Abstract

Understanding the response of leaf respiration (R) to changes in irradiance and temperature is a prerequisite for predicting the impacts of climate change on plant function and future atmospheric CO2 concentrations. Little is known, however, about the interactive effects of irradiance and temperature on leaf R. We investigated whether growth irradiance affects the temperature response of leaf R in darkness (R-dark) and in light (R-light) in seedlings of a broad-leaved evergreen species, Quercus ilex. Two hypotheses concerning R-dark were tested: (1) the Q(10) (i.e. the proportional increase in R per 10 degrees C rise in temperature) of leaf R-dark is lower in shaded plants than in high-light-grown plants, and (2) shade-grown plants exhibit a lower degree of thermal acclimation of R-dark than plants exposed to higher growth irradiance. We also assessed whether light inhibition of R-light differs between leaves exposed to contrasting temperatures and growth irradiances, and whether the degree of thermal acclimation of R-light is dependent on growth irradiance. We showed that while growth irradiance did impact on photosynthesis, it had no effect on the Q(10) of leaf R-dark. Growth irradiance had little impact on thermal acclimation when fully expanded, pre-existing leaves were exposed to contrasting temperatures for several weeks. When R-light was measured at a common irradiance, R-light/R-dark ratios were higher in shaded plants due to homeostasis of R-light between growth irradiance treatments and to the lower R-dark in shaded leaves. We also showed that R-light does not acclimate to the same degree as R-dark, and that R-light/R-dark decreases with increasing measuring and growth temperatures, irrespective of the growth irradiance. Collectively, we raised the possibility that predictive carbon cycle models can assume that growth irradiance and photosynthesis do not affect the temperature sensitivity of leaf R-dark of long-lived evergreen leaves, thus simplifying incorporation of leaf R into such models.

Keywords

plant respiration; shade; Q(10); acclimation; Quercus ilex

Published in

Plant, Cell and Environment
2007, Volume: 30, number: 7, pages: 820-833
Publisher: BLACKWELL PUBLISHING

UKÄ Subject classification

Botany


Publication identifier

DOI: https://doi.org/10.1111/j.1365-3040.2007.01672.x

Permanent link to this page (URI)

https://res.slu.se/id/publ/76344