Comparative phylogeography of Amphicarpaea legumes and their root‐nodule symbionts in Japan and North America

Abstract

Aim  Relationships of eastern Asian and eastern North American populations of legumes in the genus Amphicarpaea Elliot ex. Nuttall (Phaseoleae–Glycininae) and their root nodule bacteria (Bradyrhizobium Jordan) were analysed to test whether both organisms share an identical biogeographic history.Location  Japan and eastern North America (New York and Illinois).Methods  Sequences of three plant genes (chloroplast trnL region, nuclear ribosomal ITS, and histone H3‐D) and a segment of the bacterial ribosomal region (partial 16S rRNA and 23S rRNA genes, and the 16S rRNA–23S rRNA ITS) were used to analyse phylogenetic relationships.Results  For plants, Japanese populations formed a sister group to a well‐supported clade of all North American genotypes. For nodule bacteria associated with Amphicarpaea, isolates from North America did not form a single clade relative to Asian genotypes. Japanese Bradyrhizobium isolates were closely related to particular sub‐groups of North American bacteria (lineages ‘B’ and ‘C’), with other American bacteria branching earlier.Main conclusions  Plants and bacteria showed clear deviations from a pattern of parallel cladogenesis. The most basal Amphicarpaea lineage was associated with a recently‐diverged bacterial group, while one recently‐diverged plant lineage had symbionts that branched in a basal position relative to the other Amphicarpaea bacteria. When analysed with data on symbiotic compatibility from inoculation experiments, the molecular phylogenies suggested that for plants, at least one transition has occurred toward more promiscuous nodulation behaviour. Among bacteria, strains with narrow host range on Amphicarpaea appear to be ancestral to symbiotic generalists.