Fate of veterinary antibiotics in a macroporous tile drained clay soil

P Kay, P A Blackwell, A B A Boxall

Research output: Contribution to journalArticlepeer-review

Abstract

The environment may be exposed to veterinary medicines administered to livestock through the application of organic fertilizers to land. For other groups of substances that are applied to agricultural land (e.g., pesticides), preferential flow in underdrained clay soils has been identified as an extremely important mechanism by which pollution of surface waters can occur. This study, therefore, was performed to investigate the fate of three antibiotics from the sulfonamide, tetracycline, and macrolide groups. Pig slurry was applied to a field in arable production in two consecutive years and the fate of the compounds was monitored in the soil and drainage water. Both sulfachloropyridazine and oxytetracycline were detected in soil at concentrations up to 365 and 1691 mug/kg, respectively. Subsequently, peak concentrations of the two substances in drainflow were 613.2 and 36.1 mug/L, although mass losses to the receiving water were less than 0.5%. In contrast, tylosin was not detected at all. These findings could be explained by the persistence and sorption characteristics of the antibiotics, while preferential flow via desiccation cracks and worm channels to the tile drains was found to be the most important route for translocation of the chemicals. Thus, when the soil was disced prior to slurry application, losses were reduced significantly. It is evident that processes governing pesticide fate also apply to veterinary antibiotics.

Original languageEnglish
Pages (from-to)1136-1144
Number of pages9
JournalEnvironmental Toxicology and Chemistry
Volume23
Issue number5
Publication statusPublished - May 2004

Keywords

  • veterinary antibiotics
  • macropores
  • tile drainage
  • soil tillage
  • PERFORMANCE LIQUID-CHROMATOGRAPHY
  • MASS-SPECTROMETRY
  • SOLUTE MOVEMENT
  • MANURE
  • TYLOSIN
  • OXYTETRACYCLINE
  • METRONIDAZOLE
  • ENVIRONMENT
  • OLAQUINDOX
  • RESIDUES

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