Abstract
There have been very few studies on the effects of plant competition on the rhizosphere bacterial community. To investigate the impacts of intra- and interspecific plant competition, we analyzed the responses of rhizosphere bacterial communities to plant density as determined by 16S rRNA gene targeted sequencing. We included five weedy plant species growing in field soil in monocultures and mixed cultures at three densities in a greenhouse experiment. The rhizosphere bacterial community of each species changed more with density in a mixture of all five plant species than in monocultures, so intra- and interspecific plant competition had different effects on the bacterial community. For the dominant plant competitor, Centaurea cyanus, neither intra- nor interspecific competition had major effects on the composition of its rhizosphere bacterial communities. In contrast, the bacterial communities of the weakest competitor, Trifolium repens, were affected differently by intra- and interspecific competition. During increasing intraspecific competition T. repens maintained a highly specialized bacterial community dominated by Rhizobium; while during interspecific competition, the relative abundance of Rhizobium declined while other nitrogen fixing and potentially plant growth promoting taxa became more abundant. Contrary to previous observations made for soil microbial communities, the bacterial rhizosphere community of the weakest competitor did not become more similar to that of the dominant species. Thus, the process of competition, as well as the plant species themselves, determined the rhizosphere bacterial community. Our results emphasize the role of plant-plant interactions for rhizosphere bacterial communities. These effects may feedback to affect plant-plant interactions, and this is an important hypothesis for future research.
Highlights
Plant roots are colonized by complex microbial communities that may reside in the rhizosphere soil or live as root-attached or endophytic communities in closer association with the roots (Philippot et al, 2012; Mendes et al, 2013)
In the present study we investigate a model community of five co-occurring weed species from three functional groups from semi-natural and agricultural environments: the grass Lolium multiflorum Lam (Italian ryegrass), the legume Trifolium repens L, and three herbaceous dicots: Dracocephalum moldavica L (Moldavian dragonhead), Centaurea cyanus L, and Plantago psyllium L
Biomass of C. cyanus, T. repens, and D. moldavica increased with increasing density, while the biomass of L. multiflorum and P. psyllium leveled off between the medium and the high density
Summary
Plant roots are colonized by complex microbial communities that may reside in the rhizosphere soil or live as root-attached or endophytic communities in closer association with the roots (Philippot et al, 2012; Mendes et al, 2013). The rhizosphere microbiota is primarily recruited from the surrounding soil, and the soil type as well as the plant genotype represent two important factors. Plant Competition and Rhizosphere Bacterial Communities shaping the composition of rhizosphere microbial communities (Vandenkoornhuyse et al, 2015; Jacoby et al, 2017). Root-associated microbial communities contain beneficial microorganisms as well as plant pathogens, among which fungi and oomycetes represent the most important soilborne groups (Prashar et al, 2014; Ciancio et al, 2016). Fixation of atmospheric nitrogen performed by diazotrophs is important for ammonium acquisition by legumes (Richardson et al, 2009), non-leguminous plants have been found to host nitrogen-fixing bacteria (Santi et al, 2013)
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