The Physiological Mechanisms Underlying N_(2)-Fixing Common Bean(Phaseolus vulgaris L.)Tolerance to Iron Deficiency

Iron is an essential element for plants as well as all living organisms,functioning in various physiological and biochemical processes such as photosynthesis,respiration,DNA synthesis,and N2 fixation.In the soil,Fe bioavailability is extremely low,especially under aerobic conditions and at high pH ranges.In contrast,plants with nodules on their roots that fix atmospheric nitrogen need much more iron.To highlight the physiological traits underlying the tolerance of N2-fixing common bean to iron deficiency,two genotypes were hydroponically cultivated in a greenhouse:Coco nain(CN)and Coco blanc(CB).Plants were inoculated with an efficient strain of Rhizobium tropici,CIAT899,and received a nutrient solution added with 0μM Fe(severe Fe deficiency,SFeD),5μM Fe(moderate Fe deficiency,MFeD)or 45μM Fe(control,C).Several physiological parameters related to photosynthesis and symbiotic nitrogen fixation were then analyzed.Iron deficiency significantly reduced whole plant and nodule growth,chlorophyll biosynthesis,photosynthesis,leghemoglobin(LgHb),nitrogenase(N2ase)activity,nitrogen,and Fe nutrition,with some genotypic differences.As compared to CB,CN maintained better Fe allocation to shoots and nodules,allowing it to preserve the integrity of its photosynthetic and symbiotic apparatus,thus maintaining the key functional traits of the plant metabolism(chlorophyll biosynthesis and photosynthesis in shoots,leghemoglobin accumulation,and nitrogenase activity in root nodules).Plant growth depends on photosynthesis,which needs to be supplied with sufficient iron and nitrogen.Fe deficiency stress index(FeD-SI)and Fe use efficiency(FeUE)are two physiological traits of tolerance that discriminated the studied genotypes.