Changes in growth and oxidative response of leaves and nodules in Medicago ciliaris during salt stress recovery

In the present study, we exposed Medicago ciliaris isolated from a saline sebhka and growing symbiotically with Sinorhizobium medicae to 100 mM of NaCl and followed this stress by a recovery period (complete NaCl withdrawal from the root medium for two or one weeks). This experiment was conducted in order i) to check whether a reduction in growth and nitrogen fixation could be reversed by alleviating salt stress and ii) to determine specific changes related to salt-induced growth and nitrogen fixation decline. Salt stress reduced growth of all organs (particularly nodules), leaf area, photosynthetic activity and nitrogen fixation. The depressive effect of salt was not linked to osmotic stress. The removal of saline conditions restored growth of all organs after 2 weeks of recovery, with aerial organs recovering quickly after 1 week. Both photosynthetic and nitrogen fixation recovered only after a 2 week period of recovery. Salt stress in these saline-tolerant plants was accompanied by oxidative damage (electrolyte leakage), which was more accentuated in nodules in comparison with leaves. The observed recovery in growth, nitrogen fixation and photosynthesis was mainly linked to a preferential preservation of shoots growth owing to the maintenance of SOD activity (namely the isoforms A2 and A3); such maintenance would allow higher photosynthetic activity permitting an adequate supply of nodules with photoassimilates and thus facilitating stress withstand.