Understanding the diversity and functioning of microbial communities in acidic marsh land is extremely less investigated in contrast to soils and aquatic ecosystems. This study implemented Illumina high-throughput sequencing to explore the microbial communities and xenobiotic degrading enzymes in the acidic marshland. Taxonomic analysis using SILVA SSU database stated that Proteobacteria (66.74 %), Bacteroidetes (6.98%) and acidobacteria (2.35 %) were the most abundant phylum in the acidic marshland. Functional analysis by SEED subsystems showed that 1.62 % substitute to metabolism of aromatic compound while KO indicates 1.86% of metabolism are involved in xenobiotic biodegradation. KO analysis also indicated the benzoate degradation pathway (ko00362) are predominant while Chlorocyclohexane and chlorobenzene degradation pathway (ko00361), Polycyclic aromatic hydrocarbon degradation pathway (ko00624) Aminobenzoate degradation pathway (ko00627) is largely present in the acidic marshland.