Microbial Communities on Plastic Polymers in the Mediterranean Sea

Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different polymer types. In this study, we analyzed microbial communities forming biofilms on floating microplastics in a bay of the island of Elba in...

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Veröffentlicht in:Frontiers in microbiology Jg. 12; S. 673553
Hauptverfasser: Vaksmaa, Annika, Knittel, Katrin, Abdala Asbun, Alejandro, Goudriaan, Maaike, Ellrott, Andreas, Witte, Harry J., Vollmer, Ina, Meirer, Florian, Lott, Christian, Weber, Miriam, Engelmann, Julia C., Niemann, Helge
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Frontiers Media S.A 16.06.2021
Schlagworte:
biofilms
hydrocarbon degrading bacteria
marine plastic debris
microbial community
Microbiology
plastic polymer
ISSN:1664-302X, 1664-302X
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Abstract Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different polymer types. In this study, we analyzed microbial communities forming biofilms on floating microplastics in a bay of the island of Elba in the Mediterranean Sea. Raman spectroscopy revealed that the plastic particles mainly comprised polyethylene (PE), polypropylene (PP), and polystyrene (PS) of which polyethylene and polypropylene particles were typically brittle and featured cracks. Fluorescence in situ hybridization and imaging by high-resolution microscopy revealed dense microbial biofilms on the polymer surfaces. Amplicon sequencing of the 16S rRNA gene showed that the bacterial communities on all plastic types consisted mainly of the orders Flavobacteriales, Rhodobacterales, Cytophagales, Rickettsiales, Alteromonadales, Chitinophagales, and Oceanospirillales. We found significant differences in the biofilm community composition on PE compared with PP and PS (on OTU and order level), which shows that different microbial communities colonize specific polymer types. Furthermore, the sequencing data also revealed a higher relative abundance of archaeal sequences on PS in comparison with PE or PP. We furthermore found a high occurrence, up to 17% of all sequences, of different hydrocarbon-degrading bacteria on all investigated plastic types. However, their functioning in the plastic-associated biofilm and potential role in plastic degradation needs further assessment.
AbstractList Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different polymer types. In this study, we analyzed microbial communities forming biofilms on floating microplastics in a bay of the island of Elba in the Mediterranean Sea. Raman spectroscopy revealed that the plastic particles mainly comprised polyethylene (PE), polypropylene (PP), and polystyrene (PS) of which polyethylene and polypropylene particles were typically brittle and featured cracks. Fluorescence in situ hybridization and imaging by high-resolution microscopy revealed dense microbial biofilms on the polymer surfaces. Amplicon sequencing of the 16S rRNA gene showed that the bacterial communities on all plastic types consisted mainly of the orders Flavobacteriales, Rhodobacterales, Cytophagales, Rickettsiales, Alteromonadales, Chitinophagales, and Oceanospirillales. We found significant differences in the biofilm community composition on PE compared with PP and PS (on OTU and order level), which shows that different microbial communities colonize specific polymer types. Furthermore, the sequencing data also revealed a higher relative abundance of archaeal sequences on PS in comparison with PE or PP. We furthermore found a high occurrence, up to 17% of all sequences, of different hydrocarbon-degrading bacteria on all investigated plastic types. However, their functioning in the plastic-associated biofilm and potential role in plastic degradation needs further assessment.
Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different polymer types. In this study, we analyzed microbial communities forming biofilms on floating microplastics in a bay of the island of Elba in the Mediterranean Sea. Raman spectroscopy revealed that the plastic particles mainly comprised polyethylene (PE), polypropylene (PP), and polystyrene (PS) of which polyethylene and polypropylene particles were typically brittle and featured cracks. Fluorescence in situ hybridization and imaging by high-resolution microscopy revealed dense microbial biofilms on the polymer surfaces. Amplicon sequencing of the 16S rRNA gene showed that the bacterial communities on all plastic types consisted mainly of the orders Flavobacteriales, Rhodobacterales, Cytophagales, Rickettsiales, Alteromonadales, Chitinophagales, and Oceanospirillales. We found significant differences in the biofilm community composition on PE compared with PP and PS (on OTU and order level), which shows that different microbial communities colonize specific polymer types. Furthermore, the sequencing data also revealed a higher relative abundance of archaeal sequences on PS in comparison with PE or PP. We furthermore found a high occurrence, up to 17% of all sequences, of different hydrocarbon-degrading bacteria on all investigated plastic types. However, their functioning in the plastic-associated biofilm and potential role in plastic degradation needs further assessment.
Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different polymer types. In this study, we analyzed microbial communities forming biofilms on floating microplastics in a bay of the island of Elba in the Mediterranean Sea. Raman spectroscopy revealed that the plastic particles mainly comprised polyethylene (PE), polypropylene (PP), and polystyrene (PS) of which polyethylene and polypropylene particles were typically brittle and featured cracks. Fluorescence in situ hybridization and imaging by high-resolution microscopy revealed dense microbial biofilms on the polymer surfaces. Amplicon sequencing of the 16S rRNA gene showed that the bacterial communities on all plastic types consisted mainly of the orders Flavobacteriales, Rhodobacterales, Cytophagales, Rickettsiales, Alteromonadales, Chitinophagales, and Oceanospirillales. We found significant differences in the biofilm community composition on PE compared with PP and PS (on OTU and order level), which shows that different microbial communities colonize specific polymer types. Furthermore, the sequencing data also revealed a higher relative abundance of archaeal sequences on PS in comparison with PE or PP. We furthermore found a high occurrence, up to 17% of all sequences, of different hydrocarbon-degrading bacteria on all investigated plastic types. However, their functioning in the plastic-associated biofilm and potential role in plastic degradation needs further assessment.Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different polymer types. In this study, we analyzed microbial communities forming biofilms on floating microplastics in a bay of the island of Elba in the Mediterranean Sea. Raman spectroscopy revealed that the plastic particles mainly comprised polyethylene (PE), polypropylene (PP), and polystyrene (PS) of which polyethylene and polypropylene particles were typically brittle and featured cracks. Fluorescence in situ hybridization and imaging by high-resolution microscopy revealed dense microbial biofilms on the polymer surfaces. Amplicon sequencing of the 16S rRNA gene showed that the bacterial communities on all plastic types consisted mainly of the orders Flavobacteriales, Rhodobacterales, Cytophagales, Rickettsiales, Alteromonadales, Chitinophagales, and Oceanospirillales. We found significant differences in the biofilm community composition on PE compared with PP and PS (on OTU and order level), which shows that different microbial communities colonize specific polymer types. Furthermore, the sequencing data also revealed a higher relative abundance of archaeal sequences on PS in comparison with PE or PP. We furthermore found a high occurrence, up to 17% of all sequences, of different hydrocarbon-degrading bacteria on all investigated plastic types. However, their functioning in the plastic-associated biofilm and potential role in plastic degradation needs further assessment.
Author Abdala Asbun, Alejandro
Engelmann, Julia C.
Knittel, Katrin
Vaksmaa, Annika
Ellrott, Andreas
Lott, Christian
Goudriaan, Maaike
Meirer, Florian
Vollmer, Ina
Niemann, Helge
Witte, Harry J.
Weber, Miriam
AuthorAffiliation 4 HYDRA Marine Sciences GmbH , Bühl , Germany
3 Inorganic Chemistry and Catalysis, Debye Institute for Nanomaterials Science, Utrecht University , Utrecht , Netherlands
5 Department of Earth Sciences, Utrecht University , Utrecht , Netherlands
1 Department of Marine Microbiology and Biogeochemistry, NIOZ Royal Netherlands Institute for Sea Research , Texel , Netherlands
2 Department of Molecular Ecology, Max Planck Institute for Marine Microbiology , Bremen , Germany
AuthorAffiliation_xml – name: 4 HYDRA Marine Sciences GmbH , Bühl , Germany
– name: 5 Department of Earth Sciences, Utrecht University , Utrecht , Netherlands
– name: 1 Department of Marine Microbiology and Biogeochemistry, NIOZ Royal Netherlands Institute for Sea Research , Texel , Netherlands
– name: 2 Department of Molecular Ecology, Max Planck Institute for Marine Microbiology , Bremen , Germany
– name: 3 Inorganic Chemistry and Catalysis, Debye Institute for Nanomaterials Science, Utrecht University , Utrecht , Netherlands
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  surname: Vaksmaa
  fullname: Vaksmaa, Annika
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  surname: Abdala Asbun
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  surname: Niemann
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ContentType Journal Article
Copyright Copyright © 2021 Vaksmaa, Knittel, Abdala Asbun, Goudriaan, Ellrott, Witte, Vollmer, Meirer, Lott, Weber, Engelmann and Niemann.
Copyright © 2021 Vaksmaa, Knittel, Abdala Asbun, Goudriaan, Ellrott, Witte, Vollmer, Meirer, Lott, Weber, Engelmann and Niemann. 2021 Vaksmaa, Knittel, Abdala Asbun, Goudriaan, Ellrott, Witte, Vollmer, Meirer, Lott, Weber, Engelmann and Niemann
Copyright_xml – notice: Copyright © 2021 Vaksmaa, Knittel, Abdala Asbun, Goudriaan, Ellrott, Witte, Vollmer, Meirer, Lott, Weber, Engelmann and Niemann.
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Reviewed by: Stephen Summers, Nanyang Technological University, Singapore; Inga Vanessa Kirstein, Aalborg University, Denmark
Edited by: Tony Gutierrez, Heriot-Watt University, United Kingdom
This article was submitted to Aquatic Microbiology, a section of the journal Frontiers in Microbiology
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Snippet Plastic particles in the ocean are typically covered with microbial biofilms, but it remains unclear whether distinct microbial communities colonize different...
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SubjectTerms biofilms
hydrocarbon degrading bacteria
marine plastic debris
microbial community
Microbiology
plastic polymer
Title Microbial Communities on Plastic Polymers in the Mediterranean Sea
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https://pubmed.ncbi.nlm.nih.gov/PMC8243005
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