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Global variation in vegetation carbon use efficiency inferred from eddy covariance observations

Xiangzhong Luo, Ruiying Zhao, Housen Chu, Alessio Collalti, Simone Fatichi, Trevor F. Keenan, Xinchen Lu, N. Nguyen, I. Colin Prentice, Wu Sun, Kailiang Yu, Liyao Yu

2025Nature Ecology & Evolution22 citationsDOIOpen Access PDF

Abstract

Terrestrial ecosystems have been serving as a strong carbon sink that offsets one-quarter of anthropogenic CO2 emissions. Carbon use efficiency (CUE), the percentage of photosynthesized carbon that is available for biomass production and other secondary carbon products, is one factor determining the carbon sink size. The global variation in CUE remains unclear, however, as recent reports disagree over the responses of CUE to temperature, dryness, forest types and stand age, and there are limited direct observations to constrain the related uncertainty. Here, we propose to infer CUE from spatially distributed observations of land–atmosphere CO2 exchange from global eddy covariance sites based on the degree of ecosystem respiration–photosynthesis coupling. Across 2,737 site-years, CUE derived from eddy covariance observations is 0.43 ± 0.12, consistent with previous inventory-based estimates (0.47 ± 0.12, n = 301) but with a better representation of spatial–temporal variation in CUE. We find that CUE consistently decreases with temperature, precipitation, light availability and stand age, with a substantial difference in the baseline CUE among biomes. Importantly, CUE of deciduous forests is typically 15% higher than that of evergreen forests, suggesting that over the long-term deciduous forests are more efficient in using photosynthate. Our study advances the understanding of the global variation in CUE and provides insights to guide best practices of forest conservation, management and restoration for carbon sequestration. The efficiency with which plants use carbon assimilated through photosynthesis has a key role in determining natureʼs capacity to offset carbon dioxide emissions. This study leverages global eddy covariance observations and ecological theory to reveal the patterns of vegetation carbon use efficiency worldwide.

Topics & Concepts

Eddy covarianceEnvironmental scienceBiomeDeciduousAtmospheric sciencesCarbon cycleCarbon sinkEvergreenEcosystemEcologyBiologyGeologyPlant Water Relations and Carbon DynamicsForest Management and PolicyForest ecology and management