Title page for ETD etd-02062001-154844

Type of Document Dissertation
Author Al-Taher, Hossam
Author's Email Address haltaher@vt.edu
URN etd-02062001-154844
Title Factors Affecting Mobility of Copper in Soil-Water Matrices
Degree PhD
Department Civil Engineering
Advisory Committee
Advisor Name Title
Dietrich, Andrea M. Committee Co-Chair
Novak, John T. Committee Co-Chair
Daniels, Walter Lee Committee Member
Gallagher, Daniel L. Committee Member
Hughes, John M. Committee Member
  • copper
  • mobility
  • soil
  • horizon
Date of Defense 2001-02-02
Availability unrestricted
Copper is applied to many crops as a fungicide/bactericide, including plasticulture tomato growing operations. Field tests have shown that copper is sometimes found in ground water near these fields. Therefore, a laboratory study was undertaken to determine if this copper can result from plasticulture application and to determine the mechanisms that account for the movement through soil to the subsurface. From the factors that may affect this mobility process; TOC, dryness and its temperature cycle and water content of the soil were selected for study. These factors were investigated in both batch and continuous flow (column) processes. Copper mobility through soil columns was associated with TOC mobility, and soil drying had a major effect on both copper and TOC mobility. The concentration of copper eluted from columns containing dried soils was up to 20 times higher from those containing wet soils. The extent of dryness was found to affect mobility. First-flush-pattern for both copper and TOC from the columns was observed in all columns studies.

In this research the copper mobility through the A- and B-horizon of Bojac sandy loam from the Eastern Shore of Virginia was studied. This study included both batch and column processes. The effects of pH, TOC and humic substances were investigated. The mobility of copper was found to be higher through A-horizon soil. The pH was found to have a considerable effect on the mobility of copper and TOC. The highest mobility of copper was achieved at pH 6.24 and its mobility through both soil horizons was associated with the mobility of TOC. A study of the humic substances indicated that fulvic acids had 4 times higher adsorption capacity for copper than humic acids. The association between fulvic acids and copper, coupled with the mobility of TOC and fulvic acids in the soil, accounted for transport of copper through soil columns.

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