Authors: MIQUEL A. GONZALEZ-MELER¹; LINA TANEVA; REBECCA J. TRUEMAN

Source: Annals of Botany, Volume 94, Number 5, November 2004 , pp. 647-656(10)

Publisher: Oxford University Press

Abstract:

• Background Elevated levels of atmospheric [CO<inf>2</inf>] are likely to enhance photosynthesis and plant growth, which, in turn, should result in increased specific and whole-plant respiration rates. However, a large body of literature has shown that specific respiration rates of plant tissues are often reduced when plants are exposed to, or grown at, high [CO<inf>2</inf>] due to direct effects on enzymes and indirect effects derived from changes in the plant's chemical composition.

• Scope Although measurement artefacts may have affected some of the previously reported effects of CO<inf>2</inf> on respiration rates, the direction and magnitude for the effects of elevated [CO<inf>2</inf>] on plant respiration may largely depend on the vertical scale (from enzymes to ecosystems) at which measurements are taken. In this review, the effects of elevated [CO<inf>2</inf>] from cells to ecosystems are presented within the context of the enzymatic and physiological controls of plant respiration, the role(s) of non-phosphorylating pathways, and possible effects associated with plant size.

• Conclusions Contrary to what was previously thought, specific respiration rates are generally not reduced when plants are grown at elevated [CO<inf>2</inf>]. However, whole ecosystem studies show that canopy respiration does not increase proportionally to increases in biomass in response to elevated [CO<inf>2</inf>], although a larger proportion of respiration takes place in the root system. Fundamental information is still lacking on how respiration and the processes supported by it are physiologically controlled, thereby preventing sound interpretations of what seem to be species-specific responses of respiration to elevated [CO<inf>2</inf>]. Therefore the role of plant respiration in augmenting the sink capacity of terrestrial ecosystems is still uncertain.

Keywords: Respiration; elevated CO

Document Type: Research article

DOI: 10.1093/aob/mch189

Affiliations: 1: For correspondence., Email: mmeler@uic.edu

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