Flume studies on resuspension of contaminated sediments

Ravisangar, Vasuthevan

12 1900

No description available.

Contaminated sediments

The fate and behaviour of polycyclic aromatic hydrocarbons (PAHs) in soils - implications for microbial function

Macleod, Christopher J. A.

January 2001

No description available.

631

Contaminated land

Interactions between lead and phosphate : soil chemistry, plant uptake and ecological implications

Macpherson, Stuart Alexander

January 1995

No description available.

631.4

Lead contaminated land

Characterization of the bacterial diversity of a former tar works site and its indigenous degradation potential

Goerres, Heike

January 2001

No description available.

628.44

Contaminated land; Bioremediation

Study of polycyclic armomatic hydrocarbon (PAH)-degrading microbial communities

Stach, James Edward Morgan

January 2001

No description available.

628

Contaminated soil

Remediation of brine-contaminated soil using calcium nitrate, gypsum, and straw

Nielsen, Jennifer I.

23 April 2013

Salt-affected soils from point source brine contamination are common in the active oil field in SE Saskatchewan. A remediation process that included dewatering by sub-surface tile drains, application of surface amendments (calcium nitrate and straw), and growing forages has been successful but not previously examined. In a field study of two remediation sites, the changes in vegetation, soil salinity, and groundwater were assessed using geo-referenced electromagnetic (EM) maps (EM38h, EM38v, and EM31v), piezometers, and soil sampling. A laboratory soil core leaching experiment studied the effect of gypsum, calcium nitrate, and straw at various rates on the remediation of a brine-contaminated soil. All treatments including the control reduced the electrical conductivity (EC) to non-saline values (<4 dS m-1). The sodium adsorption ratio (SAR) was reduced to <13 with the high rates of gypsum and calcium nitrate. The fastest and most effective treatments were comprised of all rates of gypsum and the highest rate of calcium nitrate.

remediation

brine-contaminated

Remediation of brine-contaminated soil using calcium nitrate, gypsum, and straw

Nielsen, Jennifer I.

23 April 2013

Salt-affected soils from point source brine contamination are common in the active oil field in SE Saskatchewan. A remediation process that included dewatering by sub-surface tile drains, application of surface amendments (calcium nitrate and straw), and growing forages has been successful but not previously examined. In a field study of two remediation sites, the changes in vegetation, soil salinity, and groundwater were assessed using geo-referenced electromagnetic (EM) maps (EM38h, EM38v, and EM31v), piezometers, and soil sampling. A laboratory soil core leaching experiment studied the effect of gypsum, calcium nitrate, and straw at various rates on the remediation of a brine-contaminated soil. All treatments including the control reduced the electrical conductivity (EC) to non-saline values (<4 dS m-1). The sodium adsorption ratio (SAR) was reduced to <13 with the high rates of gypsum and calcium nitrate. The fastest and most effective treatments were comprised of all rates of gypsum and the highest rate of calcium nitrate.

remediation

brine-contaminated

Non cultural detection of Campylobacter

Hill, Helena Anne

January 1999

No description available.

664

Contaminated food

Subsurface colloids stability, sampling, and transport under gravitational and centrifugal accelerations /

Czigány, Szabolcs,

January 2004

Thesis (Ph. D.)--Washington State University. / Includes bibliographical references.

Colloids. Contaminated sediments

In situ capping of contaminated sediments

Himmelheber, David Whims.

January 2007

Thesis (M. S.)--Civil and Environmental Engineering, Georgia Institute of Technology, 2008. / Committee Co-Chair: Joseph B. Hughes; Committee Co-Chair: Kurt D. Pennell; Committee Member: Danny D. Reible; Committee Member: Frank E. Loeffler; Committee Member: Jim C. Spain; Committee Member: Martial Taillefert; Committee Member: Terry W. Sturm.

Biogeochemistry. Contaminated sediments.