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Biomonitoring of airborne microplastics and microrubbers in Shiraz, Iran, using lichens and moss.

Nafiseh KhodabakhshlooSajjad AbbasiPatryk OleszczukAndrew Turner
Published in: Environmental geochemistry and health (2024)
, respectively, and the majority of plastics were fibres of < 10 µm in diameter and < 1000 µm in length. Respective weight normalised abundances of MPs and MRs were similar in G. critina, but there were greater proportions of both larger (> 1000 µm) and non-fibrous particles among the MPs. In both lichens and moss, there was a greater number of larger MPs and MRs at locations closest to and at the same elevation as Shiraz than at more distant and elevated locations, suggesting an inverse relationship between particle size and distance travelled. Among the lichens, members of the genus Acarospora, with their areolated form, appeared to act as the most suitable biomonitors for MPs and MRs. Overall, however, the wide distribution of the moss, G. crinita, and its ability to intercept and accumulate a broader range of sizes and shapes of MPs and MRs make this species a better choice, at least in the type of environment studied.
Keyphrases
  • particulate matter
  • physical activity
  • lymph node
  • weight loss
  • risk assessment
  • human health
  • body weight