Fate of fluoroquinolones in field soil environment after incorporation of poultry litter from a farm with enrofloxacin administration via drinking water

The practice of incorporating animal manure into soil is supported within the European Circular economy as a possible substitute for mineral fertilizers and will become crucial for the sustainability of agriculture. However, this practice may indirectly contribute to the dissemination of antibiotics...

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Published in:Environmental science and pollution research international 2024-03, Vol.31 (13), p.20017-20032
Main Authors: Fučík, Jan, Amrichová, Anna, Brabcová, Kristýna, Karpíšková, Renata, Koláčková, Ivana, Pokludová, Lucie, Poláková, Šárka, Mravcová, Ludmila
Format: Article
Language:English
Subjects:
Agricultural land
Agricultural wastes
Animal manures
Antibiotics
Antimicrobial agents
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Bedding
Chickens
Circular economy
Drinking water
Earth and Environmental Science
Ecotoxicology
Enrofloxacin
Environment
Environmental Chemistry
Environmental Health
Farms
Fluoroquinolones
Genes
Litter
Mineral fertilizers
Poultry
Research Article
Research projects
Risk assessment
Soil analysis
Soil environment
Soil water
Soils
Terrestrial environments
Waste Water Technology
Water Management
Water Pollution Control
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Summary:The practice of incorporating animal manure into soil is supported within the European Circular economy as a possible substitute for mineral fertilizers and will become crucial for the sustainability of agriculture. However, this practice may indirectly contribute to the dissemination of antibiotics, resistance bacteria, and resistance genes. In this study, medicated drinking water and poultry litter samples were obtained from a broiler-chick farm. The obtained poultry litter was incorporated into the soil at the experimental field site. The objectives of this research project were first to develop analytical methods able to quantify fluoroquinolones (FQs) in medicated drinking water, poultry litter, and soil samples by LC–MS; second to study the fate of these FQs in the soil environment after incorporation of poultry litter from flock medicated by enrofloxacin (ENR); and third to screen the occurrence of selected fluoroquinolone resistance encoding genes in poultry litter and soil samples (PCR analysis). FQs were quantified in the broiler farm’s medicated drinking water (41.0 ± 0.3 mg∙L −1 of ENR) and poultry litter (up to 70 mg∙kg −1 of FQs). The persistence of FQs in the soil environment over 112 days was monitored and evaluated (ENR concentrations ranged from 36 μg∙kg −1 to 9 μg∙kg −1 after 100 days). The presence of resistance genes was confirmed in both poultry litter and soil samples, in agreement with the risk assessment for the selection of AMR in soil based on ENR concentrations. This work provides a new, comprehensive perspective on the entry and long-term fate of antimicrobials in the terrestrial environment and their consequences after the incorporation of poultry litter into agricultural fields. Graphical Abstract
ISSN:1614-7499
0944-1344
1614-7499
DOI:10.1007/s11356-024-32492-x