Publications by authors named "J A Christie-Oleza"
Lack of functional polyester-biodegrading potential in marine versus terrestrial environments evidenced by an innovative airbrushing technique.
J Hazard Mater
December 2024
Biodegradable plastics, primarily aliphatic polyesters, degrade to varying extents in different environments. However, the absence of easily implementable techniques for screening microbial biodegradation potential -coupled with the limitations of non-functional omics analyses- has restricted comparative studies across diverse polymer types and ecosystems. In this study, we optimized a novel airbrushing method that facilitates functional analyses by simplifying the preparation of polyester-coated plates for biodegradation screening.
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- Emerging research shows that micro- and macro-plastics in water can harbor diverse microbial communities, including harmful pathogens, raising concerns about beach water safety regulations.
- The review points out significant gaps in understanding how plastics and pathogens interact and calls for a shift in managing risks related to plastic pollution at public beaches.
- It proposes a decision-making framework to address plastic-associated pathogen risks, emphasizing a comprehensive approach to minimize human exposure, not just for water users but also for those near the water.
Succession is a fundamental aspect of ecological theory, but studies on temporal succession trajectories and ecological driving mechanisms of plastisphere microbial communities across diverse colonization environments remain scarce and poorly understood. To fill this knowledge gap, we assessed the primary colonizers, succession trajectories, assembly, and turnover mechanisms of plastisphere prokaryotes and eukaryotes from four freshwater lakes. Our results show that differences in microbial composition similarity, temporal turnover rate, and assembly processes in the plastisphere do not exclusively occur at the kingdom level (prokaryotes and eukaryotes), but also depend on environmental conditions and colonization time.
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- The study investigates the relationship between plastics pollution, biofilms on plastics, and antimicrobial resistance (AMR) in various marine environments.
- Experiments showed that microbial communities on different plastics changed significantly over a 16-week period, transitioning from wastewater microorganisms to marine species, with some populations becoming more abundant.
- Despite initial presence, AMR gene levels declined over time on the plastics, indicating that they did not become hotspots for AMR growth in marine conditions.
Plastics are versatile materials that have the potential to propel humanity towards circularity and ultimate societal sustainability. However, the escalating concern surrounding plastic pollution has garnered significant attention, leading to widespread negative perceptions of these materials. Here, we question the role microbes may play in plastic pollution bioremediation by (i) defining polymer biodegradability (i.
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