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61,005 resultsShowing papers similar to An In Situ Study to Understand Community Structure of Estuarine Microbes on the Plastisphere
ClearPlastisphere assemblages differ from the surrounding bacterial communities in transitional coastal environments
Researchers found that bacterial communities colonizing plastic particles (the plastisphere) in Portuguese estuarine and beach environments were significantly different from those in surrounding water and sediments, with plastic type and environmental conditions influencing microbial community composition.
Colonization Characteristics of Bacterial Communities on Plastic Debris Influenced by Environmental Factors and Polymer Types in the Haihe Estuary of Bohai Bay, China
Bacterial communities colonizing plastic debris in the Haihe Estuary of Bohai Bay, China, were shaped by both environmental factors (season, salinity, temperature) and the type of plastic polymer, with distinct microbial assemblages forming on different plastic surfaces. The results demonstrate that the "plastisphere" in estuarine environments is a dynamically structured microbial habitat.
Short‐term plastisphere colonization dynamics across six plastic types
Researchers studied the short-term colonization dynamics of microbial communities (plastisphere) forming on six plastic polymer types submerged in marine waters in South Australia, finding polymer-type-specific differences in prokaryotic community composition over four weeks.
The structure and assembly mechanisms of plastisphere microbial community in natural marine environment
Researchers investigated how microbial communities colonize different types of microplastic surfaces in natural marine environments over an eight-week period. They found that the composition of these plastic-associated microbial communities, known as the plastisphere, was shaped more by environmental conditions and time than by the specific type of plastic. The study provides new understanding of the ecological processes governing how microorganisms assemble on ocean plastic debris.
Diversity and succession of microbial communities on typical microplastics in Xincun Bay, a long-term mariculture tropical lagoon
Researchers tracked microbial community succession on polyethylene, polystyrene, and polypropylene microplastics over 60 days in a tropical mariculture lagoon, finding that plastisphere bacterial diversity exceeded that of surrounding seawater and that community structure shifted significantly over time.
Analysis of 16S rRNA amplicon data illuminates the major role of environment in determining the marine plastisphere microbial communities
Researchers analysed 16S rRNA amplicon data from marine plastisphere communities, finding that environmental factors play the dominant role in determining the microbial communities that colonise microplastic surfaces in marine ecosystems.
Plastisphere on microplastics: In situ assays in an estuarine environment
This study examined how microbial biofilm communities (the plastisphere) form on polystyrene and nylon microplastics placed in a polluted estuary over 129 days. Researchers found that the plastisphere influenced metal accumulation and weathering of the microplastic surfaces, with different plastic types supporting distinct microbial communities.
Evidence for selective bacterial community structuring on microplastics
Plastic substrates incubated in Baltic Sea water developed distinct bacterial communities that differed significantly from those on glass surfaces and from the surrounding water, with some plastic-colonizing taxa selected for regardless of polymer type. The study provides experimental evidence that plastic surfaces act as selective filters for microbial community assembly, contributing to the concept of a unique plastisphere.
Microplastic polymer properties as deterministic factors driving terrestrial plastisphere microbiome assembly and succession in the field
Researchers incubated five common microplastic polymer types in landfill soil for 14 months and used 16S rRNA sequencing to characterize the plastisphere communities that assembled on each polymer. Polymer type was a significant deterministic factor in plastisphere microbiome composition, which differed from surrounding soil communities and varied over time.
Microbial Communities on Plastic Polymers in the Mediterranean Sea
Researchers collected floating microplastics from a bay in the Mediterranean and analyzed their bacterial biofilm communities using 16S rRNA sequencing, finding that microbial communities on plastics were distinct from surrounding seawater and differed between polymer types.
Differentiation of bacterial communities on five common plastics after six days of exposure to Caribbean coastal waters
Researchers found that within just six days of entering Caribbean coastal waters, different plastic polymers — including polystyrene, polyethylene, and nylon — develop distinct microbial communities on their surfaces, with plastic-degrading bacteria rapidly increasing in abundance. This "plastisphere" research shows that the type of plastic influences which microbes colonize it, which could affect both plastic breakdown rates and the spread of microbes in ocean environments.
Relative Influence of Plastic Debris Size and Shape, Chemical Composition and Phytoplankton-Bacteria Interactions in Driving Seawater Plastisphere Abundance, Diversity and Activity
This study evaluated the relative influence of plastic debris size, shape, chemical composition, and environmental conditions on the microbial communities colonizing ocean plastics (the plastisphere). Results showed that multiple plastic properties and environmental factors jointly shape which microorganisms colonize plastic surfaces in the marine environment.
Formation of specific bacterial assemblages on sterile polyethylene microplastic particles added to a marine aquaria system
Researchers characterized bacterial assemblages that formed on sterile polyethylene microplastic particles after 12 weeks of incubation in marine aquaria, comparing the plastisphere communities to those on sterile sandy sediment and in water fractions to determine whether microplastics select for distinct or potentially pathogenic bacterial communities. The study found that microplastics hosted specific bacterial assemblages distinct from surrounding environmental fractions, confirming their role as selective surfaces for microbial colonization.
Substrate-driven microbial diversity and functional potential of plastisphere biofilms in a dynamic coastal ecosystem of northeastern Taiwan
Researchers used full-length 16S rRNA sequencing to compare microbial communities on floating microplastics, natural wood debris, and surface seawater from ten coastal sites in Taiwan, finding that microplastics harbor unique and highly diverse microbial assemblages distinct from those on natural surfaces.
16S rRNA gene sequence analysis of the microbial community on microplastic samples from the North Atlantic and Great Pacific Garbage Patches
Researchers compared microbial communities living on microplastics collected from the North Atlantic and Great Pacific Garbage Patches, finding distinct plastisphere communities shaped by ocean region and plastic type. Understanding which microbes thrive on ocean plastic helps assess the risk of harmful or antibiotic-resistant bacteria spreading on plastic debris.
Analysis of 16S rRNA amplicon data illuminates the major role of environment in determining the marine plastisphere microbial communities
By reanalyzing publicly available microbiome data from marine microplastics collected at multiple ocean locations, this study found that the surrounding water environment shapes the community of microbes living on plastic surfaces (the plastisphere) more strongly than the type of plastic polymer does. While both location and polymer type matter, once environmental differences were accounted for, polymer type alone had no statistically significant effect on microbial diversity. This is important because microplastics can carry and transport harmful microbes across vast ocean distances, and understanding what controls those communities helps assess the ecological risk.
Biodiversity of Microorganisms Colonizing the Surface of Polystyrene Samples Exposed to Different Aqueous Environments
Researchers examined which bacteria colonize polystyrene surfaces in seawater and industrial water, finding distinct microbial communities dominated by Alphaproteobacteria in seawater. Some of the colonizing bacteria have known plastic-degrading abilities, suggesting the plastisphere could be harnessed for bioremediation of plastic pollution.
Diversity and Activity of Communities Inhabiting Plastic Debris in the North Pacific Gyre
Researchers collected and characterized the microbial communities living on plastic debris from the North Pacific garbage patch in 2008, finding distinct communities of bacteria and metabolic functions on plastic compared to surrounding seawater. The study was among the first to comprehensively document the biological colonization of ocean plastic debris and the concept of a "plastisphere."
Plastisphere community assemblage of aquatic environment: plastic-microbe interaction, role in degradation and characterization technologies
This review examines the plastisphere—microbial communities colonizing plastic surfaces in aquatic environments—covering how these biofilms form, their role in plastic biodegradation, and current characterization technologies for studying plastic-microbe interactions.
Species- and site-specific circulating bacterial DNA in Subantarctic sentinel mussels Aulacomya atra and Mytilus platensis
Researchers characterized the plastisphere microbial community on polyethylene terephthalate microplastics collected from a subtropical estuary, finding distinct biofilm communities enriched in hydrocarbon-degrading bacteria and potential pathogens compared to surrounding water. Biofilm composition varied with seasonal temperature changes.
Spatial and seasonal variation in diversity and structure of microbial biofilms on marine plastics in Northern European waters
Researchers investigated how microbial biofilm communities on marine plastics vary by season, location, and plastic type in Northern European waters. The study found distinct spatial and seasonal patterns in plastisphere microbial communities on polyethylene terephthalate surfaces, providing insights into how plastic debris develops unique biological communities in marine environments.
From rivers to marine environments: A constantly evolving microbial community within the plastisphere
Researchers sampled 107 plastic pieces across four aquatic ecosystems in southern France and found that the sampling location and polymer chemistry were the strongest drivers of plastisphere microbial community composition, while only 11% of samples showed elevated Vibrio pathogen levels compared to surrounding water.
Lacustrine plastisphere: Distinct succession and assembly processes of prokaryotic and eukaryotic communities and role of site, time, and polymer types
Researchers investigated how microbial communities colonize different types of microplastic polymers in freshwater lakes. The study found that bacteria and single-celled organisms follow distinct assembly patterns on microplastic surfaces, with colonization time, location, and polymer type all influencing community composition. These findings suggest microplastics serve as carriers that can promote microbial spread in aquatic environments.
Bacterial Abundance, Diversity and Activity During Long-Term Colonization of Non-biodegradable and Biodegradable Plastics in Seawater
Biofilm communities on conventional (polyethylene and polystyrene) and biodegradable plastics were tracked over 7 months of seawater immersion, finding highly abundant and diverse plastisphere communities on all polymer types but limited evidence of active plastic biodegradation under natural marine conditions.