The use of high throughput DNA sequence analysis to assess the endophytic microbiome of date palm roots grown under different levels of salt stress

Authors

  • Mahmoud W. Yaish Department of Biology, College of Science, Sultan Qaboos University, Muscat, Oman.
  • Ibtisam Al-Harrasi Department of Biology, College of Science, Sultan Qaboos University, Muscat, Oman.
  • Aliya S. Alansari Department of Biology, College of Science, Sultan Qaboos University, Muscat, Oman.
  • Rashid Al-Yahyai Department of Crop Sciences, College of Agricultural and Marine Sciences, Sultan Qaboos University, Muscat, Oman.
  • Bernard R. Glick 3Department of Biology, University of Waterloo, Waterloo, Ontario, Canada

Keywords:

Phoenix dactylifera, endophytes, salt stress

Abstract

Date palms are able to grow under diverse abiotic stress conditions including in saline soils, where microbial communities may be help in the plant’s salinity tolerance. These communities able to produce specific growth promoting substances can enhance date palm growth in a saline environment. However, these communities are poorly defined. In the work reported here, the date palm endophytic bacterial and fungal communities were identified using the pyrosequencing method, and the microbial differential abundance in the root upon exposure to salinity stress was estimated. Approximately 150,061 reads were produced from the analysis of six ribosomal DNA libraries, which were prepared from endophytic microorganisms colonizing date palm root tissues. DNA sequence analysis of these libraries predicted the presence of a variety of bacterial and fungal endophytic species, some known and others unknown. The microbial community compositions of 30% and 8% of the bacterial and fungal species, respectively, were significantly (p ≤ 0.05) altered in response to salinity stress. Differential enrichment analysis showed that microbe diversity indicated by the Chao, Shannon and Simpson indices were slightly reduced, however, the overall microbial community structures were not significantly affected as a consequence of salinity. This may reflect a buffering effect by the host plant on the internal environments that these communities are colonizing. Some of the endophytes identified in this study were strains that were previously isolated from saline and marine environments. This suggests possible interactions with the plant that are favorable to salinity tolerance in date palm. [Int Microbiol 19(3):143-155 (2016)]

Keywords: Phoenix dactylifera · endophytes · salt stress

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