An experimental and modeling study of responses in ecosystems carbon exchanges to increasing CO₂ concentrations using a tropical rainforest mesocosm

Guanghui Lin, Bruno D.V. Marino, Yongdan Wei, John Adams, Francesco Tubiello and Joseph A. Berry

Australian Journal of Plant Physiology 25(5) 547 - 556
Published: 1998

Abstract

The ecosystem carbon exchanges in the enclosed rainforest of Biosphere 2, an enclosed apparatus comprised of large synthetic ecosystems, were measured and modeled during the winter of 1995–1996 under different atmospheric CO₂ concentrations. On eight separate days, this mesocosm was exposed to various levels of CO₂ ranging from about 380 to 820 µmol mol^-1 daily mean and then sealed 24 hours for continuous measurements of ecosystem CO₂ fluxes. Our results indicated that net ecosystem carbon exchange in the mesocosm was enhanced by increasing CO₂ over the short periods studied (2–7 weeks), but, as expected from physiological studies, the response is not linear. The main effect of short-term CO₂ change was the enhancement of canopy CO 2 assimilation, while soil respiration was not affected by the atmospheric CO₂ concentration. The whole ecosystem radiation use efficiency was significantly higher under higher CO₂. The results of direct measurements were predicted well by a simple canopy model (the ‘big-leaf’ model) that incorporates current physiological understanding of the biochemistry of leaf photosynthesis. Validation of this model with a range of CO₂ and light levels indicates that it can be used with confidence to predict the responses of natural ecosystems to global climate change. Response of ecosystem processes to elevated CO₂ with relaxation time longer than a few weeks could not be resolved in this study, but longer-term closure experiments are planned to examine these processes.

Full text doi:10.1071/PP97152

© CSIRO 1998