Organic and inorganic model soil fractions instigate the formation of distinct microbial biofilms for enhanced biodegradation of benzo[a]pyrene

This study conducted the sorption and biodegradation of benzo[a]pyrene (BaP) by microbial biofilm communities developed on proxies for materials typically found in soils. The half-life of BaP was 4.7 and 2.3 weeks for biofilms on the inorganic carrier (BCINOR, montmorillonite) and on the organic car...

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Published inJournal of hazardous materials Vol. 404; no. Pt A; p. 124071
Main Authors Han, Cheng, Zhang, Yinping, Redmile-Gordon, Marc, Deng, Huan, Gu, Zhenggui, Zhao, Qiguo, Wang, Fang
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.02.2021
Subjects
Bacterial community composition
Benzo(a)pyrene
biodegradation
Biodegradation, Environmental
biodiversity
biofilm
Biofilms
Brucella
Chitinophaga
Extracellular polymeric substances (EPS)
half life
Humic acid
humic acids
Labrys
lipids
Montmorillonite
plankton
Polycyclic Aromatic Hydrocarbons
polymers
Soil
Soil Pollutants
sorption
Ultrastructure
Extracellular polymeric substances (EPS)
Polycyclic aromatic hydrocarbons
Montmorillonite
Bacterial community composition
Ultrastructure
Humic acid
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Abstract This study conducted the sorption and biodegradation of benzo[a]pyrene (BaP) by microbial biofilm communities developed on proxies for materials typically found in soils. The half-life of BaP was 4.7 and 2.3 weeks for biofilms on the inorganic carrier (BCINOR, montmorillonite) and on the organic carrier (BCOR, humic acid), respectively. In contrast, the half-life was 7.0 weeks for specialized planktonic cultures (PK). The exposure to BaP caused the development of lipid inclusion bodies inside the bacteria of the PK systems and biofilms of the BCINOR, but not on the biofilms of the BCOR system. Interestingly, the BCOR displayed not only the greatest BaP sorption capacity but also the greatest bacterial density and membrane integrity and the shortest bacteria-to-bacteria distances, which were consistent with the increased production of cell surface extracellular polymeric substances on the BCOR. Both carriers caused a noticeable shift in the bacterial genera during the biodegradation of the BaP. The BCINOR selected for Rhodococcus, Brucella, Chitinophaga, and Labrys, whereas the BCOR favored Rhodococcus and Dokdonella. It indicated that ultra-structure and BaP degradation within the organic carrier-attached biofilms differed from the inorganic ones, and suggested that the microstructural heterogeneity and microbial biodiversity from biofilms on the organic carrier promoted biodegradation. [Display omitted] •Biofilms developed on the organic carrier accelerated degradation of BaP.•Cells in biofilms on inorganic carriers formed lipid inclusions.•Biofilms formed on the organic carrier were compact, and featured more EPS.•Gammaproteobacteria and Actinobacteria were linked with the degradation of BaP.
AbstractList This study conducted the sorption and biodegradation of benzo[a]pyrene (BaP) by microbial biofilm communities developed on proxies for materials typically found in soils. The half-life of BaP was 4.7 and 2.3 weeks for biofilms on the inorganic carrier (BCINOR, montmorillonite) and on the organic carrier (BCOR, humic acid), respectively. In contrast, the half-life was 7.0 weeks for specialized planktonic cultures (PK). The exposure to BaP caused the development of lipid inclusion bodies inside the bacteria of the PK systems and biofilms of the BCINOR, but not on the biofilms of the BCOR system. Interestingly, the BCOR displayed not only the greatest BaP sorption capacity but also the greatest bacterial density and membrane integrity and the shortest bacteria-to-bacteria distances, which were consistent with the increased production of cell surface extracellular polymeric substances on the BCOR. Both carriers caused a noticeable shift in the bacterial genera during the biodegradation of the BaP. The BCINOR selected for Rhodococcus, Brucella, Chitinophaga, and Labrys, whereas the BCOR favored Rhodococcus and Dokdonella. It indicated that ultra-structure and BaP degradation within the organic carrier-attached biofilms differed from the inorganic ones, and suggested that the microstructural heterogeneity and microbial biodiversity from biofilms on the organic carrier promoted biodegradation.
This study conducted the sorption and biodegradation of benzo[a]pyrene (BaP) by microbial biofilm communities developed on proxies for materials typically found in soils. The half-life of BaP was 4.7 and 2.3 weeks for biofilms on the inorganic carrier (BCINOR, montmorillonite) and on the organic carrier (BCOR, humic acid), respectively. In contrast, the half-life was 7.0 weeks for specialized planktonic cultures (PK). The exposure to BaP caused the development of lipid inclusion bodies inside the bacteria of the PK systems and biofilms of the BCINOR, but not on the biofilms of the BCOR system. Interestingly, the BCOR displayed not only the greatest BaP sorption capacity but also the greatest bacterial density and membrane integrity and the shortest bacteria-to-bacteria distances, which were consistent with the increased production of cell surface extracellular polymeric substances on the BCOR. Both carriers caused a noticeable shift in the bacterial genera during the biodegradation of the BaP. The BCINOR selected for Rhodococcus, Brucella, Chitinophaga, and Labrys, whereas the BCOR favored Rhodococcus and Dokdonella. It indicated that ultra-structure and BaP degradation within the organic carrier-attached biofilms differed from the inorganic ones, and suggested that the microstructural heterogeneity and microbial biodiversity from biofilms on the organic carrier promoted biodegradation. [Display omitted] •Biofilms developed on the organic carrier accelerated degradation of BaP.•Cells in biofilms on inorganic carriers formed lipid inclusions.•Biofilms formed on the organic carrier were compact, and featured more EPS.•Gammaproteobacteria and Actinobacteria were linked with the degradation of BaP.
This study conducted the sorption and biodegradation of benzo[a]pyrene (BaP) by microbial biofilm communities developed on proxies for materials typically found in soils. The half-life of BaP was 4.7 and 2.3 weeks for biofilms on the inorganic carrier (BC , montmorillonite) and on the organic carrier (BC , humic acid), respectively. In contrast, the half-life was 7.0 weeks for specialized planktonic cultures (PK). The exposure to BaP caused the development of lipid inclusion bodies inside the bacteria of the PK systems and biofilms of the BC , but not on the biofilms of the BC system. Interestingly, the BC displayed not only the greatest BaP sorption capacity but also the greatest bacterial density and membrane integrity and the shortest bacteria-to-bacteria distances, which were consistent with the increased production of cell surface extracellular polymeric substances on the BC . Both carriers caused a noticeable shift in the bacterial genera during the biodegradation of the BaP. The BC selected for Rhodococcus, Brucella, Chitinophaga, and Labrys, whereas the BC favored Rhodococcus and Dokdonella. It indicated that ultra-structure and BaP degradation within the organic carrier-attached biofilms differed from the inorganic ones, and suggested that the microstructural heterogeneity and microbial biodiversity from biofilms on the organic carrier promoted biodegradation.
ArticleNumber 124071
Author Han, Cheng
Zhang, Yinping
Deng, Huan
Zhao, Qiguo
Wang, Fang
Gu, Zhenggui
Redmile-Gordon, Marc
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  surname: Wang
  fullname: Wang, Fang
  email: wangfang@issas.ac.cn
  organization: Key Laboratory of Soil Environment and Pollution Remediation, Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008, China
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Issue Pt A
Keywords Extracellular polymeric substances (EPS)
Polycyclic aromatic hydrocarbons
Montmorillonite
Bacterial community composition
Ultrastructure
Humic acid
Language English
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Snippet This study conducted the sorption and biodegradation of benzo[a]pyrene (BaP) by microbial biofilm communities developed on proxies for materials typically...
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SubjectTerms Bacterial community composition
Benzo(a)pyrene
biodegradation
Biodegradation, Environmental
biodiversity
biofilm
Biofilms
Brucella
Chitinophaga
Extracellular polymeric substances (EPS)
half life
Humic acid
humic acids
Labrys
lipids
Montmorillonite
plankton
Polycyclic Aromatic Hydrocarbons
polymers
Soil
Soil Pollutants
sorption
Ultrastructure
Title Organic and inorganic model soil fractions instigate the formation of distinct microbial biofilms for enhanced biodegradation of benzo[a]pyrene
URI https://dx.doi.org/10.1016/j.jhazmat.2020.124071
https://www.ncbi.nlm.nih.gov/pubmed/33045463
https://www.proquest.com/docview/2524301925
Volume 404
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