Phytoremediation of PAH compounds by microbial communities in sodic soil

The PAH degrading microbial consortium was collected from sodic soil of the nursery of Guru Jambheshwar University of Science and Technology, Hisar, Haryana (India). And the soil was artificially amended with phenanthrene and naphthalene to isolate the PAHs degrading microbial consortium. The diversity of microbial consortium was analyzed using the NGS (Next Generation Sequencing) based metagenomic approach. The result of diversity analysis showed species Tepidanaerobacter syntrophicus, Sphingomonas oliophenolica, Arthrobacter psychrochitinipnius, Bifidobacterium bombi, Nocardiodies islandensis, Rhodovibrio sodomensis, Thiorhodococus pfennigii, Aeromicrobium ponti, Steroidobacter dentrificans, Actinomaduria maheshkhaliensis, Dactylosporangium maewongense, Pelotomaculum isophthalicicum, and Nocardioides islandensis were present in the consortium. Moreover, Sphingomonas, Arthrobacter, Sphingobium, Azospirillium, Thirohodococcus, and Pelotomaculum were the prominent pollutant degrader genera in the microbial consortium. Since the bioremediation of these pollutants occurs with a significant reduction in toxicity, the study's perspective is to use this type of consortium for bioremediation of specifically contaminated soil. NOVELTY STATEMENTThe present work's novelty was to find the helpful microbial consortium for the bioremediation of toxic compounds such as naphthalene and phenanthrene. In this study, the degradation of such compounds was done by the various communities of genera like Bifidobacterium, Conexibacter, Sterodobacter, Rhodovibrio, Arthrobacter, Actinomadura, and Euzebya, which are rarely described in the earlier researches. Therefore, this study will enhance the quality of future research.

Automated summary

A PAH degrading microbial consortium was collected from sodic soil in India and analyzed using NGS based metagenomic approach, revealing a diverse range of species and genera involved in the degradation of pollutants. The study highlights the potential of using this consortium for bioremediation of contaminated soil due to the significant reduction in toxicity achieved through the biodegradation process.