Biodegradation of low-density polyethylene by the bacterial strains isolated from the dumping site community

Low-density polyethylene (LDPE) is the predominant single-use plastic and rarely decomposes after disposal. The primary objective of this study was to identify potential bacteria capable of degrading LDPE plastic and investigating the biochemical pathways of this process. Bacteria were isolated from...

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Published inDiscover applied sciences Vol. 6; no. 7; p. 348
Main Authors Khampratueng, Pornya, Rice, Daniel, Anal, Anil Kumar
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 25.06.2024
Springer Nature B.V
Subjects
Alkanes
Applied and Technical Physics
Bacillus
Bacteria
Biodegradation
Carbon
Carbon sources
Carbonyl compounds
Carbonyl groups
Carbonyls
Carboxylic acids
Chemistry/Food Science
Density
Depolymerization
Dumping
Earth Sciences
Engineering
Environment
Enzymes
Esters
Ethers
Extracellular enzymes
Fourier transforms
Garbage
Low density polyethylenes
Materials Science
Microorganisms
Molecular weight
Plastic debris
Plastic pollution
Plastics
Pollution control
Polyethylene
Polymers
Soil bacteria
Soil microorganisms
Strains (organisms)
Weight loss
Thailand
United States > US
Germany
Biodegradation
sp
Low-density polyethylene
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Abstract Low-density polyethylene (LDPE) is the predominant single-use plastic and rarely decomposes after disposal. The primary objective of this study was to identify potential bacteria capable of degrading LDPE plastic and investigating the biochemical pathways of this process. Bacteria were isolated from soil samples collected from a local garbage dumping site in Thailand and tested on their capability to degrade LDPE plastic. Two of the bacteria isolated from the dumping site, Bacillus sp. AS3 and Sphingobacterium sp. AS8, demonstrated 3.06% and 2.01% (w/w) LDPE plastic weight loss over four weeks, respectively. Analysis by FTIR showed that both bacterial strains degraded the LDPE in the region of 3200–3400 cm −1 , which represents the OH group in a commercial LDPE polymer. Bacillus sp. AS3 caused the formation of a new range in the carbonyl group (C=O stretch) and the alcohol, carboxylic acid, esters, and ethers group (–C–O stretch). GC–MS analysis revealed various depolymerized compounds, such as alkane, alcohol, and carboxylic compounds, during LDPE degradation by Bacillus sp. AS3. Bacillus sp. AS3 illustrated esterase activity as 0.608 ± 0.004 U/mL after incubation. The proposed schematic of the LDPE biodegrading pathway by Bacillus sp. AS3 relies on the identification of depolymerized molecules as evidence. This suggests that Bacillus sp. AS3 possesses extracellular enzymes that break down LDPE into smaller molecules through depolymerization. Moreover, the surface of LDPE degraded by Bacillus sp. AS3 and Spingobacterium sp. AS8 was marked by cavities and a rough texture when observed under SEM analysis. This study provides microbial applications to reduce plastic pollution by utilising microorganisms to assimilate plastic waste as a carbon source.
AbstractList Low-density polyethylene (LDPE) is the predominant single-use plastic and rarely decomposes after disposal. The primary objective of this study was to identify potential bacteria capable of degrading LDPE plastic and investigating the biochemical pathways of this process. Bacteria were isolated from soil samples collected from a local garbage dumping site in Thailand and tested on their capability to degrade LDPE plastic. Two of the bacteria isolated from the dumping site, Bacillus sp. AS3 and Sphingobacterium sp. AS8, demonstrated 3.06% and 2.01% (w/w) LDPE plastic weight loss over four weeks, respectively. Analysis by FTIR showed that both bacterial strains degraded the LDPE in the region of 3200–3400 cm −1 , which represents the OH group in a commercial LDPE polymer. Bacillus sp. AS3 caused the formation of a new range in the carbonyl group (C=O stretch) and the alcohol, carboxylic acid, esters, and ethers group (–C–O stretch). GC–MS analysis revealed various depolymerized compounds, such as alkane, alcohol, and carboxylic compounds, during LDPE degradation by Bacillus sp. AS3. Bacillus sp. AS3 illustrated esterase activity as 0.608 ± 0.004 U/mL after incubation. The proposed schematic of the LDPE biodegrading pathway by Bacillus sp. AS3 relies on the identification of depolymerized molecules as evidence. This suggests that Bacillus sp. AS3 possesses extracellular enzymes that break down LDPE into smaller molecules through depolymerization. Moreover, the surface of LDPE degraded by Bacillus sp. AS3 and Spingobacterium sp. AS8 was marked by cavities and a rough texture when observed under SEM analysis. This study provides microbial applications to reduce plastic pollution by utilising microorganisms to assimilate plastic waste as a carbon source.
Low-density polyethylene (LDPE) is the predominant single-use plastic and rarely decomposes after disposal. The primary objective of this study was to identify potential bacteria capable of degrading LDPE plastic and investigating the biochemical pathways of this process. Bacteria were isolated from soil samples collected from a local garbage dumping site in Thailand and tested on their capability to degrade LDPE plastic. Two of the bacteria isolated from the dumping site, Bacillus sp. AS3 and Sphingobacterium sp. AS8, demonstrated 3.06% and 2.01% (w/w) LDPE plastic weight loss over four weeks, respectively. Analysis by FTIR showed that both bacterial strains degraded the LDPE in the region of 3200–3400 cm−1, which represents the OH group in a commercial LDPE polymer. Bacillus sp. AS3 caused the formation of a new range in the carbonyl group (C=O stretch) and the alcohol, carboxylic acid, esters, and ethers group (–C–O stretch). GC–MS analysis revealed various depolymerized compounds, such as alkane, alcohol, and carboxylic compounds, during LDPE degradation by Bacillus sp. AS3. Bacillus sp. AS3 illustrated esterase activity as 0.608 ± 0.004 U/mL after incubation. The proposed schematic of the LDPE biodegrading pathway by Bacillus sp. AS3 relies on the identification of depolymerized molecules as evidence. This suggests that Bacillus sp. AS3 possesses extracellular enzymes that break down LDPE into smaller molecules through depolymerization. Moreover, the surface of LDPE degraded by Bacillus sp. AS3 and Spingobacterium sp. AS8 was marked by cavities and a rough texture when observed under SEM analysis. This study provides microbial applications to reduce plastic pollution by utilising microorganisms to assimilate plastic waste as a carbon source.
ArticleNumber 348
Author Anal, Anil Kumar
Rice, Daniel
Khampratueng, Pornya
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Snippet Low-density polyethylene (LDPE) is the predominant single-use plastic and rarely decomposes after disposal. The primary objective of this study was to identify...
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SubjectTerms Alkanes
Applied and Technical Physics
Bacillus
Bacteria
Biodegradation
Carbon
Carbon sources
Carbonyl compounds
Carbonyl groups
Carbonyls
Carboxylic acids
Chemistry/Food Science
Density
Depolymerization
Dumping
Earth Sciences
Engineering
Environment
Enzymes
Esters
Ethers
Extracellular enzymes
Fourier transforms
Garbage
Low density polyethylenes
Materials Science
Microorganisms
Molecular weight
Plastic debris
Plastic pollution
Plastics
Pollution control
Polyethylene
Polymers
Soil bacteria
Soil microorganisms
Strains (organisms)
Weight loss
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Title Biodegradation of low-density polyethylene by the bacterial strains isolated from the dumping site community
URI https://link.springer.com/article/10.1007/s42452-024-06052-4
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