Thermal acclimation of leaf respiration but not photosynthesis in Populus deltoides×nigra
Article first published online: 23 JAN 2008
© The Authors (2008).
Volume 178, Issue 1, pages 123–134, April 2008
How to Cite
Ow, L. F., Griffin, K. L., Whitehead, D., Walcroft, A. S. and Turnbull, M. H. (2008), Thermal acclimation of leaf respiration but not photosynthesis in Populus deltoides×nigra. New Phytologist, 178: 123–134. doi: 10.1111/j.1469-8137.2007.02357.x
- Issue published online: 23 JAN 2008
- Article first published online: 23 JAN 2008
- Received: 23 September 2007Accepted: 22 November 2007
- alternative oxidase;
- carbon balance;
- cytochrome oxidase;
- nitrogen (N) availability;
- Populus deltoides × nigra (‘Veronese’);
- thermal homeostasis
- • Dark respiration and photosynthesis were measured in leaves of poplar Populus deltoides × nigra (‘Veronese’) saplings to investigate the extent of respiratory and photosynthetic acclimation in pre-existing and newly emerged leaves to abrupt changes in air temperature.
- • The saplings were grown at three temperature regimes and at high and low nitrogen availabilities. Rates of photosynthesis and dark respiration (Rd) were measured at the initial temperature and the saplings were then transferred to a different temperature regime, where the plants remained for a second and third round of measurements on pre-existing and newly emerged leaves.
- • Acclimation of photosynthesis was limited following transfer to warmer or cooler growing conditions. There was strong evidence of cold and warm acclimation of Rd to growth temperature, but this was limited in pre-existing leaves. Full acclimation of Rd was restricted to newly emerged leaves grown at the new growth temperature.
- • These findings indicate that the extent of thermal acclimation differs significantly between photosynthesis and respiration. Importantly, pre-existing leaves in poplar were capable of some respiratory acclimation, but full acclimation was observed only in newly emerged leaves. The Rd/Amax ratio declined at higher growth temperatures, and nitrogen status of leaves had little impact on the degree of acclimation.