Antimicrobial Resistance in Aquaculture Environments: Unravelling the Complexity and Connectivity of the Underlying Societal Drivers

Thornber, Kelly; Bashar, Abul; Ahmed, Md. Salahuddin; Bell, Ashley; Trew, Jahcub; Hasan, Mahmudul; Hasan, Neaz A.; Alam, Md. Mehedi; Chaput, Dominique L.; Haque, Mohammad Mahfujul; Tyler, Charles R.

doi:10.1021/acs.est.2c00799

Cited by 22 publications

(7 citation statements)

References 52 publications

(84 reference statements)

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“…We applied metagenomic sequencing to investigate the microbial and ARG composition and diversity in finfish ponds at six different fish farms in the Mymensingh division in North-central Bangladesh. In a previous study, we used a smaller metagenome data analysis from these pond samples to support the building of a framework to better understand the risks of antimicrobial resistance in aquatic food-producing environments in Bangladesh (Thornber et al, 2022). Here were expanded our analysis significantly to assess ARG types, abundance and multi-resistance genes in these ponds to assess for differences across space and time (over seasons).…”

Section: Sample Locations and Pond Culturesmentioning

confidence: 99%

“…Fish ponds were rural earthen ponds enclosed by dykes that varied in size from 1200 and 16000 m 2 (mean 4000 m 2 , median 2500 m 2 ) and between 1 m and 1.5 m in depth. Farmers at each farm were retrospectively interviewed in 2021, as described in (Thornber et al, 2022) to ascertain the pond conditions in which the fish were reared. Ponds were topped up, on average weekly, with a mixture of rainwater and groundwater sources depending on rainfall conditions and seasons.…”

Section: Sample Locations and Pond Culturesmentioning

confidence: 99%

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Metagenomic assessment of the diversity and ubiquity of antimicrobial resistance genes in Bangladeshi aquaculture ponds

Bell

Thornber

Chaput

et al. 2023

Aquaculture Reports

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Section: Sample Locations and Pond Culturesmentioning

confidence: 99%

Section: Sample Locations and Pond Culturesmentioning

confidence: 99%

Metagenomic assessment of the diversity and ubiquity of antimicrobial resistance genes in Bangladeshi aquaculture ponds

Bell

Thornber

Chaput

et al. 2023

Aquaculture Reports

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“…Selective pressures from the usage of antibiotics fuel antimicrobial resistance (AMR). Over the past ten years, the availability of evidence around antimicrobial resistance has broadened (Buschmann et al 2012 ; Schar et al 2020 ; Thornber et al 2022 ; Caputo et al 2023 ).…”

Section: Current Solutionsmentioning

confidence: 99%

Bacterial diseases in marine fish species: current trends and future prospects in disease management

Hegde,

Kabra,

Basawa

et al. 2023

World J Microbiol Biotechnol

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The fisheries sub-sector of aquaculture—i.e., the pisciculture industry, contributes significantly to a country’s economy, employing a sizable proportion of the population. It also makes important contributions to household food security because the current demand for animal protein cannot be fulfilled by harvesting wild fish from riverines, lakes, dams, and oceans. For good pond management techniques and sustaining fish health, the fisherfolk, and the industry require well-established regulatory structures, efficient disease management strategies, and other extended services. In rearing marine fish, infections resulting from disease outbreaks are a weighty concern because they can cause considerable economic loss due to morbidity and mortality. Consequently, to find effective solutions for the prevention and control of the major diseases limiting fish production in aquaculture, multidisciplinary studies on the traits of potential fish pathogens, the biology of the fish as hosts, and an adequate understanding of the global environmental factors are fundamental. This review highlights the various bacterial diseases and their causative pathogens prevalent in the pisciculture industry and the current solutions while emphasising marine fish species. Given that preexisting methods are known to have several disadvantages, other sustainable alternatives like antimicrobial peptides, synthetic peptides, probiotics, and medicinal treatments have emerged to be an enormous potential solution to these challenges. Graphical abstract

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“…In addition, the biological dimension, particularly the diversity of bacterial populations, is critical for understanding the ecological repercussions of contaminants and eutrophication processes [17,18]. Research indicates that integrating these facets yields a more comprehensive understanding of the health of aquatic ecosystems [19,20].…”

Section: Introductionmentioning

confidence: 99%

Integrated water quality dynamics in Wadi Hanifah: Physical, chemical, and biological perspectives

Aqel,

Sannan,

Al-Hunaiti

et al. 2024

PLoS ONE

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The Wadi Hanifah, a crucial aquatic ecosystem, has unfavorable consequences from natural occurrences and human activities. Recognizing the critical need for sustainable water management, this study provides an in-depth evaluation of wadi water quality. A comprehensive assessment was conducted, analyzing physical properties (temperature, pH, electrical conductivity, turbidity, color, and odor), chemical constituents (nitrogen compounds, ion concentrations, heavy metals), and bacterial diversity. The study found significant temperature fluctuations, particularly in sun-exposed or stagnant water areas. The water exhibited slight alkalinity and variable electrical conductivity and turbidity, indicating differing pollution levels. High ammonia and heavy metal concentrations suggested organic and industrial contamination, respectively. In addition, the prevalent fecal-indicator bacteria pointed to possible sewage or agricultural runoff. The research highlights the complex interplay of natural and anthropogenic factors affecting Wadi Hanifah’s water quality. It emphasizes the need for location-specific environmental management strategies focusing on pollution control and conservation to safeguard the wadi’s ecological health. This study provides vital insights for effective water resource management in Wadi Hanifah, serving as a model for similar ecosystems.

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Antimicrobial Resistance in Aquaculture Environments: Unravelling the Complexity and Connectivity of the Underlying Societal Drivers

Cited by 22 publications

References 52 publications

Metagenomic assessment of the diversity and ubiquity of antimicrobial resistance genes in Bangladeshi aquaculture ponds

Metagenomic assessment of the diversity and ubiquity of antimicrobial resistance genes in Bangladeshi aquaculture ponds

Bacterial diseases in marine fish species: current trends and future prospects in disease management

Integrated water quality dynamics in Wadi Hanifah: Physical, chemical, and biological perspectives

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