EARLY SEEDLING AND SEASONAL N2-FIXING SYMBIOTIC ACTIVITY OF 2 SOYBEAN [GLYCINE-MAX (L) MERR] CULTIVARS INOCULATED WITH BRADYRHIZOBIUM STRAINS OF DIVERSE ORIGIN

In areas with a short growing season the poor adaptability of soybean [Glycine max Merr. (L.)] to cool soil conditions is considered the primary yield limiting factor. Soybean requires temperatures in the 25 to 30-degrees-C range for optimum N2-fixation and yield. Field studies were conducted in 1990 and 1991 at Montreal, Quebec to determine whether adaptability to cool soil conditions, with respect to earlier symbiosis establishment and function, existed among either Bradyrhizobium strains or soybean genotypes. An early maturing isoline of the soybean cultivar Evans and the cultivar Maple Arrow were inoculated with one of four strains isolated from the cold soils of Hakkaido, northern Japan, or the commercially used strains 532C or USDA110, at two planting dates. Plot biomass and nodulation were assessed at seedling(V2), and flowering(R2) growth stages and harvest maturity. Soybean genotypes did not differ for pre-flowering nodulation or N2-fixation in the cool spring conditions of the first year. Seasonal N2-fixation rates were also determined at the final harvest by the N-balance and N-15-isotope dilution methods. Significantly higher symbiotic activity was found for two of the four Hakkaido strains and was reflected in higher final soybean seed yield and total N2-fixation for the growing season, as compared to the two commercial strains. Planting 14 days earlier resulted in greater early vegetative and total seasonal N2 fixation and yield in the second year when soil temperatures were warmer, emphasizing the need for the development of soybean-Bradyrhizobium combinations superior in nodule development and function under cool soil conditions.