Carbamazepine, triclocarban and triclosan biodegradation and the phylotypes and functional genes associated with xenobiotic degradation in four agricultural soils

Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils subject to irrigation with wastewater effluent and biosolids application are possible reservoirs for these chemicals. This study examined the...

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Published inThe Science of the total environment Vol. 657; pp. 1138 - 1149
Main Authors Thelusmond, Jean-Rene, Strathmann, Timothy J., Cupples, Alison M.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 20.03.2019
Subjects
agricultural soils
Agriculture
anti-infective agents
biodegradation
Biodegradation, Environmental
biosolids
Bradyrhizobium
Bradyrhizobium - genetics
Bradyrhizobium - metabolism
Carbamazapine
Carbamazepine - metabolism
Carbanilides - metabolism
Cupriavidus
dioxins
drugs
Genes
Methylobacillus
Microbial Consortia - genetics
Mycobacterium
personal care products
phylotype
Pseudomonas
Rhodopseudomonas
Rhodopseudomonas - genetics
Rhodopseudomonas - metabolism
sequence analysis
Shotgun sequencing
Soil Microbiology
soil microorganisms
Soil Pollutants - metabolism
soil sampling
Sphingomonas
Stenotrophomonas
Streptomyces
Tricloasan
Triclocarban
triclosan
Triclosan - metabolism
wastewater irrigation
wastewater treatment
Xenobiotic degradation
xenobiotics
Xenobiotics - metabolism
Triclocarban
Carbamazapine
Xenobiotic degradation
Shotgun sequencing
Tricloasan
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Abstract Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils subject to irrigation with wastewater effluent and biosolids application are possible reservoirs for these chemicals. This study examined the impact of the pharmaceutical carbamazepine (CBZ), and the antimicrobial agents triclocarban (TCC) and triclosan (TCS) on four soil microbial communities using shotgun sequencing (HiSeq Illumina) with the overall aim of determining possible degraders as well as the functional genes related to general xenobiotic degradation. The biodegradation of CBZ and TCC was slow, with ≤50% decrease during the 80-day incubation period. In contrast, TCS biodegradation was rapid, with ~80% removal in 25 days. For each chemical, when all four soils were considered together, between three and ten phylotypes (from multiple phyla) were more abundant in the soil samples compared to the live controls. The genera of a number of previously reported CBZ, TCC or TCS degrading isolates were present; Rhodococcus (CBZ), Streptomyces (CBZ), Pseudomonas (CBZ, TCC, TCS), Sphingomonas (TCC, TCS), Methylobacillus (TCS) and Stenotrophomonas (TCS) were among the most abundant (chemical previously reported to be degraded is shown in parenthesis). From the analysis of xenobiotic degrading pathways, genes from five KEGG (Kyoto Encyclopedia of Genes and Genomes) Orthology pathways were the most dominant, including those associated with aminobenzoate, benzoate (most common), chlorocyclohexane/chlorobenzene, dioxin and nitrotoluene biodegradation. Several phylotypes including Bradyrhizobium, Mycobacterium, Rhodopseudomonas, Pseudomonas, Cupriavidus, and Streptomyces were common genera associated with these pathways. Overall, the data suggest several phylotypes are likely involved in the biodegradation of these PPCPs with Pseudomonas being an important genus. [Display omitted] •Rapid triclosan, yet slow carbamazepine & triclocarban degradation•Soils contained genera from previously reported CBZ, TCC or TCS degrading isolates.•Several functional genes were enriched in the PPCP amended samples.•Bradyrhizobium &Rhodopseudomonas were linked to xenobiotic degradation pathways.
AbstractList Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils subject to irrigation with wastewater effluent and biosolids application are possible reservoirs for these chemicals. This study examined the impact of the pharmaceutical carbamazepine (CBZ), and the antimicrobial agents triclocarban (TCC) and triclosan (TCS) on four soil microbial communities using shotgun sequencing (HiSeq Illumina) with the overall aim of determining possible degraders as well as the functional genes related to general xenobiotic degradation. The biodegradation of CBZ and TCC was slow, with ≤50% decrease during the 80-day incubation period. In contrast, TCS biodegradation was rapid, with ~80% removal in 25 days. For each chemical, when all four soils were considered together, between three and ten phylotypes (from multiple phyla) were more abundant in the soil samples compared to the live controls. The genera of a number of previously reported CBZ, TCC or TCS degrading isolates were present; Rhodococcus (CBZ), Streptomyces (CBZ), Pseudomonas (CBZ, TCC, TCS), Sphingomonas (TCC, TCS), Methylobacillus (TCS) and Stenotrophomonas (TCS) were among the most abundant (chemical previously reported to be degraded is shown in parenthesis). From the analysis of xenobiotic degrading pathways, genes from five KEGG (Kyoto Encyclopedia of Genes and Genomes) Orthology pathways were the most dominant, including those associated with aminobenzoate, benzoate (most common), chlorocyclohexane/chlorobenzene, dioxin and nitrotoluene biodegradation. Several phylotypes including Bradyrhizobium, Mycobacterium, Rhodopseudomonas, Pseudomonas, Cupriavidus, and Streptomyces were common genera associated with these pathways. Overall, the data suggest several phylotypes are likely involved in the biodegradation of these PPCPs with Pseudomonas being an important genus.
Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils subject to irrigation with wastewater effluent and biosolids application are possible reservoirs for these chemicals. This study examined the impact of the pharmaceutical carbamazepine (CBZ), and the antimicrobial agents triclocarban (TCC) and triclosan (TCS) on four soil microbial communities using shotgun sequencing (HiSeq Illumina) with the overall aim of determining possible degraders as well as the functional genes related to general xenobiotic degradation. The biodegradation of CBZ and TCC was slow, with ≤50% decrease during the 80-day incubation period. In contrast, TCS biodegradation was rapid, with ~80% removal in 25 days. For each chemical, when all four soils were considered together, between three and ten phylotypes (from multiple phyla) were more abundant in the soil samples compared to the live controls. The genera of a number of previously reported CBZ, TCC or TCS degrading isolates were present; Rhodococcus (CBZ), Streptomyces (CBZ), Pseudomonas (CBZ, TCC, TCS), Sphingomonas (TCC, TCS), Methylobacillus (TCS) and Stenotrophomonas (TCS) were among the most abundant (chemical previously reported to be degraded is shown in parenthesis). From the analysis of xenobiotic degrading pathways, genes from five KEGG (Kyoto Encyclopedia of Genes and Genomes) Orthology pathways were the most dominant, including those associated with aminobenzoate, benzoate (most common), chlorocyclohexane/chlorobenzene, dioxin and nitrotoluene biodegradation. Several phylotypes including Bradyrhizobium, Mycobacterium, Rhodopseudomonas, Pseudomonas, Cupriavidus, and Streptomyces were common genera associated with these pathways. Overall, the data suggest several phylotypes are likely involved in the biodegradation of these PPCPs with Pseudomonas being an important genus. [Display omitted] •Rapid triclosan, yet slow carbamazepine & triclocarban degradation•Soils contained genera from previously reported CBZ, TCC or TCS degrading isolates.•Several functional genes were enriched in the PPCP amended samples.•Bradyrhizobium &Rhodopseudomonas were linked to xenobiotic degradation pathways.
Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils subject to irrigation with wastewater effluent and biosolids application are possible reservoirs for these chemicals. This study examined the impact of the pharmaceutical carbamazepine (CBZ), and the antimicrobial agents triclocarban (TCC) and triclosan (TCS) on four soil microbial communities using shotgun sequencing (HiSeq Illumina) with the overall aim of determining possible degraders as well as the functional genes related to general xenobiotic degradation. The biodegradation of CBZ and TCC was slow, with ≤50% decrease during the 80-day incubation period. In contrast, TCS biodegradation was rapid, with ~80% removal in 25 days. For each chemical, when all four soils were considered together, between three and ten phylotypes (from multiple phyla) were more abundant in the soil samples compared to the live controls. The genera of a number of previously reported CBZ, TCC or TCS degrading isolates were present; Rhodococcus (CBZ), Streptomyces (CBZ), Pseudomonas (CBZ, TCC, TCS), Sphingomonas (TCC, TCS), Methylobacillus (TCS) and Stenotrophomonas (TCS) were among the most abundant (chemical previously reported to be degraded is shown in parenthesis). From the analysis of xenobiotic degrading pathways, genes from five KEGG (Kyoto Encyclopedia of Genes and Genomes) Orthology pathways were the most dominant, including those associated with aminobenzoate, benzoate (most common), chlorocyclohexane/chlorobenzene, dioxin and nitrotoluene biodegradation. Several phylotypes including Bradyrhizobium, Mycobacterium, Rhodopseudomonas, Pseudomonas, Cupriavidus, and Streptomyces were common genera associated with these pathways. Overall, the data suggest several phylotypes are likely involved in the biodegradation of these PPCPs with Pseudomonas being an important genus.Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils subject to irrigation with wastewater effluent and biosolids application are possible reservoirs for these chemicals. This study examined the impact of the pharmaceutical carbamazepine (CBZ), and the antimicrobial agents triclocarban (TCC) and triclosan (TCS) on four soil microbial communities using shotgun sequencing (HiSeq Illumina) with the overall aim of determining possible degraders as well as the functional genes related to general xenobiotic degradation. The biodegradation of CBZ and TCC was slow, with ≤50% decrease during the 80-day incubation period. In contrast, TCS biodegradation was rapid, with ~80% removal in 25 days. For each chemical, when all four soils were considered together, between three and ten phylotypes (from multiple phyla) were more abundant in the soil samples compared to the live controls. The genera of a number of previously reported CBZ, TCC or TCS degrading isolates were present; Rhodococcus (CBZ), Streptomyces (CBZ), Pseudomonas (CBZ, TCC, TCS), Sphingomonas (TCC, TCS), Methylobacillus (TCS) and Stenotrophomonas (TCS) were among the most abundant (chemical previously reported to be degraded is shown in parenthesis). From the analysis of xenobiotic degrading pathways, genes from five KEGG (Kyoto Encyclopedia of Genes and Genomes) Orthology pathways were the most dominant, including those associated with aminobenzoate, benzoate (most common), chlorocyclohexane/chlorobenzene, dioxin and nitrotoluene biodegradation. Several phylotypes including Bradyrhizobium, Mycobacterium, Rhodopseudomonas, Pseudomonas, Cupriavidus, and Streptomyces were common genera associated with these pathways. Overall, the data suggest several phylotypes are likely involved in the biodegradation of these PPCPs with Pseudomonas being an important genus.
Author Thelusmond, Jean-Rene
Strathmann, Timothy J.
Cupples, Alison M.
Author_xml – sequence: 1
  givenname: Jean-Rene
  surname: Thelusmond
  fullname: Thelusmond, Jean-Rene
  organization: Department of Civil and Environmental Engineering, Michigan State University, East Lansing, MI 48824, USA
– sequence: 2
  givenname: Timothy J.
  surname: Strathmann
  fullname: Strathmann, Timothy J.
  organization: Department of Civil and Environmental Engineering, Colorado School of Mines, Golden, CO 80401, USA
– sequence: 3
  givenname: Alison M.
  surname: Cupples
  fullname: Cupples, Alison M.
  email: cupplesa@msu.edu
  organization: Department of Civil and Environmental Engineering, Michigan State University, East Lansing, MI 48824, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30677881$$D View this record in MEDLINE/PubMed
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Keywords Triclocarban
Carbamazapine
Xenobiotic degradation
Shotgun sequencing
Tricloasan
Language English
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Snippet Pharmaceuticals and personal care products (PPCPs) are released into the environment due to their poor removal during wastewater treatment. Agricultural soils...
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SubjectTerms agricultural soils
Agriculture
anti-infective agents
biodegradation
Biodegradation, Environmental
biosolids
Bradyrhizobium
Bradyrhizobium - genetics
Bradyrhizobium - metabolism
Carbamazapine
Carbamazepine - metabolism
Carbanilides - metabolism
Cupriavidus
dioxins
drugs
Genes
Methylobacillus
Microbial Consortia - genetics
Mycobacterium
personal care products
phylotype
Pseudomonas
Rhodopseudomonas
Rhodopseudomonas - genetics
Rhodopseudomonas - metabolism
sequence analysis
Shotgun sequencing
Soil Microbiology
soil microorganisms
Soil Pollutants - metabolism
soil sampling
Sphingomonas
Stenotrophomonas
Streptomyces
Tricloasan
Triclocarban
triclosan
Triclosan - metabolism
wastewater irrigation
wastewater treatment
Xenobiotic degradation
xenobiotics
Xenobiotics - metabolism
Title Carbamazepine, triclocarban and triclosan biodegradation and the phylotypes and functional genes associated with xenobiotic degradation in four agricultural soils
URI https://dx.doi.org/10.1016/j.scitotenv.2018.12.145
https://www.ncbi.nlm.nih.gov/pubmed/30677881
https://www.proquest.com/docview/2179455903
https://www.proquest.com/docview/2220869107
Volume 657
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