Trends in Antibiotic Resistance Genes Occurrence in the Haihe River, China

Luo, Yi; Mao, Daqing; Rysz, Michal; Zhou, Qixing; Zhang, Hongjie; Xu, Lin; Alvarez, Pedro J. J.

doi:10.1021/es100233w

Cited by 707 publications

(284 citation statements)

References 44 publications

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“…The abundance and diversity of ARGs in this urban river system were higher than previously reported from other Chinese urban rivers (Luo et al 2010;Xu et al 2016;Ouyang et al 2015). Among the genes found in all water samples, aadA2-03, aadA1, bla VEB , bla TEM , and qacEΔ1 were consistently detected at high abundance.…”

Section: Discussioncontrasting

confidence: 61%

Antibiotic resistance genes in an urban river as impacted by bacterial community and physicochemical parameters

Zhou

Zheng

Wei

et al. 2017

Environ Sci Pollut Res

144

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Antibiotic resistance genes (ARGs) in urban rivers are a serious public health concern in regions with poorly planned, rapid development. To gain insights into the predominant factors affecting the fate of ARGs in a highly polluted urban river in eastern China, a total of 285 ARGs, microbial communities, and 20 physicochemical parameters were analyzed for 17 sites. A total of 258 unique ARGs were detected using high-throughput qPCR, and the absolute abundance of total ARGs was positively correlated with total organic carbon and total dissolved nitrogen concentrations (P < 0.01). ARG abundance and diversity were greatly altered by microbial community structure. Variation partitioning analysis showed that the combined effects of multiple factors contributed to the profile and dissemination of ARGs, and variation of microbial communities was the major factor affecting the distribution of ARGs. The disparate distribution of some bacteria, including Bacteroides from mammalian gastrointestinal flora, Burkholderia from zoonotic infectious diseases, and Zoogloea from wastewater treatment, indicates that the urban river was strongly influenced by point-source pollution. Results imply that microbial community shifts caused by changes in water quality may lead to the spread of ARGs, and point-source pollution in urban rivers requires greater attention to control the transfer of ARGs between environmental bacteria and pathogens.

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Section: Discussioncontrasting

confidence: 61%

Antibiotic resistance genes in an urban river as impacted by bacterial community and physicochemical parameters

Zhou

Zheng

Wei

et al. 2017

Environ Sci Pollut Res

144

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“…6b), while the correlation between the total TRGs and the total TCs was not significant. Similar results have been reported by previous studies (Gao et al, 2012;Luo et al, 2010;Mckinney et al, 2010;Peak et al, 2007). It is seen that the relatively high water solubility and stability of SAs tend to promote the spread of antibiotic resistance and also contribute to the strong correlation between SRGs and SAs in the aquatic environment (CheeSanford et al, 2009).…”

Section: Correlation Analysissupporting

confidence: 88%

“…The presence of residual antibiotics could enhance the resistance level of microbial communities and promote the proliferation of antibiotic resistance genes (ARGs) in swine manure (Looft et al, 2012), livestock and poultry wastewater (Mckinney et al, 2010;Peak et al, 2007), farmland soil (Huang et al, 2013;Wu et al, 2010), and surface water (Graham et al, 2010;Luo et al, 2010). The residual antibiotics could promote the accumulation of ARGs even at subtherapeutic levels (Ghosh and Lapara, 2007).…”

Section: Introductionmentioning

confidence: 99%

Dissemination of veterinary antibiotics and corresponding resistance genes from a concentrated swine feedlot along the waste treatment paths

Wang

Ben

Yang

et al. 2016

Environment International

111

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Swine feedlots are an important pollution source of antibiotics and antibiotic resistance genes (ARGs) to the environment. This study investigated the dissemination of two classes of commonly-used veterinary antibiotics, namely, tetracyclines (TCs) and sulfonamides (SAs), and their corresponding ARGs along the waste treatment paths from a concentrated swine feedlot located in Beijing, China. The highest total TC and total SA concentrations detected were 166.7 mg kg −1 and 64.5 μg kg −1 in swine manure as well as 388.7 and 7.56 μg L −1 in swine wastewater, respectively. Fourteen tetracycline resistance genes (TRGs) encoding ribosomal protection proteins (RPP), efflux proteins (EFP) and enzymatic inactivation proteins, three sulfonamide resistance genes (SRGs), and two integrase genes were detected along the waste treatment paths with detection frequencies of 33.3-75.0%. The relative abundances of target ARGs ranged from 2.74 × 10 -6 to 1.19. The antibiotics and ARGs generally declined along both waste treatment paths, but their degree of reduction was more significant along the manure treatment path. The RPP TRGs dominated in the upstream samples and then decreased continuously along both waste treatment paths, whilst the EFP TRGs and SRGs maintained relatively stable. Strong correlations between antibiotic concentrations and ARGs were observed among both manure and wastewater samples. In addition, seasonal temperature, and integrase genes, moisture content and nutrient level of tested samples could all impact the relative abundances of ARGs along the swine waste treatment paths. This study helps understand the evolution and spread of ARGs from swine feedlots to the environment as well as assess the environmental risk arising from swine waste treatment.

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“…Several studies have measured a resistance to SMX in bacteria isolated from biological WW treatment (Costanzo et al 2005;Reinthaler et al 2003), which has raised concerns regarding the prevalence of SMX in WWs leading to the development of bacterial resistance in the aquatic environment. These concerns have been validated recently by the detection of sulfonamide resistance genes in river water (which was correlated to the total SMX concentration among other sulfonamides) (Luo et al 2010) and the prevalence of SMX-resistant bacteria in aquaculture environments (Gao et al 2012b). …”

Section: Smx Usage and Presence In The Environmentmentioning

confidence: 99%

Biodegradation of sulfamethoxazole: current knowledge and perspectives

Larcher

Yargeau

2012

Appl Microbiol Biotechnol

121

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Antibiotic compounds, like sulfamethoxazole (SMX), have become a concern in the aquatic environment due to the potential development of antibacterial resistances. Due to extensive consumption, excretion and disposal, SMX has been frequently detected in wastewaters and surface waters. This has led to numerous studies investigating the nature of SMX, with many researchers focusing on the biodegradation and persistence of SMX during wastewater treatment and in the environment. This review provides a summary of recent developments, outlines the discrepancies in observations and results, and demonstrates the need for further research to determine optimal biological removal strategies for SMX and other antibiotics.

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Trends in Antibiotic Resistance Genes Occurrence in the Haihe River, China

Cited by 707 publications

References 44 publications

Antibiotic resistance genes in an urban river as impacted by bacterial community and physicochemical parameters

Antibiotic resistance genes in an urban river as impacted by bacterial community and physicochemical parameters

Dissemination of veterinary antibiotics and corresponding resistance genes from a concentrated swine feedlot along the waste treatment paths

Biodegradation of sulfamethoxazole: current knowledge and perspectives

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