EFFECTS OF INOCULATION AND FERTILIZER N LEVELS ON N2 FIXATION AND YIELDS OF SOYBEANS IN ONTARIO

Soybeans (Glycine max (L.) Merrill) often do not give yield responses to added fertilizer nitrogen (N) because high soil N levels inhibit fixation of atmospheric N2. Yield responses to N fertilizer applied at planting usually indicate that N2 fixation is less than optimal. The effects of inoculation with Rhizobium japonicum, and fertilizer N levels, on soybean N2(C2H2) fixation and seed yields in Ontario were investigated in ’ 1976 and 1977. Three locations were used each year, representing areas where soybeans had been grown for many years (Ridgetown), for only a few years (Elora), or not at all (Woodstock). Treatments were (a) Uninoculated + 0 N, (b–e) Inoculated + 0, 50, 100 or 200 kg N/ha. Results indicated that inoculation increased seed yields only when soybeans were introduced into new areas. Fertilizer N applications at planting time did not increase yields in areas where soybeans had been grown several times previously, indicating that N2 fixation could support maximum yields. Nodule number and mass, and N2(C2H2) fixation rates were all decreased by fertilizer N. An increase in nodule efficiency, later in the season, in high N treatments was most marked at Ridgetown.

Effect of Early Mycorrhizal Infection on Nodulation and Nitrogen Fixation in Trifolium subterraneum L

Three experiments are described. Rapid establishment of vesicular-arbuscular mycorrhizas in roots of T. subterraneum cv. Mt Barker, using natural soil inoculum, was associated with improved nodulation, increased nitrogenase activity per plant (nmol C2H2 reduced per plant per hour) and increased nodule efficiency on the basis of nodule volume (nmol C2H2 reduced per mm� nodule per hour). In two experiments (on soil low in nutrients), this increase occurred before any positive growth response to mycorrhizal infection was apparent. In all experiments, mycorrhizal roots had a higher phosphorus concentration (%P) than did non-mycorrhizal roots. This difference, which was evident before any differences in total plant phosphorus were detected, was not accompanied by an increase in nodule phosphorus concentration, so that differences in nodule efficiency could not be attributed to differences in this parameter. In the third experiment (on soil with higher nutrient levels), establishment of mycorrhizas was also accompanied by increased growth, phosphorus and nitrogen contents within a 35-day experimental period. Phosphorus inflow into roots (moles P per cm root per second) was higher in mycorrhizal plants. Delay in formation of mycorrhizas (by reduction in the amount of inoculum in soil) was accompanied by lower inflow, and delay in both the establishment of high root phosphorus concentration and in the onset of enhanced nodulation and nitrogenase activity.