Rootstock influence on iron uptake responses inCitrusleaves and their regulation under the Fe paradox effect

Abstract

Background and aimsThis work evaluates the regulation of iron uptake responses in Citrus leaves and their involvement in the Fe paradox effect.MethodsExperiments were performed in field-grown ‘Navelina’ trees grafted onto two Cleopatra mandarin ×Poncirus trifoliata(L.) Raf. hybrids with different Fe-chlorosis symptoms: 030146 (non-chlorotic) and 030122 (chlorotic).ResultsChlorotic leaves were smaller than non-chlorotic ones for both dry weight (DW) and area basis, and exhibited marked photosynthetic state affection, but reduced catalase and peroxidase enzymatic activities. Although both samples had a similar total Fe concentration on DW, it was lower in chlorotic leaves when expressed on an area basis. A similar pattern was observed for the total Fe concentration in the apoplast and cell sap and in active Fe (Fe2+) concentration.FRO2gene expression and ferric chelate reductase (FC-R) activity were also lower in chlorotic samples, whileHA1andIRT1were more induced. Despite similar apoplasmic pH, K+/Ca2+was higher in chlorotic leaves, and both citrate and malate concentrations in total tissue and apoplast fluid were lower.Conclusion(1) The rootstock influences Fe acquisition system in the leaf; (2) the increased sensitivity to Fe-deficiency as revealed by chlorosis and decreased biomass, was correlated with lower FC-R activity and lower organic acid level in leaf cells, which could cause a decreased Fe mobility and trigger other Fe-stress responses in this organ to enhance acidification and Fe uptake inside cells; and (3) the chlorosis paradox phenomenon in citrus likely occurs as a combination of a marked FC-R activity impairment in the leaf and the strong growth inhibition in this organ.