Phytosiderophore release in relation to multiple micronutrient metal deficiency in wheat

Phytosiderophore (PS) release, which occurs mainly under iron deficiencies in the representative Poaceae, has been speculated to be a general adaptive response to enhance the acquisition of micronutrient metals. However, it is very common to encounter deficiency of micronutrients other than iron (Fe) in soils and interactions with respect of multi-micronutrient deficiency to effect on PS release are not known. Further, the diurnal rhythm for the release of PS may also be affected under multiple micronutrient deficiency. PS release capacity and PS content of roots and the diurnal rhythm of PS release was measured in selected efficient and inefficient wheat genotypes varied on individual and combined deficiency of Fe, zinc (Zn), copper (Cu) and manganese (Mn) in nutrient solution culture. A nutrient sufficient treatment was also taken as experimental control. Lack of Fe in the nutrient medium caused a significantly higher release of PSs followed by Zn, Mn and Cu in the same order. The diurnal rhythm of PS release was similar in the absence of either of the micronutrients or under their combined deficiency. Micronutrient sufficient control did not release any PS. Fe-use-efficient cultivars produced and released a larger amount of PS and differed from the inefficient cultivars in terms of the PS release but not in the PS biosynthesis in the roots. Thus, indicating that the limitation at the level of release of the PS is responsible for low Fe use efficiency of the Fe deficiency susceptible cultivars. Further, the diurnal variation in the PS release was similar for all the investigated wheat cultivars and did not influence the variation in the Fe use efficiency.