Abstract
Data on the fate of chemical substances in the environment after e.g. manure application is mandatory input for risk assessment in perspective of a more circular biobased economy. Such fate studies include a persistence study to determine a half-life value and a mobility study. It is recognized that not only the native substance should be considered, but that also degradation products should be included that might exert a similar effect as the native substance. We report a tiered fate study strategy that starts with a persistence study. For non-persistent substances a study is performed to determine if degradation products have a similar effect as the native compound. If so, a procedure using high resolution mass spectrometry is suggested to identify the potentially active degradation products. Based on the outcomes, substances are divided into three categories: (I) persistent, (II) degradable to inactive products or (III) degradable to active products. Even though the priority is with category I and III, for all substances and possible degradation products a mobility study is proposed. The fate strategy is successfully applied to ten antimicrobially active substances originating from the tetracyclines, sulfonamides, diaminopyrimidines, fluoroquinolones, macrolides and lincosamides. The fluoroquinolones, tetracyclines and trimethoprim were relatively persistent. The sulfonamides, macrolides and lincomycin (the latter also depending on soil type) degraded relatively quickly. Tylosin A proved to degrade to antimicrobially active degradation products which were tentitatively identified as tylosin C, tylosin A acid, tylosin B acid and tylosin C acid.
Highlights
Application as a result of disease treatment in animal husbandry, crop production or through irrigation using contaminated surface water
The fate study strategy consists of a simple laboratory scale persistence test, an effect based test to study the potential production of active degradation products combined with a high resolution mass spectrometry approach for identification of potential degradation products, and a cost-efficient column format mobility test
Sequential extraction procedures were tested to determine the Kd (based on OECD method 106 (OECD, 2000)) but we found that in all cases antibiotics remained in the soil fraction due to the fact that some of the water fraction remains in the soil even after centrifugation
Summary
Application as a result of disease treatment in animal husbandry (e.g. veterinary drugs), crop production (e.g. biocides) or through irrigation using contaminated surface water (e.g. biotoxins). Degradation studies followed by a studies to annotate potential degradation products should be included in strategies to assess the fate of chemicals in the agricultural environment. We developed a tiered fate study strategy including the determination of (1) persistence, (2) active degradation products and (3) mobility in soil. This is the first publication to combine these tests yielding an efficient tiered fate study strategy, and apply it to ten relevant veterinary antibiotics. This yielded persistence and mobility data for antibiotics of which no data has previously been reported. We report the formation of an unknown degradation product of tylosin
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