Pharmaceuticals and personal care products' (PPCPs) impact on enriched nitrifying cultures

Carla Lopez, Mac-Anthony Nnorom, Yiu Fai Tsang, Charles W. Knapp

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Abstract

The impact of pharmaceutical and personal care products (PPCPs) on the performance of biological wastewater treatment plants (WWTPs) has been widely studied using whole-community approaches. These contaminants affect the capacity of microbial communities to transform nutrients; however, most have neither honed their examination on the nitrifying communities directly nor considered the impact on individual populations. In this study, six PPCPs commonly found in WWTPs, including a stimulant (caffeine), an antimicrobial agent (triclosan), an insect repellent ingredient (N,N-diethyl-m-toluamide (DEET)) and antibiotics (ampicillin, colistin and ofloxacin), were selected to assess their short-term toxic effect on enriched nitrifying cultures: Nitrosomonas sp. and Nitrobacter sp. The results showed that triclosan exhibited the greatest inhibition on nitrification with EC 50 of 89.1 μg L −1. From the selected antibiotics, colistin significantly affected the overall nitrification with the lowest EC 50 of 1 mg L −1, and a more pronounced inhibitory effect on ammonia-oxidizing bacteria (AOB) compared to nitrite-oxidizing bacteria (NOB). The EC 50 of ampicillin and ofloxacin was 23.7 and 12.7 mg L −1, respectively. Additionally, experimental data suggested that nitrifying bacteria were insensitive to the presence of caffeine. In the case of DEET, moderate inhibition of nitrification (<40%) was observed at 10 mg L −1. These findings contribute to the understanding of the response of nitrifying communities in presence of PPCPs, which play an essential role in biological nitrification in WWTPs. Knowing specific community responses helps develop mitigation measures to improve system resilience.

Original languageEnglish
Number of pages30
JournalEnvironmental Science and Pollution Research
DOIs
Publication statusPublished - 24 Jun 2021

Keywords

  • PCPP
  • nitrifying bacteria
  • nitrification
  • toxicity
  • nitrogen removal
  • ammonia-oxidising bacteria
  • nitrite-oxidising bacteria

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