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Journal of Environmental Quality Abstract - Heavy Metals in the Environment

Speciation and Mobility of Arsenic in Agricultural Lime


This article in JEQ

  1. Vol. 38 No. 5, p. 2058-2069
    Received: Oct 6, 2008

    * Corresponding author(s): kersten@uni-mainz.de
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  1. Gerald T. Schmidtab,
  2. Ka Hei Luia and
  3. Michael Kersten *a
  1. a Environmental Geochemistry Group, Institute of Geosciences, Becherweg 21, Johannes Gutenberg-Univ., 55099 Mainz, Germany
    b present address: Karl Winnacker Institute, Dechema e.V., Theodor-Heuss-Allee 25, 60486 Frankfurt am Main, Germany


Agricultural liming materials are used to correct soil acidity and to improve plant growth and microbial functionality. A relatively low-grade agricultural lime was found to contain up to 125 mg kg−1 arsenic (As), which is above any fertilizing materials code threshold. The color of the milled material is brown due to ample oxide dendrites. Microprobe elemental maps confirmed that these accessory oxide mineral phases are responsible for the elevated As concentrations in the limestone. The black Mn-bearing dendrites contain minor amounts of As, whereas the brown Fe-bearing dendrites contain the major part of the As inventory, with an Fe/As molar ratio around 100. Because the elemental maps represent only a few sample regions of interest (ROI), the results are corroborated by a bulk five-step sequential extraction of the lime, which suggests that a majority of the As is bound to acid-reducible phases. Because repartitioning of the As oxyanion during extraction cannot be ruled out, X-ray absorption spectroscopy with micrometer resolution (μ-XAS) was used as a solid-state speciation analysis approach. The μ-XAS results at the Fe K-edge for the selected ROIs revealed the brown dendrites to consist of ferrihydrite and goethite, whereas those at the As K-edge revealed that the pentavalent As species arsenate predominates, with As-Fe distance and coordination indicating binding as a mononuclear inner-spheric adsorbate complex. Batch experiments with soil exposed to submerged conditions of up to 41 d revealed a negligible As release rate from the lime (approximately 40 ng kg−1 d−1). The results of this study corroborate regulatory codes that set the permissible As content in agricultural lime relative to the respective Fe content.

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Copyright © 2009. American Society of Agronomy, Crop Science Society of America, Soil Science SocietyAmerican Society of Agronomy, Crop Science Society of America, and Soil Science Society of America