Characterization of culturable bacterial endophytes and their capacity to promote plant growth from plants grown using organic or conventional practices

Ye Xia, Seth DeBolt, Jamin Dreyer, Delia Scott, Mark A. Williams

Research output: Contribution to journalArticlepeer-review

107 Scopus citations


Plants have a diverse internal microbial biota that has been shown to have an important influence on a range of plant health attributes. Although these endophytes have been found to be widely occurring, few studies have correlated agricultural production practices with endophyte community structure and function. One agricultural system that focuses on preserving and enhancing soil microbial abundance and biodiversity is organic farming, and numerous studies have shown that organically managed system have increased microbial community characteristics. Herein, the diversity and specificity of culturable bacterial endophytes were evaluated in four vegetable crops: corn, tomato, melon, and pepper grown under organic or conventional practices. Endophytic bacteria were isolated from surface-sterilized shoot, root, and seed tissues and sequence identified. A total of 336 bacterial isolates were identified, and grouped into 32 species and five phyla. Among these, 239 isolates were from organically grown plants and 97 from those grown conventionally. Although a diverse range of bacteria were documented, 186 were from the Phylum Firmicutes, representing 55% of all isolates. Using the Shannon diversity index, we observed a gradation of diversity in tissues, with shoots and roots having a similar value, and seeds having the least diversity. Importantly, endophytic microbial species abundance and diversity was significantly higher in the organically grown plants compared to those grown using conventional practices, potentially indicating that organic management practices may increase endophyte presence and diversity. The impact that these endophytes could have on plant growth and yield was evaluated by reintroducing them into tomato plants in a greenhouse environment. Of the bacterial isolates tested, 61% were found to promote tomato plant growth and 50–64% were shown to enhance biomass accumulation, illustrating their potential agroecosystem application.

Original languageEnglish
Article number490
JournalFrontiers in Plant Science
Issue numberJULY
StatePublished - Jul 10 2015

Bibliographical note

Publisher Copyright:
© 2015 Xia, DeBolt, Dreyer, Scott and Williams.


  • Agroecosystems
  • Diversity
  • Endophyte
  • Organic farming
  • Phytobiome

ASJC Scopus subject areas

  • Plant Science


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