Importance of ferric chelate reductase activity and acidification capacity in root nodules of N₂-fixing common bean (Phaseolus vulgaris L.) subjected to iron deficiency

摘要

Iron is an essential nutrient for plants, especially in symbiotic N₂-fixing legumes. Although abundant in the soil, iron is generally not available to plants as it is predominantly in an insoluble form (FeIII) . Mono- and dicotyledonous plants, except Grarnineae, have developed morphological and physiological responses, notably an increase in rhizosphere acidification (H+-ATPase) and an enhanced plasma membrane ferric chelate reductase activity (Fe-CR) in the roots. However, studies on the physiological responses of root nodules are lacking. The present study was initiated to investigate the acidification capacity and Fe-CR activity of nodulated roots, and intact nodules, in two contrasting common bean varieties, Coco blanc sensitive to iron deficiency and Flamingo tolerant to iron deficiency. The discovery of an induction of H+-ATPase and Fe-CR activities in root nodules of commonbean under iron deficiency, suggests that these organs participate in improving iron availability for the contained bacteroids.