Metagenomic analysis of the abundances, diversity, and distribution of antibiotic resistance genes and their potential bacterial hosts in two types of shrimp-rearing farms in South China

Antibiotic resistance genes (ARGs) are attracting increasing concern worldwide. Many previous studies have investigated the occurrence and concentrations of ARGs in aquaculture. However, the sources of ARGs and the links with their potential bacterial hosts have not yet been explored. This study inv...

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Published inEcotoxicology and environmental safety Vol. 241; p. 113801
Main Authors Su, Haochang, Hu, Xiaojuan, Xu, Wujie, Xu, Yu, Wen, Guoliang, Cao, Yucheng
Format Journal Article
LanguageEnglish
Published Elsevier 01.08.2022
Subjects
Antibiotic resistance genes
Aquaculture
Distribution
Public health
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Abstract Antibiotic resistance genes (ARGs) are attracting increasing concern worldwide. Many previous studies have investigated the occurrence and concentrations of ARGs in aquaculture. However, the sources of ARGs and the links with their potential bacterial hosts have not yet been explored. This study investigated the abundances and diversity of ARGs in two types of shrimp farms in South China through metagenomic sequencing. In total, 14 ARG types were detected. Tetracycline was the dominant ARG type. The abundances of ARGs in samples decreased in the order of duck feces > water source > sediment > shrimp gut > pond water. The samples from the duck–shrimp integrated farm contained 1.29–3.81-fold more abundant ARGs than those from the shrimp monoculture farm (p < 0.05). Several ARGs, that were most predominant in the duck feces samples, were also the most predominant in the shrimp gut samples from the duck–shrimp integrated farm. Redundancy analysis indicated that the abundances and distribution of ARGs formed three clusters: duck feces, water samples, and sediment and shrimp gut samples. The dominant genera in duck feces known as human pathogenic bacteria were potential hosts of ARGs, and were also dominant in the shrimp gut samples in the duck–shrimp integrated farm. Additionally, the abundances of dominant genera in the shrimp gut samples of the duck–shrimp integrated farm were 1.74–35.07-fold higher than those in the shrimp monoculture farm (p < 0.01). The duck–shrimp integrated farm had 3.36-fold and 4.94-fold higher abundances of ARGs and mobile genetic elements in the shrimp gut samples than those from the shrimp monoculture farm, respectively (p < 0.05). The results indicate that duck feces may be a crucial source of diverse and abundant ARGs spreading to reared shrimps in duck–shrimp integrated farms, posing a severe risk to public health.
AbstractList Antibiotic resistance genes (ARGs) are attracting increasing concern worldwide. Many previous studies have investigated the occurrence and concentrations of ARGs in aquaculture. However, the sources of ARGs and the links with their potential bacterial hosts have not yet been explored. This study investigated the abundances and diversity of ARGs in two types of shrimp farms in South China through metagenomic sequencing. In total, 14 ARG types were detected. Tetracycline was the dominant ARG type. The abundances of ARGs in samples decreased in the order of duck feces > water source > sediment > shrimp gut > pond water. The samples from the duck–shrimp integrated farm contained 1.29–3.81-fold more abundant ARGs than those from the shrimp monoculture farm (p < 0.05). Several ARGs, that were most predominant in the duck feces samples, were also the most predominant in the shrimp gut samples from the duck–shrimp integrated farm. Redundancy analysis indicated that the abundances and distribution of ARGs formed three clusters: duck feces, water samples, and sediment and shrimp gut samples. The dominant genera in duck feces known as human pathogenic bacteria were potential hosts of ARGs, and were also dominant in the shrimp gut samples in the duck–shrimp integrated farm. Additionally, the abundances of dominant genera in the shrimp gut samples of the duck–shrimp integrated farm were 1.74–35.07-fold higher than those in the shrimp monoculture farm (p < 0.01). The duck–shrimp integrated farm had 3.36-fold and 4.94-fold higher abundances of ARGs and mobile genetic elements in the shrimp gut samples than those from the shrimp monoculture farm, respectively (p < 0.05). The results indicate that duck feces may be a crucial source of diverse and abundant ARGs spreading to reared shrimps in duck–shrimp integrated farms, posing a severe risk to public health.
ArticleNumber 113801
Author Wen, Guoliang
Xu, Yu
Xu, Wujie
Hu, Xiaojuan
Cao, Yucheng
Su, Haochang
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    fullname: Huang
– volume: 814
  year: 2022
  ident: 10.1016/j.ecoenv.2022.113801_bib19
  article-title: Diversity, abundances and distribution of antibiotic resistance genes and virulence factors in the South China Sea revealed by metagenomic sequencing
  publication-title: Sci. Total Environ.
  doi: 10.1016/j.scitotenv.2021.152803
  contributor:
    fullname: Su
– ident: 10.1016/j.ecoenv.2022.113801_bib1
  doi: 10.1609/icwsm.v3i1.13937
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Snippet Antibiotic resistance genes (ARGs) are attracting increasing concern worldwide. Many previous studies have investigated the occurrence and concentrations of...
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SubjectTerms Antibiotic resistance genes
Aquaculture
Distribution
Public health
Title Metagenomic analysis of the abundances, diversity, and distribution of antibiotic resistance genes and their potential bacterial hosts in two types of shrimp-rearing farms in South China
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