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This article in JEQ

  1. Vol. 33 No. 1, p. 181-191
     
    Received: Mar 18, 2003
    Published: Jan, 2004


    * Corresponding author(s): nicholas.jarvis@mv.slu.se
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doi:10.2134/jeq2004.1810

Modeling Organic Carbon Dynamics and Cadmium Fate in Long-Term Sludge-Amended Soil

  1. Petra Bergkvist and
  2. Nicholas Jarvis *
  1. Department of Soil Sciences, SLU, Box 7014, 750 07 Uppsala, Sweden

Abstract

A model is described that may help to resolve uncertainty and controversy over the long-term consequences of sludge applications to arable land, especially with regard to the effects of sludge adsorption characteristics on trace metal solubility and bioavailability (e.g., the sludge “time bomb” or sludge “protection” hypotheses). Mass balances of organic and inorganic material derived from sludge and crop residues are simulated. Each pool has a potentially different adsorption affinity for trace metals, and this leads to changes in the adsorption capacity of sludge-amended soil that influence leaching and crop uptake. Model simulations were compared with measured changes in organic carbon and ethylenediaminetetraacetic acid (EDTA)-extractable cadmium contents in a clay loam soil following 41 years of sludge applications. The model adequately reproduced the data, although discrepancies in the vertical distribution of Cd were attributed to the effects of macropore transport and root-uptake driven recirculation. A Monte Carlo sensitivity analysis demonstrated that the most important parameters affecting leaching and crop uptake were the Cd loading and parameters controlling adsorption, especially the partition coefficient for sludge-derived inorganic material and the exponent regulating the effect of pH on sorption. Scenario simulations show that no general conclusions can be drawn with respect to the validity of the sludge “time bomb” and sludge “protection” hypotheses. Either may occur, or neither, depending on three key system parameters: the ratio of sludge adsorption capacity to the initial adsorption capacity of the soil, the proportion of the sludge adsorption capacity contributed by the inorganic fraction, and the sludge Cd loading.

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Copyright © 2004. American Society of Agronomy, Crop Science Society of America, Soil Science SocietyASA, CSSA, SSSA

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