gibbs, Samar Khatiwala, Charles D. Koven, J. G. Lester, Ingeborg Levin, S. Spawn, William R. Wieder

2024Science14 citationsDOI

Abstract

Vegetation and soils are taking up approximately 30% of anthropogenic carbon dioxide emissions because of small imbalances in large gross carbon exchanges from productivity and turnover that are poorly constrained. We combined a new budget of radiocarbon produced by nuclear bomb testing in the 1960s with model simulations to evaluate carbon cycling in terrestrial vegetation. We found that most state-of-the-art vegetation models used in the Coupled Model Intercomparison Project underestimated the radiocarbon accumulation in vegetation biomass. Our findings, combined with constraints on vegetation carbon stocks and productivity trends, imply that net primary productivity is likely at least 80 petagrams of carbon per year presently, compared with the 43 to 76 petagrams per year predicted by current models. Storage of anthropogenic carbon in terrestrial vegetation is likely more short-lived and vulnerable than previously predicted.

Topics & Concepts

Vegetation (pathology)Environmental scienceRadiocarbon datingPrimary productionCarbon cycleProductivityCarbon fibersBiomass (ecology)Terrestrial ecosystemCarbon sequestrationSoil carbonCarbon dioxide in Earth's atmosphereCarbon dioxideSoil waterEcosystemPhysical geographyEcologySoil scienceGeologyGeographyBiologyPathologyMedicineMacroeconomicsPaleontologyComposite numberEconomicsMaterials scienceComposite materialAtmospheric and Environmental Gas DynamicsGeology and Paleoclimatology ResearchHydrocarbon exploration and reservoir analysis
Bomb radiocarbon evidence for strong global carbon uptake and turnover in terrestrial vegetation | Litcius