Diversity of bacterial endophyte in Eucalyptus clones and their implications in water stress tolerance

• Published in: Microbiological research Vol. 241; p. 126579
• Main Authors: Dasgupta, Modhumita Ghosh, Burragoni, Sravanthi, Amrutha, Sivanantham, Muthupandi, Muthusamy, Parveen, Abdul Bari Muneera, Sivakumar, Veerasamy, Ulaganathan, Kandasamy
• Format: Journal Article
• Language: English
• Published: Elsevier GmbH 01.12.2020
• Subjects: Bacterial endophytes; Biomarkers; Diversity; Eucalyptus; Water stress; Bacterial endophytes; Biomarkers; Eucalyptus; Water stress; Diversity
• ISSN: 0944-5013; 1618-0623
• DOI: 10.1016/j.micres.2020.126579

•Endophytes enhance host tolerance against abiotic stress.•Eucalyptus clones were significantly enriched with Escherichia coli.•Species richness and diversity was high in Eucalyptus camaldulensis clones.•Clones susceptible to water stress recorded maximum taxonomic biomarkers The genus Eucalyptus with over 747 species occurs in wide ecological range and is preferred for bioenergy plantations due to their short rotation, rapid growth and superior wood properties. They are planted in 22 million ha area and India is third largest planter of Eucalyptus. In the present study, the bacterial endophyte community in leaves of six Eucalyptus clones belonging to E. tereticornis and E. camaldulensis was assessed by sequencing the V3–V4 region of the bacterial 16S rRNA gene. The clones were selected based on their response to progressive water stress. A total of 4947 operational taxonomic units (OTUs) were obtained and the dominant phyla were Proteobacteria, Bacteroidetes and Firmicutes. Escherichia coli was enriched in all samples at species level. Comparison of endophyte diversity was conducted between the two species and across the water stress tolerant and susceptible clones. The alpha-diversity analysis revealed that species richness and diversity was high in E. camaldulensis and water stress susceptible clones. LefSe analysis predicted 69 and 54 significantly enriched taxonomic biomarkers between species and stress response groups respectively. A maximum of 49 taxonomic biomarkers were recorded in susceptible group and the significantly enriched species were Bacteroides thetaiotaomicron and Turicibacter sanguinis, while the tolerant group documented 5 biomarkers including oscillibacter sp. The presence of functional biomarkers was also assessed in both the groups. The findings of the present study provides an insight into the diversity of bacterial endophyte in Eucalyptus leaves and to our knowledge this is the first report on documenting the endophyte abundance in water stress responsive Eucalyptus clones.