Institute of Animal Sciences, University of Bonn, Bonn, Germany
Institute for Medical Microbiology, Immunology and Parasitology, University Hospital Bonn, Bonn, Germany.
Appl Environ Microbiol. 2020 Apr 1;86(8). doi: 10.1128/AEM.02748-19.
The wastewater of livestock slaughterhouses is considered a source of antimicrobial-resistant bacteria with clinical relevance and may thus be important for their dissemination into the environment. To get an overview of their occurrence and characteristics, we investigated process water ( = 50) from delivery and unclean areas as well as wastewater ( = 32) from the in-house wastewater treatment plants (WWTPs) of two German poultry slaughterhouses (slaughterhouses S1 and S2). The samples were screened for ESKAPE bacteria ( spp., , , , , spp.) and Their antimicrobial resistance phenotypes and the presence of extended-spectrum-β-lactamase (ESBL), carbapenemase, and mobilizable colistin resistance genes were determined. Selected ESKAPE bacteria were epidemiologically classified using different molecular typing techniques. At least one of the target species was detected in 87.5% ( = 28/32) of the wastewater samples and 86.0% ( = 43/50) of the process water samples. The vast majority of the recovered isolates (94.9%, = 448/472) was represented by (39.4%), the (ACB) complex (32.4%), (12.3%), and (10.8%), which were widely distributed in the delivery and unclean areas of the individual slaughterhouses, including their wastewater effluents. spp., spp., and were less abundant and made up 5.1% of the isolates. Phenotypic and genotypic analyses revealed that the recovered isolates exhibited diverse resistance phenotypes and β-lactamase genes. In conclusion, wastewater effluents from the investigated poultry slaughterhouses exhibited clinically relevant bacteria (, methicillin-resistant , , and species of the ACB and complexes) that contribute to the dissemination of clinically relevant resistances (i.e., or and ) in the environment. Bacteria from livestock may be opportunistic pathogens and carriers of clinically relevant resistance genes, as many antimicrobials are used in both veterinary and human medicine. They may be released into the environment from wastewater treatment plants (WWTPs), which are influenced by wastewater from slaughterhouses, thereby endangering public health. Moreover, process water that accumulates during the slaughtering of poultry is an important reservoir for livestock-associated multidrug-resistant bacteria and may serve as a vector of transmission to occupationally exposed slaughterhouse employees. Mitigation solutions aimed at the reduction of the bacterial discharge into the production water circuit as well as interventions against their further transmission and dissemination need to be elaborated. Furthermore, the efficacy of in-house WWTPs needs to be questioned. Reliable data on the occurrence and diversity of clinically relevant bacteria within the slaughtering production chain and in the WWTP effluents in Germany will help to assess their impact on public and environmental health.
牲畜屠宰场的废水被认为是具有临床相关性的抗微生物药物耐药细菌的来源,因此可能对其在环境中的传播很重要。为了全面了解其发生和特征,我们调查了来自德国两家家禽屠宰场(屠宰场 S1 和 S2)内部废水处理厂(WWTP)的输送区和不洁区的工艺水(=50)以及废水(=32)。对这些样品进行了筛查,以检测 ESKAPE 细菌( spp.、 、 、 、 spp.)以及它们的抗微生物药物耐药表型,并确定了扩展谱β-内酰胺酶(ESBL)、碳青霉烯酶和可移动多粘菌素耐药基因的存在。使用不同的分子分型技术对选定的 ESKAPE 细菌进行了流行病学分类。在 32 份废水样品和 50 份工艺水样品中,至少有一种目标物种被检出,检出率分别为 87.5%(=28/32)和 86.0%(=43/50)。绝大多数回收的分离株(94.9%,=448/472)是 (39.4%)、ACB 复合体(32.4%)、 (12.3%)和 (10.8%),它们广泛分布于各个屠宰场的输送区和不洁区,包括其废水。 spp.、 spp.和 相对较少,占分离株的 5.1%。表型和基因型分析表明,回收的分离株表现出不同的耐药表型和β-内酰胺酶基因。总之,来自调查的家禽屠宰场的废水排放中含有临床相关细菌( 、耐甲氧西林 、 、ACB 和 复合体的物种),这些细菌有助于在环境中传播临床相关的耐药性(即 或 和 )。来自牲畜的细菌可能是机会性病原体和临床相关耐药基因的携带者,因为兽医和人类医学中都使用了许多抗生素。它们可能会从废水处理厂(WWTP)释放到环境中,而 WWTP 会受到来自屠宰场的废水的影响,从而危害公众健康。此外,在屠宰家禽过程中积累的工艺水是与牲畜相关的多药耐药细菌的重要储库,并且可能成为职业暴露于屠宰场员工的传播媒介。需要制定旨在减少细菌排入生产用水回路的减少措施,以及针对其进一步传播和传播的干预措施。此外,还需要质疑内部 WWTP 的功效。有关屠宰生产链中临床相关细菌的发生和多样性以及德国 WWTP 废水排放的可靠数据,将有助于评估其对公共和环境卫生的影响。
