Numerical taxonomic analysis of cross-inoculation patterns of legumes and Rhizobium

Summary A survey was made of published results of tests of the capacity of Rhizobium derived from one legume genus to nodulate plants from other genera. The data were derived from more than 14,000 separate cross-inoculation trials involving species from 165 genera of legumes. Numerical taxonomic techniques were applied to 113 of the genera for which results of substantial cross-infection tests were available. The data were examined using mean character difference coefficients re-expressed as total and positive-only similarity coefficients. The resulting similarity matrices were clustered by the unweighted pair-group method using arithmetic averages. Eighteen affinity groups were defined at the 70% similarity level. With few exceptions, the physiological and cultural behavior of the rhizobia was consistent within the defined groups. Two broad categories were suggested in the numerical taxonomic analysis, and their validity is discussed in regard to the geographic, physiological and cultural characteristics of the legumes and their Rhizobium microsymbionts. The taxonomic and agronomic value of this approach and the new groupings are discussed.     

Molecular phylogeny of Myricaceae: a reexamination of host-symbiont specificity

The phylogeny of 13 species of Myricaceae, the most ancient actinorhizal family involved in a nitrogen-fixing symbiosis with the actinomycete Frankia, was established by the analysis of their rbcL gene and 18S-26S ITS. The phylogenetic position of those species was then compared to their specificity of association with Frankia in their natural habitat and to their nodulation potential determined on greenhouse-grown seedlings. The results showed that Genus Myrica, including M. gale and M. hartwegii, and Genus Comptonia, including C. peregrina, belong to a phylogenetic cluster distinct from the other Myrica species transferred in a new genus, Morella. This grouping parallels the natural specificity of each cluster with Comptonia-Myrica and Morella being nodulated by two phylogenetically divergent clusters of Frankia strains, the Alnus and Elaeagnaceae-infective strains clusters, respectively. Under laboratory conditions, Comptonia and Morella had a nodulation potential larger than under natural conditions. From this study it appears that the Myricaceae are split into two different specificity groups. It can be hypothesized that the early divergence of the genera led to the selection of genetically diverse Frankia strains which is contradictory to the earlier proposal that evolution has proceeded toward narrower promiscuity within the family.     

Comparison of nucleotide diversity and symbiotic properties of Rhizobium meliloti populations from annual Medicago species

Abstract: Forty-three isolates of Rhizobium meliloti were trapped from soil with five annual species of Medicago (M. polymorpha, M. truncatula, M. rigidula, M. orbicularis and M. minima ) and one perennial species of Medicago (M. sativa) . The annual species were growing naturally near the soil sampling site, and the commonly studied perennial species was used for comparison. Each R. meliloti was characterized by PCR-RFLP methods applied to two DNA regions nested between 16S rRNA and 23S rRNA genes and between nif D and nif K genes. They fell into two highly divergent groups (groups I and II), separated at a genetic distance of 0.024 by rDNA-amplified pattern analysis (profiles R1 and R2) and at 0.029 by nif -amplified pattern analysis (profiles N1-N2 and N3). These two groups were consistent with some cross-nodulation and -fixation results: rhizobia with the R1 genetic background elicited rudimentary nodules and could not fix nitrogen on M. polymorpha , while they were able to nodulate the five other species of Medicago . In contrast, rhizobia with an R2 profile were highly effective on M. polymorpha and poorly nodulated M. rigidula species, but were able to nodulate efficiently the other species. The striking phenotypic traits on M. polymorpha were also shared by reference strains: strains genetically closed to R2 type triggered typical and efficient nodules on M. polymorpha while those close to R1 type elicited rudimentary and non-efficient ones. Our results suggest that the presence of R. meliloti with R2 genetic backgrounds could be favoured by the distribution of M. polymorpha species.