Abstract
Aquatic ecosystems serve as a dissemination pathway and a reservoir of both antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARG). In this study, we investigate the role of the bacterial sporobiota to act as a vector for ARG dispersal in aquatic ecosystems. The sporobiota was operationally defined as the resilient fraction of the bacterial community withstanding a harsh extraction treatment eliminating the easily lysed fraction of the total bacterial community. The sporobiota has been identified as a critical component of the human microbiome, and therefore potentially a key element in the dissemination of ARG in human-impacted environments. A region of Lake Geneva in which the accumulation of ARG in the sediments has been previously linked to the deposition of treated wastewater was selected to investigate the dissemination of tet(W) and sul1, two genes conferring resistance to tetracycline and sulfonamide, respectively. Analysis of the abundance of these ARG within the sporobiome (collection of genes of the sporobiota) and correlation with community composition and environmental parameters demonstrated that ARG can spread across the environment with the sporobiota being the dispersal vector. A highly abundant OTU affiliated with the genus Clostridium was identified as a potential specific vector for the dissemination of tet(W), due to a strong correlation with tet(W) frequency (ARG copy numbers/ng DNA). The high dispersal rate, long-term survival, and potential reactivation of the sporobiota constitute a serious concern in terms of dissemination and persistence of ARG in the environment.
Highlights
The prevalence and spread of antibiotic resistance is a pressing global public health issue (Marti, Variatza & Balcazar, 2014; Perry, Westman & Wright, 2014; O’Neill, 2015)
We have previously shown that the sporobiome of lake sediment preserves a historical record of resistance prevalence using as proxies for associated resistance genes (ARG) the tet (W) and sul1 genes (Madueño et al, 2018) and the same genes were selected for this study
To determine the prevalence of the two selected ARG in DNA extracted from the sporobiota and to describe their spatial distribution in sediments impacted by a wastewater treatment plants (WWTPs), ARG quantification was carried out for three zones located at 5-40 m 134-429 m and 611–956 m from the outlet pipe (Fig. 1)
Summary
The prevalence and spread of antibiotic resistance is a pressing global public health issue (Marti, Variatza & Balcazar, 2014; Perry, Westman & Wright, 2014; O’Neill, 2015). The sporobiota has been defined as a fraction of the microbial community that can exist in the form of highly transmissible spores, which are spread in the environment and are implicated in host-to-host transmission (Tetz & Tetz, 2017). This fraction of the community, which can be considered as part of the seed bank (Lennon & Jones, 2011; Shoemaker & Lennon, 2018), is prone to high dispersal rates due its non-active physiological state, bypassing limitations for local adaptation (Bartholomew & Paik, 1966; Hubert, 2009; Lennon & Jones, 2011). The operational definition used here consists of cellular structures withstanding a harsh extraction method designed originally to enrich in endospores from environmental samples (Wunderlin et al, 2014)
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