Abstract
Climate change is expected to create environmental disruptions that will impact a wide array of biota. Projections for freshwater ecosystems include severe alterations with gradients across geographical areas. Life traits in bacteria are modulated by environmental parameters, but there is still uncertainty regarding bacterial responses to changes caused by climatic alterations. In this study, we used a river water microcosm model to evaluate how Aeromonas spp., an important pathogenic and zoonotic genus ubiquitary in aquatic ecosystems, responds to environmental variations of temperature and pH as expected by future projections. Namely, we evaluated bacterial growth, biofilm production and antimicrobial resistance profiles of Aeromonas species in pure and mixed cultures. Biofilm production was significantly influenced by temperature and culture, while temperature and pH affected bacterial growth. Reversion of antimicrobial susceptibility status occurred in the majority of strains and tested antimicrobial compounds, with several combinations of temperature and pH contributing to this effect. Current results highlight the consequences that bacterial genus such as Aeromonas will experience with climatic alterations, specifically how their proliferation and virulence and phenotypic resistance expression will be modulated. Such information is fundamental to predict and prevent future outbreaks and deleterious effects that these bacterial species might have in human and animal populations.
Highlights
Environmental conditions are a major driver of bacterial activity and can shape the expression of several metabolic pathways [1,2]
When evaluating the influence of each individual Aeromonas species present in mixed cultures on the biofilm production, it was observed that no species had a significantly different influence
We show that different Aeromonas species adapt their growth, biofilm production and antimicrobial resistance signatures to environmental projections related to climatic alterations in water, highlighting the role that future climatic events will have in shaping bacterial activity, as well as virulence and resistance expression
Summary
Environmental conditions are a major driver of bacterial activity and can shape the expression of several metabolic pathways [1,2] Such parameters have the potential to influence bacterial virulence (e.g., biofilm formation) and antibiotic resistance signatures [3,4]. Reduced dilution of freshwater streams will affect ion balance levels [10,11] These biotic changes will impact ecosystem dynamics and promote disruptions in species equilibrium [9,12]. All of these events are expected to significantly decrease freshwater’s quality [13]. These changes compromise future water availability, freshwater ecosystems’ structure and populations’ sustainability [14,15,16]
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