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Concentration of Arsenic in Rice Plants and Paddy Soils in the Vicinity of Abandoned Zinc Mine  

Kim, Chan-Yong (KyoungBuk Agriculture Technology Administration)
Park, Man (Dept. of Agricultural Chemistry, KyungBuk National University)
Lee, Dong-Hoon (Dept. of Agricultural Chemistry, KyungBuk National University)
Choi, Choong-Lyeal (Dept. of Agricultural Chemistry, KyungBuk National University)
Kim, Kwang-Seop (Dept. of Agricultural Chemistry, KyungBuk National University)
Choi, Jung (Dept. of Agricultural Chemistry, KyungBuk National University)
Seo, Young-Jin (KyoungBuk Agriculture Technology Administration)
Publication Information
Applied Biological Chemistry / v.45, no.3, 2002 , pp. 152-156 More about this Journal
Abstract
Soils near abandoned zinc mines were known to be contaminated with arsenic-rich mining by-products. To examine the potential impacts of arsenic- contaminated soils on plant growth, surface soils were subjected to sequential extraction. Results revealed that 54% and 74% total As and 74% total extractable As were bound to iron hydrous oxide, and water soluble fraction was below detection limit. Arsenic faction extracted using the Koran standard method(dissolution of metals via treatment of 1 N HCI) was strongly correlated with the Fe-bound As fraction ($r^2=0.884**$). Arsenic level in rice plant roots was the highest with a maximum value of 154.9 mg/kg, whereas it was below 0.6 mg/kg in grains. Arsenic level in rice plant roots was strongly correlated with those of Al-bound As ($r^2=0.821**$) and 1N HCI-extractable As levels ($r^2=0.801**$).
Keywords
arsenic; sequential extraction; mine; rice;
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