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ThesisItem Open Access Metagenomic analysis of bacterial diversity in the rice rhizosphere of kole lands of Thrissur(Department of Plant Biotechnology, College of Agriculture, Vellanikkara, 2021) Athira Krishnan, L R; KAU; Girija, DKole wetlands of Kerala are a complex ecological system and are known for the higher productivity of rice. The Kole lands remain submerged under flood water for about six months in a year and this seasonal alteration gives it both terrestrial and water related properties which determine the ecosystem structure. Though several studies have been conducted for exploring the diversity of fishes, birds, flora, butterflies, etc., in Kole lands, no systematic studies have been made on rhizosphere microbial diversity. This study was intended to analyze the bacterial diversity in the rice rhizosphere ecosystem of Kole lands of Thrissur. Rhizosphere soil samples were collected from three locations of Kole lands of Thrissur viz. Puzhakkal (Pzk), Mullassery (Mls) and Cherpu (Chr) and analyzed for physico-chemical and biological properties. Culturable microflora was enumerated using serial dilution plate method for bacteria, fungi, actinomycetes, N- fixers, P, K and Zn-solubilizers. Twenty four predominant bacterial isolates were purified and screened for PGP activities including production of IAA and ammonia and phosphate solubilization. The bacterial diversity of the rhizosphere samples was analyzed by metagenomic library construction and sequencing of V3-V4 regions of the 16S rRNA gene, using Next Generation Sequencing (NGS) technology. The sequences thus obtained were analyzed for the Operational Taxonomic Units (OTUs) using MEGAN and MG- RAST server. The analysis of physico-chemical parameters showed a comparatively low pH in all the samples. An extreme low pH can reduce the availability of major and secondary nutrients in the soil. The sample Pzk showed higher content of organic C. Culturable microflora and microbial biomass C analysis also showed a slight increase in the sample Pzk. The soil organic C content and microbial biomass C are reported to be positively correlated. The microbial biomass C is the measure of the weight of the organisms present.The predominant bacterial phyla in the rice rhizosphere of Kole lands of Thrissur included Proteobacteria, Chloroflexi, Acidobacteria, Actinobacteria, Bacteroidetes and Nitrospirae. The bacterial population was found higher in the sample Puzhakkal and comparatively lower in the sample Chr. Phylum Proteobacteria was found to be the most predominant bacterial phylum in Pzk while, Chloroflexi was more predominant in Mls and Chr. The classes Acidobacteria and Ktedonobacteria were found dominant in the samples Mls and Chr and the Pzk sample was dominated by Acidobacteria and Deltaproteobacteria. The phylum level bacterial diversity was found highest in the sample Chr with 21 phyla while the genus level bacterial diversity was highest in the sample Mls. The abundance of genera Desulfobacca, Thermoanaerobaculum, Thioalkalispira, Anaerolinea, Ktedonobacter, Gemmatimonas, Puedolabrys, Sulfuricurvum, Syntrophobacter, Haliangium, Geobacter and Syntrophorhabdus was observed in the Kole land rice rhizosphere samples. Many of these genera are involved in geo-cycling of nutrients like Fe, S and Mn and a few are used in waste water treatment. The species- level bacterial diversity was found to be highest in the sample Mls as indicated by the Chao1 and observed species indices. The predominant archaeal phyla in the rice rhizosphere of Kole lands of Thrissur included Euryarchaeota, Crenarchaeota and Thaumarchaeota. Archaea are still an under- detected and little-studied part of the soil, so their full influence on global biogeochemical cycles remains largely unexplored. This study has thrown light on the diversity of bacterial and archaebacterial communities in the peculiar ecosystem of Kole lands of Thrissur. Many of the biofertilizer organisms like Azospirillum, Paenibacillus, Cellulosimicrobium and biocontrol agents like Bacillus and Pseudomonas could be detected, which could be cultured and used as potential acid tolerant biofertilizers and PGPR. Many of the ‘Unclassified’ genera could be novel bacteria and more research is needed to identify their taxonomic position and functional role in the ecosystem.
