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Global covariation of forest age transitions with the net carbon balance

Simon Besnard, Viola Heinrich, Nuno Carvalhais, Philippe Ciais, Martin Herold, Ingrid T. Luijkx, Wouter Peters, Daniela Requena Suárez, Maurizio Santoro, Hui Yang

2025Nature Ecology & Evolution10 citationsDOIOpen Access PDF

Abstract

Abstract Forest age transitions are critical in shaping the global carbon balance, yet their influence on carbon stocks and fluxes remains poorly quantified. Here we analyse global forest age dynamics from 2010 to 2020 using the Global Age Mapping Integration v2.0 dataset, alongside satellite-derived aboveground carbon (AGC) and atmospheric inversion-derived net CO 2 flux data. We reveal widespread declines in forest age across the Amazon, Congo Basin, Southeast Asia and parts of Siberia, primarily driven by stand-replacing disturbances such as fire and harvest, leading to the replacement of older forests by younger stands. Meanwhile, forests in China, Europe and North America experienced net ageing. Globally, stand replacement resulted in substantial AGC losses, with old forests (>200 years, ~98.0 MgC ha −1 ) transitioning to younger, carbon-poor stands (<20 years, ~43.5 MgC ha −1 ), leading to a net AGC loss of ~0.14 PgC per year. Despite this, regions with high rates of young stands replacing old forests exhibited a temporary strengthening of the carbon sink, driven by the rapid regrowth of these young stands. Crucially, these young forests do not compensate for the long-term carbon storage of old forests. Our findings underscore the importance of protecting old forests while optimizing forest management strategies to maximize carbon gains and enhance climate mitigation.

Topics & Concepts

Balance (ability)Net (polyhedron)Environmental scienceCarbon fibersNatural resource economicsGeographyEconomicsMathematicsPsychologyAlgorithmComposite numberGeometryNeurosciencePlant Water Relations and Carbon DynamicsAtmospheric and Environmental Gas DynamicsFire effects on ecosystems
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