Litcius/Paper detail

CO <sub>2</sub> fertilization of terrestrial photosynthesis inferred from site to global scales

Chi Chen, W. J. Riley, I. Colin Prentice, Trevor F. Keenan

2022Proceedings of the National Academy of Sciences175 citationsDOIOpen Access PDF

Abstract

Significance The magnitude of the CO 2 fertilization effect on terrestrial photosynthesis is uncertain because it is not directly observed and is subject to confounding effects of climatic variability. We apply three well-established eco-evolutionary optimality theories of gas exchange and photosynthesis, constraining the main processes of CO 2 fertilization using measurable variables. Using this framework, we provide robust observationally inferred evidence that a strong CO 2 fertilization effect is detectable in globally distributed eddy covariance networks. Applying our method to upscale photosynthesis globally, we find that the magnitude of the CO 2 fertilization effect is comparable to its in situ counterpart but highlight the potential for substantial underestimation of this effect in tropical forests for many reflectance-based satellite photosynthesis products.

Topics & Concepts

PhotosynthesisHuman fertilizationC4 photosynthesisEnvironmental scienceEcosystemAtmospheric sciencesEcologyBiologyGeologyAgronomyBotanyPlant responses to elevated CO2Plant Water Relations and Carbon DynamicsAtmospheric and Environmental Gas Dynamics