Background: Although the presence of ytterbium (Yb) in topsoils from Leicester city (UK) could represent some risks for the population, consuming wild edible mushrooms species would not represent a risk. The aim of this study was to elucidate past air contamination with Yb using tree bark.
Methods: Thin layers of bark were collected from 96 trees in Leicester (n=55) and surrounding rural/suburban areas (41) at 1.50–1.80 metres from the ground. Yb was monitored by ICP-MS in cleaned/ground/homogenised samples mineralised with HNO3/H2O2 [LoD=0.075 ng/g dry weight (dw)].
Results: The levels of Yb in the tree bark samples were similar when comparing both main areas, i.e., urban versus rural (median and ranges, in ng/g dw): 1.205 (0.375-12.146) vs. 1.206 (0.672-4.731). However, some samples collected from trees monitored across the urban area showed the highest content of Yb. The trees that grow in these locations might indicate areas of pollution within the city, which should be further investigated for levels of atmospheric particulate matter and their Yb composition. These results correlate with previous studies performed on 106 wild mushrooms and 850 topsoils collected from the same areas; thus, although the levels of Yb were slightly higher in mushrooms and topsoils collected in the rural areas, these were non-significant (p-value=0.723), suggesting similar potential sources of Yb throughout Leicestershire. Levels were slightly higher than the range reported in bark samples from Pinus ponderosa trees growing in an area with an inactive open-pit uranium mine in eastern Washington (US; 0.37-3.85 ng/g dw), suggesting some atmospheric contamination of Yb in Leicester city and surrounding areas.
Conclusions: Although Yb is described as having low toxicity, the levels found in the trees monitored suggest some anthropic pollution of Yb in Leicester city that should be further investigated to identify potential risks to human health.
