• Title/Summary/Keyword: Arsenic Respiratory Reductase Gene

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Application of Enzymatic Activity and Arsenic Respiratory Gene Quantification to Evaluate the Ecological Functional State of Stabilized Soils Nearby Closed Mines (안정화 처리된 폐광산 토양의 생태기능상태 평가를 위한 효소활성도 및 비소호흡유전자의 적용)

  • Park, Jae Eun;Lee, Byung-Tae;Lee, Sang Woo;Kim, Soon-Oh;Son, Ahjeong
    • Journal of Korean Society of Environmental Engineers
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    • v.39 no.5
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    • pp.265-276
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    • 2017
  • Heavy metals leaching from closed mines have been causing severe environmental problems in nearby soil ecosystems. Mine reclamation in Korea has been recently implemented based on the heavy metal immobilization (a.k.a., stabilization). Since the immobilization temporarily fixes the heavy metals to the soil matrix, the potential risk of heavy metal leaching still exists. Therefore the appropriate monitoring and the related policies are required to safeguard the soils, where all the cultivations occur. The current monitoring methods are based on either heavy metal concentration or simple toxicity test. Those methods, however, are fragmented and hence it is difficult to evaluate the site in an integrated manner. In this study, as the integrated approach, ecological functional state evaluation with a multivariate statistical tool was employed targeting physiochemical soil properties, heavy metal concentrations, microbial enzymatic activity, and arsenic respiratory reductase gene quantity. Total 60 soil samples obtained from three mines (Pungjeong, Jeomdong, Seosung) were analyzed. As a result, the stabilized layer soil and lower layer soil have shown the similar pattern in Pungjeong mine. In contrast, Jeomdong and Seosung mine have shown the similarity between the stabilized layer soil and the cover layer soil, indicating the possible contamination of the cover layer soil.