Fragmentation and Mineralization of a Compostable Aromatic–Aliphatic Polyester during Industrial Composting

Compostable plastics support the separate collection of organic waste. However, there are concerns that the fragments generated during disintegration might not fully biodegrade and leave persistent microplastic in compost. We spiked particles of an aromatic–aliphatic polyester containing polylactide...

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Published in:	Environmental science & technology letters Vol. 10; no. 8; pp. 698 - 704
Main Authors:	Wohlleben, Wendel, Rückel, Markus, Meyer, Lars, Pfohl, Patrizia, Battagliarin, Glauco, Hüffer, Thorsten, Zumstein, Michael, Hofmann, Thilo
Format:	Journal Article
Language:	English
Published:	American Chemical Society 08-08-2023
Subjects:	Occurrence, Fate, and Transport of Aquatic and Terrestrial Contaminants Biodegradation Persistence Composting Microplastics Fragmentation
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Abstract	Compostable plastics support the separate collection of organic waste. However, there are concerns that the fragments generated during disintegration might not fully biodegrade and leave persistent microplastic in compost. We spiked particles of an aromatic–aliphatic polyester containing polylactide into compost and then tracked disintegration under industrial composting conditions. We compared the yields against polyethylene. The validity of the extraction protocol and complementary microscopic methods (μ-Raman and fluorescence) was assessed by blank controls, spike controls, and prelabeled plastics. Fragments of 25–75 μm size represented the most pronounced peak of interim fragmentation, which was reached already after 1 week of industrial composting. Larger sizes peaked earlier, while smaller sizes peaked later and remained less frequent. For particles of all sizes, count and mass decreased to blank level when 90% of the polymer carbon were transformed into CO2. Gel permeation chromatography (GPC) analysis suggested depolymerization as the main driving force for disintegration. A transient shift of the particle composition to a lower percentage of polylactide was observed. Plastic fragmentation during biodegradation is the expected route for decomposing, but no accumulation of particulate fragments of any size was observed.
AbstractList	Compostable plastics support the separate collection of organic waste. However, there are concerns that the fragments generated during disintegration might not fully biodegrade and leave persistent microplastic in compost. We spiked particles of an aromatic–aliphatic polyester containing polylactide into compost and then tracked disintegration under industrial composting conditions. We compared the yields against polyethylene. The validity of the extraction protocol and complementary microscopic methods (μ-Raman and fluorescence) was assessed by blank controls, spike controls, and prelabeled plastics. Fragments of 25–75 μm size represented the most pronounced peak of interim fragmentation, which was reached already after 1 week of industrial composting. Larger sizes peaked earlier, while smaller sizes peaked later and remained less frequent. For particles of all sizes, count and mass decreased to blank level when 90% of the polymer carbon were transformed into CO2. Gel permeation chromatography (GPC) analysis suggested depolymerization as the main driving force for disintegration. A transient shift of the particle composition to a lower percentage of polylactide was observed. Plastic fragmentation during biodegradation is the expected route for decomposing, but no accumulation of particulate fragments of any size was observed.
Author	Hofmann, Thilo Zumstein, Michael Hüffer, Thorsten Wohlleben, Wendel Battagliarin, Glauco Rückel, Markus Meyer, Lars Pfohl, Patrizia
AuthorAffiliation	Doctoral School in Microbiology and Environmental Science Centre for Microbiology and Environmental Systems Science
AuthorAffiliation_xml	– name: Centre for Microbiology and Environmental Systems Science – name: Doctoral School in Microbiology and Environmental Science
Author_xml	– sequence: 1 givenname: Wendel orcidid: 0000-0003-2094-3260 surname: Wohlleben fullname: Wohlleben, Wendel email: wendel.wohlleben@basf.com – sequence: 2 givenname: Markus surname: Rückel fullname: Rückel, Markus – sequence: 3 givenname: Lars surname: Meyer fullname: Meyer, Lars – sequence: 4 givenname: Patrizia orcidid: 0000-0002-1580-8833 surname: Pfohl fullname: Pfohl, Patrizia organization: Doctoral School in Microbiology and Environmental Science – sequence: 5 givenname: Glauco surname: Battagliarin fullname: Battagliarin, Glauco – sequence: 6 givenname: Thorsten orcidid: 0000-0002-5639-8789 surname: Hüffer fullname: Hüffer, Thorsten organization: Centre for Microbiology and Environmental Systems Science – sequence: 7 givenname: Michael orcidid: 0000-0002-1099-5174 surname: Zumstein fullname: Zumstein, Michael organization: Centre for Microbiology and Environmental Systems Science – sequence: 8 givenname: Thilo orcidid: 0000-0001-8929-6933 surname: Hofmann fullname: Hofmann, Thilo organization: Centre for Microbiology and Environmental Systems Science
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Title	Fragmentation and Mineralization of a Compostable Aromatic–Aliphatic Polyester during Industrial Composting
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