Niche Differentiation in the Composition, Predicted Function, and Co-occurrence Networks in Bacterial Communities Associated With Antarctic Vascular Plants

Zhang, Qian; Acuna, Jacquelinne J.; Inostroza, Nitza G.; Duran, Paola; Mora, Maria L.; Sadowsky, Michael J.; Jorquera, Milko A.

Abstract

Climate change directly affecting the Antarctic Peninsula has been reported to induce the successful colonization of ice-free lands by two Antarctic vascular plants (Deschampsia antarcticaandColobanthus quitensis). While studies have revealed the importance of microbiota for plant growth and stress tolerance in temperate climates, the role that plant-associated microbes play in the colonization of ice-free lands remains unknown. Consequently, we used high-throughput DNA sequence analyses to explore the composition, predicted functions, and interactive networks of plant-associated microbial communities among the rhizosphere, endosphere, and phyllosphere niches ofD. antarcticaandC. quitensis. Here we report a greater number of operational taxonomic units (OTUs), diversity, and richness in the microbial communities from the rhizosphere, relative to endosphere and phyllosphere. While taxonomic assignments showed greater relative abundances ofProteobacteria, Bacteroidetes, andActinobacteriain plant niches, principal coordinate analysis revealed differences among the bacterial communities from the other compartments examined. More importantly, however, our results showed that most of OTUs were exclusively found in each plant niche. Major predicted functional groups of these microbiota were attributed to heterotrophy, aerobic heterotrophy, fermentation, and nitrate reduction, independent of plant niches or plant species. Co-occurrences network analyses identified 5 (e.g.,Microbacteriaceae, Pseudomonaceae, Lactobacillaceae, andCorynebacteriaceae), 23 (e.g.,ChitinophagaceaeandSphingomonadaceae) and 7 (e.g.,Rhodospirillaceae) putative keystone taxa present in endosphere, phyllosphere, and rhizosphere, respectively. Our results revealed niche differentiation in Antarctic vascular plants, highlighting some putative microbial indicators and keystone taxa in each niche. However, more studies are required to determine the pivotal role that these microbes play in the successful colonization of ice-free lands by Antarctic plants.

Más información

Título según WOS: Niche Differentiation in the Composition, Predicted Function, and Co-occurrence Networks in Bacterial Communities Associated With Antarctic Vascular Plants
Título de la Revista: FRONTIERS IN MICROBIOLOGY
Volumen: 11
Editorial: Frontiers Media S. A.
Fecha de publicación: 2020
DOI:

10.3389/fmicb.2020.01036

Notas: ISI