Frontiers in Plant Science (Sep 2022)

Salt stress in olive tree shapes resident endophytic microbiota

  • Federico Vita,
  • Federico Vita,
  • Leonardo Sabbatini,
  • Fabiano Sillo,
  • Stefano Ghignone,
  • Marzia Vergine,
  • Werther Guidi Nissim,
  • Werther Guidi Nissim,
  • Stefania Fortunato,
  • Anna Maria Salzano,
  • Andrea Scaloni,
  • Andrea Luvisi,
  • Raffaella Balestrini,
  • Luigi De Bellis,
  • Stefano Mancuso,
  • Stefano Mancuso

DOI
https://doi.org/10.3389/fpls.2022.992395
Journal volume & issue
Vol. 13

Abstract

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Olea europaea L. is a glycophyte representing one of the most important plants in the Mediterranean area, both from an economic and agricultural point of view. Its adaptability to different environmental conditions enables its cultivation in numerous agricultural scenarios, even on marginal areas, characterized by soils unsuitable for other crops. Salt stress represents one current major threats to crop production, including olive tree. In order to overcome this constraint, several cultivars have been evaluated over the years using biochemical and physiological methods to select the most suitable ones for cultivation in harsh environments. Thus the development of novel methodologies have provided useful tools for evaluating the adaptive capacity of cultivars, among which the evaluation of the plant-microbiota ratio, which is important for the maintenance of plant homeostasis. In the present study, four olive tree cultivars (two traditional and two for intensive cultivation) were subjected to saline stress using two concentrations of salt, 100 mM and 200 mM. The effects of stress on diverse cultivars were assessed by using biochemical analyses (i.e., proline, carotenoid and chlorophyll content), showing a cultivar-dependent response. Additionally, the olive tree response to stress was correlated with the leaf endophytic bacterial community. Results of the metabarcoding analyses showed a significant shift in the resident microbiome for plants subjected to moderate salt stress, which did not occur under extreme salt-stress conditions. In the whole, these results showed that the integration of stress markers and endophytic community represents a suitable approach to evaluate the adaptation of cultivars to environmental stresses.

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