Spring wheat (Triticum aestivum cv. Nandu) cultivated
under glasshouse conditions was exposed to ozone in large
fumigation chambers for 2 wk. Different exposure regimes were applied as
constant concentrations as well as with
ozone peaks, partly under equal dose-conditions, in times of high solar
radiation during different stages of
development (seedling, late tillering, anthesis). Chlorophyll
fluorescence was monitored and amounts of
carbohydrates (hexoses, sucrose, starch) and chlorophyll were measured
in
young leaves (seedling) and flag leaves
(late tillering, anthesis) during and after ozone exposure. Although seedlings
showed no significant response in
photosynthesis, strong effects on photosynthesis and carbohydrate
accumulation were measured when plants were
fumigated during anthesis, especially after a heat stress period preceding
ozone treatments. Under equal dose
conditions chlorophyll fluorescence parameters
(Fv[ratio ]Fm) and electron
transport rate decreased and sucrose content
of flag leaves increased significantly if ozone at a concentration of
220 μg m−3 was supplied for 4 h, indicating that
peak concentrations show stronger effects than constant concentrations.
The
reaction of wheat plants is dependent
on environmental conditions such as preceding heat stress and on the
developmental stage during exposure. The
results favour the hypothesis that photoinhibition and disturbance of
photosynthesis are only secondary effects as
a consequence of retarded sucrose export from the leaf, because of damage
at the plasma membrane.