Dynamic exposure and body burden models for per- and polyfluoroalkyl substances (PFAS) enable management of food safety risks in cattle

Environ Int. 2023 Oct:180:108218. doi: 10.1016/j.envint.2023.108218. Epub 2023 Sep 19.

Abstract

With increasing global focus on planetary boundaries, food safety and quality, the presence of per- and polyfluoroalkyl substances (PFAS) in the food chain presents a challenge for the sustainable production and supply of quality assured food. Consumption of food is the primary PFAS exposure route for the general population. At contaminated sites, PFAS have been reported in a range of agricultural commodities including cattle. Consumer exposure assessments are complicated by the lack of validated modelling approaches to estimate PFAS bioaccumulation in cattle. Previous studies have shown that PFAS bioaccumulation in livestock is influenced by environmental, spatial and temporal factors that necessitate a dynamic modelling approach. This work presents an integrated exposure and population toxicokinetic (PopTK) model for cattle that estimates serum and tissue concentrations of PFAS over time. Daily exposures were estimated from intakes of water, pasture, and soil, and considered animal growth, seasonal variability (pasture moisture content and temperature) and variable PFAS concentrations across paddocks. Modelled serum and tissue estimates were validated against monitoring data from Australian and Swedish cattle farms. The models were also used to develop and test practical management options for reducing PFAS exposure and to prioritise remediation for farms. Model outputs for exposure management scenarios (testing cattle rotation and targeted supplementation of feed and water) showed potential for marked reductions in consumer exposures from cattle produce.

Keywords: Cattle; Dynamic exposure; Food chain; Perfluorooctane sulfonate (PFOS); Risk management; Toxicocokinetics.

MeSH terms

  • Alkanesulfonic Acids*
  • Animals
  • Australia
  • Body Burden
  • Cattle
  • Drinking Water* / analysis
  • Fluorocarbons*
  • Food Safety
  • Humans

Substances

  • Fluorocarbons
  • Drinking Water
  • Alkanesulfonic Acids