In our study, Fe-deficient strawber

In our study, Fe-deficient strawberry plants resupplied with Fe showed a reversal of all the parameters within eight days, resulting in total leaf re-greening and increases in chlorophyll a fluorescence. Similar effects have been reported in annual species, for instance in sugar beet (Larbi et al., 2004), chickpea (Mahmoudi et al., 2007) and tomato (Tomasi et al., 2009). The short resupply period led also to an efficient Fe accumulation in young leaves, which showed Fe content similar to that of plants grown with a sufficient supply of Fe during the whole experiment. It was reported that Fe resupply to annual Fe-deficient species leads within a few days to increases in chlorophyll (Chl) concentrations and photosynthetic activity (Nishio et al., 1985; Larbi et al., 2004). It can be speculated
that when plants are resupplied with Fe some of the mechanisms elicited by Fe-deficiency will be modulated or de-activated in the short term. The increase in Chl concentration, which indicates de novo Chl biosynthesis, and probably of protein composition, leads to a rapid re-organization of the chloroplast structure, and function of the entire photosynthetic apparatus. However, in extremely Fedeficient strawberry plants, even eight days after Fe was restored, a considerable fraction of energy was still dissipated thermally (high NPQ), which is consistent with the observed incomplete recovery of II. These results may be interpreted as an enhanced capacity for photoprotection by downregulation of the photosynthetic efficiency while the complete restoration of the photochemical apparatus takes place.