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The weak land carbon sink hypothesis

James T. Randerson, Yue Li, Weiwei Fu, François Primeau, Jinhyuk E. Kim, M. Mu, Forrest M. Hoffman, Anna T. Trugman, Linqing Yang, Chao Wu, Jonathan Wang, William R. L. Anderegg, Alessandro Baccini, M. A. Friedl, Sassan Saatchi, Scott Denning, Michael L. Goulden

2025Science Advances13 citationsDOIOpen Access PDF

Abstract

Over the past three decades, assessments of the contemporary global carbon budget consistently report a strong net land carbon sink. Here, we review evidence supporting this paradigm and quantify the differences in global and Northern Hemisphere estimates of the net land sink derived from atmospheric inversion and satellite-derived vegetation biomass time series. Our analysis, combined with additional synthesis, supports a hypothesis that the net land sink is substantially weaker than commonly reported. At a global scale, our estimate of the net land carbon sink is 0.8 ± 0.7 petagrams of carbon per year from 2000 through 2019, nearly a factor of two lower than the Global Carbon Project estimate. With concurrent adjustments to ocean (+8%) and fossil fuel (−6%) fluxes, we develop a budget that partially reconciles key constraints provided by vegetation carbon, the north-south CO 2 gradient, and O 2 trends. We further outline potential modifications to models to improve agreement with a weaker land sink and describe several approaches for testing the hypothesis.

Topics & Concepts

Carbon sinkEnvironmental scienceSink (geography)Primary productionCarbon cycleAtmospheric sciencesNorthern HemisphereCarbon fluxFossil fuelGlobal changeVegetation (pathology)Land useAtmospheric carbon cycleBiomass burningCarbon sequestrationLand use, land-use change and forestryInversion (geology)Carbon dioxide in Earth's atmosphereBiomass (ecology)Climate changeCarbon fibersClimatologyGreenhouse gasCarbon dioxideSouthern HemisphereSoil carbonCarbon sourceEcologyPhysical geographyHydrology (agriculture)Atmospheric and Environmental Gas DynamicsClimate variability and modelsAtmospheric chemistry and aerosols
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