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Differential in vitro bioaccessibility of residual As in a field-aged former smelter site and its implication for potential risk

Cited 7 time in Web of Science Cited 8 time in Scopus
Authors

Jeong, Seulki; Moon, Hee Sun; Nam, Kyoungphile

Issue Date
2013-10
Publisher
Elsevier BV
Citation
Science of the Total Environment, Vol.463, pp.348-354
Abstract
Chemical forms of arsenic (As) present in a former smelter site were determined. A five-step sequential extraction showed that about 94.8 to 99.2% of total As concentration was found to be present as residual form, and interestingly some of the residual As seemed to be still bioaccessible, when determined with an in vitro bioaccessibility test. However, the extents of bioaccessible As greatly varied among the three soils tested. Soil B showed the highest bioaccessibility being 17.18 mg-As/kg (11.9%) followed by 12.71 (2.02%) and 14.03 mg-As/kg (0.64%) in soils C and A, respectively. When the residual As was treated with hydrofluoric acid (i.e., HF) 65.3 to 80.9 mg-As/kg was extracted and only 4.17 to 725% of the HF-extractable As was found to be bioaccessible. In contrast, when the residual As was treated with hydroperchloric acid (i.e., HClO4) only 5.64 to 8.01 mg-As/kg was recovered but 64.5 to 92.5% of the HClO4-extractable As was bioaccessible. The results suggest the presence of differential bioaccessibility of residual As, which apparently depends on the solid phase that As is associated with (i.e., organic matter or clay minerals). Of the As present as residual fraction, the As mainly bound to silicate mineral showed extremely low bioaccessibility and the As associated with refractory organic matter was highly bioaccessible. (C) 2013 Elsevier B.V. All rights reserved.
ISSN
0048-9697
URI
https://hdl.handle.net/10371/207563
DOI
https://doi.org/10.1016/j.scitotenv.2013.06.030
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  • College of Engineering
  • Department of Civil & Environmental Engineering
Research Area 지하수 및 토양오염, 환경공학

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