Arsenic Contamination in Agricultural Soil Reduces Metabolic Activity of Total and Free-Living Nitrogen-Fixing Bacteria as Revealed by Real-Time qPCR

Abstract

ABSTRACTLaboratory microcosms were used to assess the impact of arsenic (As) contamination on agricultural soil bacterial activity focusing free-living nitrogen fixers for three months. Periodically collected microcosm samples were analyzed by RT–qPCR following extraction of total RNA and cDNA preparation for assessing the metabolically active bacterial population. RT–qPCR data showed the gradual increase of 16S rRNA and nifH gene expression, and relative activity of diazotrophs in the enriched soil bacterial consortia under short time As exposure up to 20 ppm and 10 ppm, respectively. A similar trend of these variables was also noticed but up to 1 ppm As when incubating the bulk soil for the same duration. Reduced bacterial activity was noticed at higher concentration of As although in short time exposure. Extending the As exposure time, the bacterial activities in both enriched consortia and bulk soil were decreased. Although, the relative activity of diazotrophs in enriched consortia was increased in presence of 10 ppm As, the same was decreased in bulk soil when exposed to >1 ppm As for long time indicating susceptibility of nitrogen fixer to As contamination in soil. PCA of the data obtained also indicated a negative correlation between As concentrations and diazotrophic activity.