Exploring the role and characterization of Burkholderia cepacia CD2: a promising eco-friendly microbial fertilizer isolated from long-term chemical fertilizer-free soil

Hyunwoo Son, Justina Klingaite, Sihyun Park, Jae Ho Shin

Research output: Contribution to journalArticlepeer-review

Abstract

In the pursuit of sustainable and environmentally-friendly agricultural practices, we conducted an extensive study on the rhizosphere bacteria inhabiting soils that have been devoid of chemical fertilizers for an extended period exceeding 40 years. Through this investigation, we isolated a total of 80 species of plant growth-promoting rhizosphere bacteria and assessed their potential to enhance plant growth. Among these isolates, Burkholderia cepacia CD2 displayed remarkable plant growth-promoting activity, making it an optimal candidate for further analysis. Burkholderia cepacia CD2 exhibited a range of beneficial characteristics conducive to plant growth, including phosphate solubilization, siderophore production, denitrification, nitrate utilization, and urease activity. These attributes are well-known to positively influence the growth and development of plants. To validate the taxonomic classification of the strain, 16S rRNA gene sequencing confirmed its placement within the Burkholderia genus, providing further insights into its phylogenetic relationship. To delve deeper into the potential mechanisms underlying its plant growth-promoting properties, we sought to confirm the presence of specific genes associated with plant growth promotion in CD2. To achieve this, whole genome sequencing (WGS) was performed by Plasmidsaurus Inc. (USA) utilizing Oxford Nanopore technology (Abingdon, UK). The WGS analysis of the genome of CD2 revealed the existence of a subsystem function, which is thought to be a pivotal factor contributing to improved plant growth. Based on these findings, it can be concluded that Burkholderia cepacia CD2 has the potential to serve as a microbial fertilizer, offering a sustainable alternative to chemical fertilizers.

Original languageEnglish
Pages (from-to)394-403
Number of pages10
JournalJournal of Applied Biological Chemistry
Volume66
Issue number1
DOIs
StatePublished - 2023

Keywords

  • Eco-friendly
  • Microbial fertilizer
  • Plant Growth-Promoting rhizobacteria
  • Whole genome sequencing

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