Host Plant Effects on Nodulation and Competitiveness of the Bradyrhizobium japonicum Serotype Strains Constituting Serocluster 123.

Strains in Bradyrhizobium japonicum serocluster 123 are the major indigenous competitors for nodulation in a large portion of the soybean production area of the United States. Serocluster 123 is defined by the serotype strains USDA 123, USDA 127, and USDA 129. The objective of the work reported here was to evaluate the ability of two soybean genotypes, PI 377578 and PI 417566, to restrict the nodulation and reduce the competitiveness of serotype strains USDA 123, USDA 127, and USDA 129 in favor of the highly effective strain CB1809 and to determine how these soybean genotypes alter the competitive relationships among the three serotype strains in the serocluster. The soybean genotypes PI 377578 and PI 417566 along with the commonly grown cultivar Williams were planted in soil essentially free of soybean rhizobia and inoculated with single-strain treatments of USDA 123, USDA 127, USDA 129, or CB1809 and six dual-strain competition treatments of USDA 123, USDA 127, or USDA 129 versus CB1809, USDA 123 versus USDA 127, USDA 123 versus USDA 129, and USDA 127 versus USDA 129. PI 377578 severely reduced the nodulation and competitiveness of USDA 123 and USDA 127, while PI 417566 similarly affected the nodulation and competitiveness of USDA 129. Thus, the two soybean genotypes can reduce the nodulation and competitiveness of each of the three serocluster 123 serotype strains. Our results indicate that host control of restricted nodulation and reduced competitiveness is quite specific and effectively discriminates between B. japonicum strains which are serologically related.