Twenty#x2010;nine alfalfa,Medicago sativaL., populations and 14Rhizobium melilotiL. strains, which had survived sodium chloride (NaCl) concentrations of 264 and 528 mM, respectively, were tested for nodulation and acetylene reduction activity underin vitrozero NaCl conditions. The most efficient strains were 1027, 1111, (USDA#x2010;Agricultural Research Service collection), RMZ1, and D7, (Utah State University collection). In a second experiment, the 29 alfalfa populations were inoculated with thesefour strains and grown in 0, 44, 88,132, or 176 mM NaCl. Nodule number seedling'#x2019; and acetylene reduction activity differed significantly among alfalfa populations,rhizobiumstrains and NaCl concentrations; there were also highly significant interactions among these factors. Nodulation of all alfalfa populations was delayed 48#x2013;72 h by salt concentrations higher than 132 mM. Sodium chloride concentrations that affected symbiosis were lower than those that affected growth and survival of individual alfalfa genotypes orRhizobium. The significant decrease in nodule number seedling#x2212;1and rate of acetylene reduction in all 29 populations as NaCl concentrations increased suggests that responses to salt levels may be genetically controlled. The mechanism(s) governing such inheritance requires further research and may aid in the development of salt#x2010;tolerant alfalfa andrhizobiumstrains.
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