Industrialization as a source of heavy metals and antibiotics which can enhance the antibiotic resistance in wastewater, sewage sludge and river water.
Jakub HubenyMonika HarniszEwa KorzeniewskaMartyna ButaWiktor ZielińskiDamian RolbieckiJoanna GiebułtowiczGrzegorz Nałęcz-JaweckiGrażyna PłazaPublished in: PloS one (2021)
The spread of antibiotic resistance is closely related with selective pressure in the environment. Wastewater from industrialized regions is characterized by higher concentrations of these pollutants than sewage from less industrialized areas. The aim of this study was to compare the concentrations of contaminants such as antibiotics and heavy metals (HMs), and to evaluate their impact on the spread of genes encoding resistance to antimicrobial drugs in samples of wastewater, sewage sludge and river water in two regions with different levels of industrialization. The factors exerting selective pressure, which significantly contributed to the occurrence of the examined antibiotic resistance genes (ARGs), were identified. The concentrations of selected gene copy numbers conferring resistance to four groups of antibiotics as well as class 1 and 2 integron-integrase genes were determined in the analyzed samples. The concentrations of six HMs and antibiotics corresponding to genes mediated resistance from 3 classes were determined. Based on network analysis, only some of the analyzed antibiotics correlated with ARGs, while HM levels were correlated with ARG concentrations, which can confirm the important role of HMs in promoting drug resistance. The samples from a wastewater treatment plant (WWTP) located an industrialized region were characterized by higher HM contamination and a higher number of significant correlations between the analyzed variables than the samples collected from a WWTP located in a less industrialized region. These results indicated that treated wastewater released into the natural environment can pose a continuous threat to human health by transferring ARGs, antibiotics and HMs to the environment. These findings shed light on the impact of industrialization on antibiotic resistance dissemination.
Keyphrases
- antibiotic resistance genes
- anaerobic digestion
- wastewater treatment
- sewage sludge
- heavy metals
- risk assessment
- human health
- genome wide
- municipal solid waste
- network analysis
- genome wide identification
- health risk
- microbial community
- health risk assessment
- climate change
- staphylococcus aureus
- transcription factor
- genome wide analysis
- newly diagnosed
- bioinformatics analysis