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Estimating the CO <sub>2</sub> Fertilization Effect on Extratropical Forest Productivity From Flux‐Tower Observations

Chunhui Zhan, René Orth, Hui Yang, Markus Reichstein, Sönke Zaehle, Martin G. De Kauwe, Anja Rammig, Alexander J. Winkler

2024Journal of Geophysical Research Biogeosciences12 citationsDOIOpen Access PDF

Abstract

Abstract The land sink of anthropogenic carbon emissions, a crucial component of mitigating climate change, is primarily attributed to the CO 2 fertilization effect on global gross primary productivity (GPP). However, direct observational evidence of this effect remains scarce, hampered by challenges in disentangling the CO 2 fertilization effect from other long‐term confounding drivers, particularly climatic changes. Here, we introduce a novel statistical approach to separate the CO 2 fertilization effect on photosynthetic carbon uptake using eddy covariance (EC) records across 38 extratropical forest sites. We find the median stimulation rate of GPP to be 3.2 ± 0.9 gC m −2 yr −1 ppm −1 (or 16.4 ± 4.2% per 100 ppm) under increasing atmospheric CO 2 across these sites, respectively. To validate the robustness of our findings, we test our statistical method using factorial simulations of an ensemble of process‐based land surface models. We address additional factors, including nitrogen deposition and land management, that may impact plant productivity, potentially confounding the attribution to the CO 2 fertilization effect. Assuming these site‐specific effects offset to some extent across sites as random factors, the estimated median value still reflects the strength of the CO 2 fertilization effect. However, disentanglement of these long‐term effects, often inseparable by timescale, requires further causal research. Our study provides direct evidence that the photosynthetic stimulation is maintained under long‐term CO 2 fertilization across multiple EC sites. Such observation‐based quantification is key to constraining the long‐standing uncertainties in the land carbon cycle under rising CO 2 concentrations.

Topics & Concepts

Environmental sciencePrimary productionAtmospheric sciencesCarbon sinkCarbon cycleHuman fertilizationEcosystemEcologyAgronomyBiologyGeologyPlant Water Relations and Carbon DynamicsPlant responses to elevated CO2Atmospheric and Environmental Gas Dynamics
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