Abstract
Contents * Summary 1 * I. Introduction 2 * II. Early assessments of CO2 responses in natural ecosystems 2 * III. Global network of FACE sites 4 * IV. Assimilation and leaf N-content 5 * V. Primary productivity 13 * VI. Response of plant functional types 20 * VII. Conclusions 23 * Acknowledgements 24 * References 24 Summary Results from 16 free-air CO2 enrichment (FACE) sites representing four different global vegetation types indicate that only some early predictions of the effects of increasing CO2 concentration (elevated CO2) on plant and ecosystem processes are well supported. Predictions for leaf CO2 assimilation (Anet) generally fit our understanding of limitations to photosynthesis, and the FACE experiments indicate concurrent enhancement of photosynthesis and of partial downregulation. In addition, most herbaceous species had reduced leaf nitrogen (N)-content under elevated CO2 and thus only a modest enhancement of Anet, whereas most woody species had little change in leaf N with elevated CO2 but a larger enhancement of Anet. Early predictions for primary production are more mixed. Predictions that enhancement of productivity would be greater in drier ecosystems or in drier years has only limited support. Furthermore, differences in productivity enhancements among six plant functional types were not significant. By contrast, increases in productivity enhancements with increased N availability are well supported by the FACE results. Thus, neither a resource-based conceptual model nor a plant functional type conceptual model is exclusively supported by FACE results, but rather both species identity and resource availability are important factors influencing the response of ecosystems to elevated CO2.
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