Bioremediation Implementation Practices
B5. Bioremediation of Heavy Metals
Title | Abstract or Paper PDF | Presentation PDF |
|---|---|---|
| Bioelectrochemical Systems for In Situ Treatment of Groundwater Contaminated by Hexavalent Chromium. L. Pedrali, G. Beretta, A. Mastorgio, S. Saponaro, and E. Sezenna. | View | View |
| In Situ Chemical Precipitation of Cobalt for Long-Term Groundwater Remediation. D. Williamson, B. Schroth, and G. Kiffe. | View | View |
| Biological Reduction of Chromate, Nitrate, Chlorate and Perchlorate in the Presence of High Levels of Salinity. N. Martin, S. Shrestha, J. Batista, A. Ayyaswami, and C. Lenker. | View | View |
| Arsenic Fate, Transport, and In Situ Bioremediation at a Large Former Industrial Site. G.A. Ulrich, K. Dean, G. Vondra, R. Palachek, K. Thompson, J. Shaw, S. Valvigi, and C. Bartlett. | View | View |
| Advances in the Use of Passive Treatment Systems for Treatment of Selenium-Impacted Minewater. J.S. Bays, R.C. Thomas, T. Harrison, and D. Evans. | View | |
| Analysis of Composition and Metabolic Potential of the Microbial Community for In Situ Bioremediation of a Long-Term Hexavalent Chromium-Polluted Site. F.A. Flores, V. Jiménez, P. Lara, and K. Juárez-López. | View | |
| Injection of Emulsified Vegetable Oil for Full-Scale In Situ Treatment of Hexavalent Chromium: Four Years Later. H. Holbrook and R. Mora. | View | |
| In Situ Bioremediation of Hexavalent Chromium, Perchlorate, and Chlorate in Saline Conditions: Bench-Scale Study to Field Implementation. C. Lenker, A. Ayyaswami, and J. Batista. | View | |
| Bioremediation Potentials of "Sheet-Flow" System Generated during Intrusion of Pristine Soil with Coal Mine-Derived AMD. S. Sharma, L. Sun, R. Mahanke, and J.M. Senko. | View |