The functional potential of the rhizospheric microbiome of an invasive tree species, Acacia dealbata

Casper N. Kamutando, Surendra Vikram, Gilbert Kamgan-Nkuekam, Thulani P. Makhalanyane, Michelle Greve, Johannes J. Le Roux, David M. Richardson, Don A. Cowan, Angel Valverde*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

35 Citations (Scopus)

Abstract

Plant-microbe interactions mediate both the invasiveness of introduced plant species and the impacts that they have in invaded ecosystems. Although the phylogenetic composition of the rhizospheric microbiome of Acacia dealbata (an invasive Australian tree species) has been investigated, little is known about the functional potential of the constituents of these altered microbial communities. We used shotgun DNA sequencing to better understand the link between bacterial community composition and functional capacity in the rhizospheric microbiomes associated with invasive A. dealbata populations in South Africa. Our analysis showed that several genes associated with plant growth-promoting (PGP) traits were significantly overrepresented in the rhizospheric metagenomes compared to neighbouring bulk soils collected away from A. dealbata stands. The majority of these genes are involved in the metabolism of nitrogen, carbohydrates and vitamins, and in various membrane transport systems. Overrepresented genes were linked to a limited number of bacterial taxa, mostly Bradyrhizobium species, the preferred N-fixing rhizobial symbiont of Australian acacias. Overall, these findings suggest that A. dealbata enriches rhizosphere soils with potentially beneficial microbial taxa, and that members of the genus Bradyrhizobium may play an integral role in mediating PGP processes that may influence the success of this invader when colonizing novel environments.

Original languageEnglish
Pages (from-to)191–200
Number of pages10
JournalMicrobial Ecology
Volume77
Issue number1
Early online date9 Jun 2018
DOIs
Publication statusPublished - Jan 2019
Externally publishedYes

Keywords

  • biological invasions
  • Bradyrhizobium
  • plant growth-promoting traits
  • rhizosphere microbiome
  • shotgun sequencing
  • tree invasions

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