Molecular approaches to investigate herbicide-induced bacterial community changes in soil microcosms

Abstract

Since biochemical and microbiological methods used to study microbial community changes induced by anthropogenic activities can be biased, the impact of two herbicides on soil microorganisms was investigated by culture-independent molecular techniques. The effect of three different amounts (the recommended field dose, tenfold, and 100-fold the dose) of propanil or prometryne on the bacterial community of a clay soil, two modalities of incubation (soil moisture at 70% of the field capacity and a soil-herbicide suspension, 1:10, w:v), and time of incubation were investigated by denaturing gradient gel electrophoresis (DGGE) and amplified rDNA restriction analysis (ARDRA). Two sets of primers for 16S rDNA were used to amplify total soil DNA. Sterile and non-sterile samples were used to determine, by HPLC, the amounts of herbicides adsorbed on soil and transformed by soil microorganisms. Prometryne persisted in soil longer than propanil. Propanil was removed significantly more by non-sterile than by sterile samples, while for prometryne, slight differences were observed. 3,4-Dichloroaniline, a product of propanil hydrolysis, was detected in non-sterile samples and increased with incubation time. Propanil did not affect soil bacteria significantly as indicated by DGGE and ARDRA, with the only exception being the soil-herbicide suspension. Despite a lower utilization of prometryne by soil microorganisms, DGGE analysis showed a more diverse banding than with propanil. Some bands were also detected in the DNA sample extracted from the soil-prometryne suspension, and could be representative of bacterial species utilizing the herbicide as a carbon source, in two very different soil microcosms.