Diurnal rhythm of release of phytosiderophores and uptake rate of zinc in iron-deficient wheat

Abstract

The diurnal rhythm of release of phytosiderophores and uptake rate of zinc (Zn) was studied in iron (Fe) deficient wheat (Triticum aestivum L. cv. Ares) plants grown in nutrient solution under controlled environmental conditions. Different forms of Zn (e.g. ZnSO₄, ZnEDTA) were used to obtain different degrees of loading of the root apoplasmic pool with Zn. In the Fe-deficient plants the release of phytosiderophores from the roots followed a distinct diurnal rhythm with a steep peak about 4 h after the onset of the light period. These plants also showed a similar pattern in the rates of Zn uptake over the 24 h day-night cycle. During the light period there was a steep transient peak (factor 3.8) in Zn uptake rate in the Fe-deficient plants supplied with ZnSO₄. This transient peak was much less distinct in plants supplied with ZnEDTA (factor 1.8) and absent in plants supplied with ZnEDTA plus free chelator (+ NaEDTA) in excess. The peak in Zn uptake coincided with the maximum rate of phytosiderophore release in the Fe-deficient plants. In the Fe-sufficient plants the release of phytosiderophores was very low and no such peak in Zn uptake rates could be observed. These results demonstrate that phytosiderophores mobilize Zn not only in the rhizosphere, but also from the root apoplast. Thus, the apoplasmic pool of micronutrient cations has to be taken into account as potential source for both uptake and diurnal variation in uptake rates of Micronutrient cations.