Abstract
Cells of Bradyrhizobium japonicum were grown in media containing either 1.0 mM or 0.5 muM phosphorus. In growth pouch experiments, infection of the primary root of soybean (Glycine max (L.) Merr.) by B. japonicum USDA 31, 110, and 142 was significantly delayed when P-limited cells were applied to the root. In a greenhouse experiment, B. japonicum USDA 31, 110, 122, and 142 grown with sufficient and limiting P were used to inoculate soybeans which were grown with either 5 muM or 1 mM P nutrient solution. P-limited cells of USDA 31 and 110 formed significantly fewer nodules than did P-sufficient cells, but P-limited cells of USDA 122 and 142 formed more nodules than P-sufficient cells. The increase in nodule number by P-limited cells of USDA 142 resulted in significant increases in both nodule mass and shoot total N. In plants grown with 1 mM P, inoculation with P-limited cells of USDA 110 resulted in lower total and specific nitrogenase activities than did inoculation with P-sufficient cells. Nodule numbers, shoot dry weights, and total N and P were all higher in plants grown with 1 mM P, and plants inoculated with USDA 31 grew poorly relative to plants receiving strains USDA 110, 122, and 142. Although the effects of soybean P nutrition were more obvious than those of B. japonicum P nutrition, we feel that it is important to develop an awareness of the behavior of the bacterial symbiont under conditions of nutrient limitation similar to those found in many soils.