Biodegradation of polyethylene mulching films by a co-culture of Acinetobacter sp. strain NyZ450 and Bacillus sp. strain NyZ451 isolated from Tenebrio molitor larvae

Microbial degradation of polyethylene (PE) mulching films has attracted much attention, but to date its relatively rapid biodegradation was limited. Here, a consortium of two bacterial isolates, Acinetobacter sp. strain NyZ450 and Bacillus sp. strain NyZ451 from the gut of PE-feeding Tenebrio molito...

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Published inInternational biodeterioration & biodegradation Vol. 155; p. 105089
Main Authors Yin, Chao-Fan, Xu, Ying, Zhou, Ning-Yi
Format Journal Article
LanguageEnglish
Published Barking Elsevier Ltd 01.11.2020
Elsevier BV
Subjects
Acinetobacter
Acinetobacter sp. strain NyZ450
Bacillus
Bacillus (bacteria)
Bacillus sp. strain NyZ451
Biodegradation
biofilm
Biofilms
coculture
Consortia
Degradation
digestive system
electron microscopy
Fourier analysis
Fourier transform infrared spectroscopy
Fourier transforms
gel chromatography
High temperature
Infrared analysis
Infrared spectroscopy
Inoculation
Larvae
Liquid chromatography
Microbial degradation
Microorganisms
Mulching
Polyethylene
Polyethylene mulching film
Polyethylenes
Scanning electron microscopy
Strains (organisms)
Tenebrio molitor
Degradation
Bacillus sp. strain NyZ451
Polyethylene mulching film
Acinetobacter sp. strain NyZ450
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Abstract Microbial degradation of polyethylene (PE) mulching films has attracted much attention, but to date its relatively rapid biodegradation was limited. Here, a consortium of two bacterial isolates, Acinetobacter sp. strain NyZ450 and Bacillus sp. strain NyZ451 from the gut of PE-feeding Tenebrio molitor larvae (mealworms), was suggested to utilize PE, although each strain had no such ability alone. This consortium removed approximately 18% of PE film after 30 days at 23 °C. High-temperature gel permeation chromatography analysis indicated that the number-, weight-, and size-averaged molecular weights of PE were decreased by 14%, 24% and 21% from their respective initial values of 27,494 Da, 179,374 Da and 697,487 Da after a 20-day incubation with this consortium. Under scanning electron microscope, a biofilm formed by these strains was also observed on the film's surface. Fourier transform infrared spectroscopy analysis indicated that the films incubated with these two strains or either of them were all oxidized compared with the control without inoculation. Plate colony counting and electron microscopic observation showed that strain NyZ450 was predominant in the co-culture. This study enriched microbial resources for PE degradation and provided an example for the interaction of two bacterial strains for enhanced PE degradation. [Display omitted] •A consortium of two bacteria from the Tenebrio molitor larvae gut degrades PE.•The co-culture reduced 18% mass of PE mulching films in 30 days.•The two isolates form a tight biofilm on the PE mulching film surface.•PE undergoes oxidation after being treated with two strains.•Acinetobacter sp. strain NyZ450 is predominant in the consortium.
AbstractList Microbial degradation of polyethylene (PE) mulching films has attracted much attention, but to date its relatively rapid biodegradation was limited. Here, a consortium of two bacterial isolates, Acinetobacter sp. strain NyZ450 and Bacillus sp. strain NyZ451 from the gut of PE-feeding Tenebrio molitor larvae (mealworms), was suggested to utilize PE, although each strain had no such ability alone. This consortium removed approximately 18% of PE film after 30 days at 23 °C. High-temperature gel permeation chromatography analysis indicated that the number-, weight-, and size-averaged molecular weights of PE were decreased by 14%, 24% and 21% from their respective initial values of 27,494 Da, 179,374 Da and 697,487 Da after a 20-day incubation with this consortium. Under scanning electron microscope, a biofilm formed by these strains was also observed on the film's surface. Fourier transform infrared spectroscopy analysis indicated that the films incubated with these two strains or either of them were all oxidized compared with the control without inoculation. Plate colony counting and electron microscopic observation showed that strain NyZ450 was predominant in the co-culture. This study enriched microbial resources for PE degradation and provided an example for the interaction of two bacterial strains for enhanced PE degradation. [Display omitted] •A consortium of two bacteria from the Tenebrio molitor larvae gut degrades PE.•The co-culture reduced 18% mass of PE mulching films in 30 days.•The two isolates form a tight biofilm on the PE mulching film surface.•PE undergoes oxidation after being treated with two strains.•Acinetobacter sp. strain NyZ450 is predominant in the consortium.
Microbial degradation of polyethylene (PE) mulching films has attracted much attention, but to date its relatively rapid biodegradation was limited. Here, a consortium of two bacterial isolates, Acinetobacter sp. strain NyZ450 and Bacillus sp. strain NyZ451 from the gut of PE-feeding Tenebrio molitor larvae (mealworms), was suggested to utilize PE, although each strain had no such ability alone. This consortium removed approximately 18% of PE film after 30 days at 23 °C. High-temperature gel permeation chromatography analysis indicated that the number-, weight-, and size-averaged molecular weights of PE were decreased by 14%, 24% and 21% from their respective initial values of 27,494 Da, 179,374 Da and 697,487 Da after a 20-day incubation with this consortium. Under scanning electron microscope, a biofilm formed by these strains was also observed on the film's surface. Fourier transform infrared spectroscopy analysis indicated that the films incubated with these two strains or either of them were all oxidized compared with the control without inoculation. Plate colony counting and electron microscopic observation showed that strain NyZ450 was predominant in the co-culture. This study enriched microbial resources for PE degradation and provided an example for the interaction of two bacterial strains for enhanced PE degradation.
ArticleNumber 105089
Author Xu, Ying
Yin, Chao-Fan
Zhou, Ning-Yi
Author_xml – sequence: 1
  givenname: Chao-Fan
  surname: Yin
  fullname: Yin, Chao-Fan
  organization: State Key Laboratory of Microbial Metabolism, and School of Life Sciences & Biotechnology, Shanghai Jiao Tong University, Shanghai, 200240, China
– sequence: 2
  givenname: Ying
  surname: Xu
  fullname: Xu, Ying
  email: ying.xu@sjtu.edu.cn
  organization: State Key Laboratory of Microbial Metabolism, and School of Life Sciences & Biotechnology, Shanghai Jiao Tong University, Shanghai, 200240, China
– sequence: 3
  givenname: Ning-Yi
  surname: Zhou
  fullname: Zhou, Ning-Yi
  organization: State Key Laboratory of Microbial Metabolism, and School of Life Sciences & Biotechnology, Shanghai Jiao Tong University, Shanghai, 200240, China
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Keywords Degradation
Bacillus sp. strain NyZ451
Polyethylene mulching film
Acinetobacter sp. strain NyZ450
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Snippet Microbial degradation of polyethylene (PE) mulching films has attracted much attention, but to date its relatively rapid biodegradation was limited. Here, a...
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SubjectTerms Acinetobacter
Acinetobacter sp. strain NyZ450
Bacillus
Bacillus (bacteria)
Bacillus sp. strain NyZ451
Biodegradation
biofilm
Biofilms
coculture
Consortia
Degradation
digestive system
electron microscopy
Fourier analysis
Fourier transform infrared spectroscopy
Fourier transforms
gel chromatography
High temperature
Infrared analysis
Infrared spectroscopy
Inoculation
Larvae
Liquid chromatography
Microbial degradation
Microorganisms
Mulching
Polyethylene
Polyethylene mulching film
Polyethylenes
Scanning electron microscopy
Strains (organisms)
Tenebrio molitor
Title Biodegradation of polyethylene mulching films by a co-culture of Acinetobacter sp. strain NyZ450 and Bacillus sp. strain NyZ451 isolated from Tenebrio molitor larvae
URI https://dx.doi.org/10.1016/j.ibiod.2020.105089
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https://www.proquest.com/docview/2524302344
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