TY - JOUR
T1 - Impact of acute and chronic exposure to sulfamethoxazole on the kinetics and microbial structure of an activated sludge community
AU - Pala-Ozkok, Ilke
AU - Katipoglu-Yazan, Tugce
AU - Olmez-Hanci, Tugba
AU - Jonas, Daniel
AU - Ubay-Cokgor, Emine
AU - Orhon, Derin
N1 - Publisher Copyright:
Copyright © 2024 Pala-Ozkok, Katipoglu-Yazan, Olmez-Hanci, Jonas, Ubay-Cokgor and Orhon.
PY - 2024
Y1 - 2024
N2 - The aim of this study was to reveal the microbial and kinetic impacts of acute and chronic exposure to one of the frequently administered antibiotics, i.e., sulfamethoxazole, on an activated sludge biomass. Respirometric analysis and model evaluation of the oxygen utilization rate profiles were the backbone of this study. The results showed that continuous exposure to sulfamethoxazole resulted in the inhibition of substrate storage and an increase in the endogenous decay rates by twofold, which was supported by analysis of the resistance genes. A mild inhibition on the growth and hydrolysis kinetics was also observed. Moreover, sulfamethoxazole had a binding impact with available organic carbon, resulting in a slightly less oxygen consumption. DNA sequencing and antibiotic resistance gene analyses showed that continuous exposure to sulfamethoxazole caused a change in the community structure at the species level. Resistant bacteria including Arthrobacter sp. and members of the Chitinophagaceae and Intrasporangiaceae families were found to have dominated the bacterial community. The impact of intermittent exposure was also investigated, and the results indicated a drop in the severity of the impact after 20 days of intermittence.
AB - The aim of this study was to reveal the microbial and kinetic impacts of acute and chronic exposure to one of the frequently administered antibiotics, i.e., sulfamethoxazole, on an activated sludge biomass. Respirometric analysis and model evaluation of the oxygen utilization rate profiles were the backbone of this study. The results showed that continuous exposure to sulfamethoxazole resulted in the inhibition of substrate storage and an increase in the endogenous decay rates by twofold, which was supported by analysis of the resistance genes. A mild inhibition on the growth and hydrolysis kinetics was also observed. Moreover, sulfamethoxazole had a binding impact with available organic carbon, resulting in a slightly less oxygen consumption. DNA sequencing and antibiotic resistance gene analyses showed that continuous exposure to sulfamethoxazole caused a change in the community structure at the species level. Resistant bacteria including Arthrobacter sp. and members of the Chitinophagaceae and Intrasporangiaceae families were found to have dominated the bacterial community. The impact of intermittent exposure was also investigated, and the results indicated a drop in the severity of the impact after 20 days of intermittence.
KW - 454-pyro-sequencing
KW - activated sludge
KW - acute inhibition
KW - antibiotic resistance genes
KW - chronic exposure
KW - modeling
KW - sulfamethoxazole
UR - http://www.scopus.com/inward/record.url?scp=85205387977&partnerID=8YFLogxK
U2 - 10.3389/frabi.2024.1335654
DO - 10.3389/frabi.2024.1335654
M3 - Article
AN - SCOPUS:85205387977
SN - 2813-2467
VL - 3
JO - Frontiers in Antibiotics
JF - Frontiers in Antibiotics
M1 - 1335654
ER -