Dissolved organic matter derived from biodegradable microplastic promotes photo-aging of coexisting microplastics and alters microbial metabolism

Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely investigated. In this study, the main component of DOM leachate from the two BMPs (polyadipate/butylene terephthalate (PBAT)/polycaprolactone...

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Published inJournal of hazardous materials Vol. 445; p. 130564
Main Authors Ouyang, Zhuozhi, Li, Shuxing, Xue, Jincheng, Liao, Jinmo, Xiao, Chuanqi, Zhang, Hong, Li, Xiaohan, Liu, Peng, Hu, Shiwen, Guo, Xuetao, Zhu, Lingyan
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 05.03.2023
Subjects
Biodegradable and non-biodegradable MPs
Dissolved Organic Matter
Environmental risks
Factor Analysis, Statistical
Humic Substances
Microbial metabolism
Microplastics
Photo-aging process
Plastics
Skin Aging
Spectrometry, Fluorescence
Photo-aging process
Dissolved organic matter
Biodegradable and non-biodegradable MPs
Microbial metabolism
Environmental risks
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Abstract Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely investigated. In this study, the main component of DOM leachate from the two BMPs (polyadipate/butylene terephthalate (PBAT)/polycaprolactone (PCL)) was verified by using excitation-emission matrix-parallel factor analysis (EEM-PARAFAC). The PBAT-DOM (PBOM) was aromatized and terrestrial. Comparatively, PCL-DOM (PLOM) had low molecular weight. PBOM contained protein-like components while PLOM contained tryptophan and tyrosine components. Interestingly, both PBOM and PLOM could accelerate the decomposition and oxidation of coexisting polystyrene (PS) under light irradiation. Further, the difference in composition and the properties of BMPs-DOM significantly affected its photochemical activity. The high territoriality and protein-like component of PBOM significantly promoted the generation of 1O2 and O2•-, which caused faster disruptions to the backbone of PS. Simultaneously, the microbial community's richness, diversity, and metabolism were obviously improved under the combined pressure of aged PS and BMPs-DOM. This study threw light on the overlooked contribution of DOM derived from BMPs in the aging process of NMPs and their impact on the microbial community and provided a promising strategy for better understanding of combined MPs' fate and environmental risk. [Display omitted] •The components of DOM leaching from BMPs were identified.•The photo-aging process of PS induced by BMPs-DOM was quantitatively investigated.•The presence of BMPs-DOM accelerated the decomposition and oxidation of PS.•The properties and components of BMPs-DOM affected the production of ROS.•The microbial metabolism was altered under the pressure of BMPs-DOM and aged PS.
AbstractList Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely investigated. In this study, the main component of DOM leachate from the two BMPs (polyadipate/butylene terephthalate (PBAT)/polycaprolactone (PCL)) was verified by using excitation-emission matrix-parallel factor analysis (EEM-PARAFAC). The PBAT-DOM (PBOM) was aromatized and terrestrial. Comparatively, PCL-DOM (PLOM) had low molecular weight. PBOM contained protein-like components while PLOM contained tryptophan and tyrosine components. Interestingly, both PBOM and PLOM could accelerate the decomposition and oxidation of coexisting polystyrene (PS) under light irradiation. Further, the difference in composition and the properties of BMPs-DOM significantly affected its photochemical activity. The high territoriality and protein-like component of PBOM significantly promoted the generation of 1O2 and O2•-, which caused faster disruptions to the backbone of PS. Simultaneously, the microbial community's richness, diversity, and metabolism were obviously improved under the combined pressure of aged PS and BMPs-DOM. This study threw light on the overlooked contribution of DOM derived from BMPs in the aging process of NMPs and their impact on the microbial community and provided a promising strategy for better understanding of combined MPs' fate and environmental risk. [Display omitted] •The components of DOM leaching from BMPs were identified.•The photo-aging process of PS induced by BMPs-DOM was quantitatively investigated.•The presence of BMPs-DOM accelerated the decomposition and oxidation of PS.•The properties and components of BMPs-DOM affected the production of ROS.•The microbial metabolism was altered under the pressure of BMPs-DOM and aged PS.
Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely investigated. In this study, the main component of DOM leachate from the two BMPs (polyadipate/butylene terephthalate (PBAT)/polycaprolactone (PCL)) was verified by using excitation-emission matrix-parallel factor analysis (EEM-PARAFAC). The PBAT-DOM (PBOM) was aromatized and terrestrial. Comparatively, PCL-DOM (PLOM) had low molecular weight. PBOM contained protein-like components while PLOM contained tryptophan and tyrosine components. Interestingly, both PBOM and PLOM could accelerate the decomposition and oxidation of coexisting polystyrene (PS) under light irradiation. Further, the difference in composition and the properties of BMPs-DOM significantly affected its photochemical activity. The high territoriality and protein-like component of PBOM significantly promoted the generation of O and O , which caused faster disruptions to the backbone of PS. Simultaneously, the microbial community's richness, diversity, and metabolism were obviously improved under the combined pressure of aged PS and BMPs-DOM. This study threw light on the overlooked contribution of DOM derived from BMPs in the aging process of NMPs and their impact on the microbial community and provided a promising strategy for better understanding of combined MPs' fate and environmental risk.
Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely investigated. In this study, the main component of DOM leachate from the two BMPs (polyadipate/butylene terephthalate (PBAT)/polycaprolactone (PCL)) was verified by using excitation-emission matrix-parallel factor analysis (EEM-PARAFAC). The PBAT-DOM (PBOM) was aromatized and terrestrial. Comparatively, PCL-DOM (PLOM) had low molecular weight. PBOM contained protein-like components while PLOM contained tryptophan and tyrosine components. Interestingly, both PBOM and PLOM could accelerate the decomposition and oxidation of coexisting polystyrene (PS) under light irradiation. Further, the difference in composition and the properties of BMPs-DOM significantly affected its photochemical activity. The high territoriality and protein-like component of PBOM significantly promoted the generation of 1O2 and O2•-, which caused faster disruptions to the backbone of PS. Simultaneously, the microbial community's richness, diversity, and metabolism were obviously improved under the combined pressure of aged PS and BMPs-DOM. This study threw light on the overlooked contribution of DOM derived from BMPs in the aging process of NMPs and their impact on the microbial community and provided a promising strategy for better understanding of combined MPs' fate and environmental risk.Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely investigated. In this study, the main component of DOM leachate from the two BMPs (polyadipate/butylene terephthalate (PBAT)/polycaprolactone (PCL)) was verified by using excitation-emission matrix-parallel factor analysis (EEM-PARAFAC). The PBAT-DOM (PBOM) was aromatized and terrestrial. Comparatively, PCL-DOM (PLOM) had low molecular weight. PBOM contained protein-like components while PLOM contained tryptophan and tyrosine components. Interestingly, both PBOM and PLOM could accelerate the decomposition and oxidation of coexisting polystyrene (PS) under light irradiation. Further, the difference in composition and the properties of BMPs-DOM significantly affected its photochemical activity. The high territoriality and protein-like component of PBOM significantly promoted the generation of 1O2 and O2•-, which caused faster disruptions to the backbone of PS. Simultaneously, the microbial community's richness, diversity, and metabolism were obviously improved under the combined pressure of aged PS and BMPs-DOM. This study threw light on the overlooked contribution of DOM derived from BMPs in the aging process of NMPs and their impact on the microbial community and provided a promising strategy for better understanding of combined MPs' fate and environmental risk.
ArticleNumber 130564
Author Ouyang, Zhuozhi
Liao, Jinmo
Xiao, Chuanqi
Xue, Jincheng
Zhang, Hong
Liu, Peng
Li, Shuxing
Hu, Shiwen
Li, Xiaohan
Zhu, Lingyan
Guo, Xuetao
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  fullname: Li, Shuxing
  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China
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  fullname: Xue, Jincheng
  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China
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  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China
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  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China
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  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China
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  fullname: Liu, Peng
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  surname: Hu
  fullname: Hu, Shiwen
  email: husw@sustech.edu.cn
  organization: State Environmental Protection Key Laboratory of Integrated Surface Water-Groundwater Pollution Control, School of the Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen 518055, China
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  givenname: Lingyan
  surname: Zhu
  fullname: Zhu, Lingyan
  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China
BackLink https://www.ncbi.nlm.nih.gov/pubmed/37055972$$D View this record in MEDLINE/PubMed
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Keywords Photo-aging process
Dissolved organic matter
Biodegradable and non-biodegradable MPs
Microbial metabolism
Environmental risks
Language English
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Snippet Dissolved organic matter (DOM) leaching from biodegradable microplastics (BMPs) and its characteristics and corresponding environmental implication are rarely...
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SubjectTerms Biodegradable and non-biodegradable MPs
Dissolved Organic Matter
Environmental risks
Factor Analysis, Statistical
Humic Substances
Microbial metabolism
Microplastics
Photo-aging process
Plastics
Skin Aging
Spectrometry, Fluorescence
Title Dissolved organic matter derived from biodegradable microplastic promotes photo-aging of coexisting microplastics and alters microbial metabolism
URI https://dx.doi.org/10.1016/j.jhazmat.2022.130564
https://www.ncbi.nlm.nih.gov/pubmed/37055972
https://www.proquest.com/docview/2801975576
Volume 445
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