Fine‐scale genetic structure in rhizosphere microbial communities associated with Chamaecrista fasciculata (Fabaceae)

Abstract: Soil microbiota of the rhizosphere are an important extension of the plant phenotype because they impact the health and fitness of host plants. The composition of these communities is expected to differ among host plants due to influence by host genotype. Given that many plant populations exhibit fine‐scale genetic structure (SGS), associated microbial communities may also exhibit SGS. In this study, we tested this hypothesis using Chamaecrista fasciculata, a legume species that has previously been determined … Show more

“…Proteobacteria emerges as the predominant phylum in all populations, consistent with previous studies [ 33 , 34 ]. Palmira shows a high diversity and evenness of bacteria, reflected in the Principal Coordinates Analysis (PCoA), suggesting a more heterogeneous distribution and lower dominance of specific species.…”

Exploring Genomics and Microbial Ecology: Analysis of Bidens pilosa L. Genetic Structure and Soil Microbiome Diversity by RAD-Seq and Metabarcoding

“…Proteobacteria emerges as the predominant phylum in all populations, consistent with previous studies [ 33 , 34 ]. Palmira shows a high diversity and evenness of bacteria, reflected in the Principal Coordinates Analysis (PCoA), suggesting a more heterogeneous distribution and lower dominance of specific species.…”

Exploring Genomics and Microbial Ecology: Analysis of Bidens pilosa L. Genetic Structure and Soil Microbiome Diversity by RAD-Seq and Metabarcoding