Nodule carbohydrate metabolism and polyols involvement in the response of Medicago sativa to salt stress

Abstract

Alterations of plant growth, chlorophyll fluorescence parameters, nodule carbon metabolism and polyols concentration as result of salt stress were examined in alfalfa (Medicago sativa). Plants, in symbiosis with Sinorhizobium meliloti GR4 strain, were grown under controlled conditions for 35 days (DAS) and subjected to 150mM of NaCl stress. Plant biomass (PDW) and nitrogen fixation rate (NFR) were markedly affected by salt stress conditions; the highest reductions of PDW (50%) and NFR (40%) were registered at 84DAS and 56DAS, respectively. In addition, salinity affected the chlorophyll fluorescence parameters, decreased initial chlorophyll fluorescence (F0) and increased the optimum quantum yield of PSII (Fv/Fm ratio). The enzyme activities sucrose synthase activity and phosphoenolpyruvate carboxylase, responsible for the carbon supply to the bacteroids by the formation of dicarboxylates, were drastically inhibited by salinity, mainly at 56DAS with the beginning of flowering. The content of total soluble sugars and proline increased under salt stress, and these concentrations were higher in nodule than in leaf. This last result suggests that the nodule is an organ specially protected in order to maintain its functioning, even under stress conditions. Besides, the content of myoinositol and pinitol in leaves and nodules changed with the plant growth stage and the saline treatment. Under salinity stress, the concentrations of pinitol in nodule were higher than in leaf, which supports the central function of this molecule in the adaptive response of nodules to salt stress. The increase of pinitol synthesis in nodule of M. sativa under salt stress could be one of the adaptive features used by the plant.