Environmental Restoration

SERDP and ESTCP’s Environmental Restoration program area supports the development and demonstration of innovative technologies to characterize, remediate, and scientifically manage contaminants in soil, sediments, and ground, surface, and waste water.

Active Projects List
Project Title Start Date

Interaction of Microbial and Abiotic Processes in Soil Leading to the (Bio)Conversion and Ultimate Attenuation of New Insensitive Munitions Compounds

Project Information
Project ID: ER-2221
Principal Investigator: Dr. James A. Field, University of Arizona
SERDP Mar 2012

Combined Biological and Chemical Mechanisms for Degradation of Insensitive Munitions in the Presence of Alternate Explosives

Project Information
Project ID: ER-2222
Principal Investigator: Dr. Kevin Finneran, Clemson University
SERDP Mar 2012

Development of Environmental Health Criteria for Insensitive Munitions (IMX-101-104)

Project Information
Project ID: ER-2223
Principal Investigator: Dr. Mark Johnson, U.S. Army Institute of Public Health
SERDP Mar 2012

Molecular Microbiology of Nitroamine Degradation in Soils

Project Information
Project ID: ER-1608
Principal Investigator: Dr. Stuart Strand, University of Washington
SERDP Jan 2008

Development of Biomarkers for Assessing In Situ RDX Biodegradation Potential

Project Information
Project ID: ER-1606
Principal Investigator: Dr. Alison Cupples, Michigan State University
SERDP Jan 2008

Sustainable Range Management of RDX and TNT by Phytoremediation with Engineered Plants

Project Information
Project ID: ER-1498
Principal Investigator: Dr. Neil Bruce, University of York
SERDP Feb 2006

Lead and Antimony Speciation in Shooting Range Soils: Molecular Scale Analysis, Temporal Trends, and Mobility

Project Information
Project ID: ER-1770
Principal Investigator: Dr. Thomas Trainor, University of Alaska Fairbanks
SERDP Apr 2010

Antimony(V) Adsorption by Variable-Charge Minerals

Project Information
Project ID: ER-1741
Principal Investigator: Dr. Michael Essington, The University of Tennessee
SERDP Oct 2009

Defining Munitions Constituent Source Terms in Aquatic Environments on DoD Ranges

Project Information
Project ID: ER-1453
Principal Investigator: Mr. William Wild, SPAWAR Systems Center Pacific
SERDP Apr 2005

Evaluating the Efficacy of Bioaugmentation for In-Situ Treatment of PCB Impacted Sediments

Project Information
Project ID: ER-201215
Principal Investigator: Dr. Kevin Sowers, University of Maryland
ESTCP Mar 2012

Sediment Bioavailability Initiative: Development of Standard Methods and Approaches for the Use of Passive Samplers in Assessing and Managing Contaminated Sediments

Project Information
Project ID: ER-201216
Principal Investigator: Dr. Charles Menzie, Exponent Inc.
ESTCP Mar 2012

Demonstration of Fluorescent Magnetic Particles for Linking Sources to Sediments at DoD Sites

Project Information
Project ID: ER-201214
Principal Investigator: Dr. James Leather, SPAWAR Systems Center
ESTCP Mar 2012

Bioaugmentation for Aerobic Bioremediation of RDX-Contaminated Groundwater

Project Information
Project ID: ER-201207
Principal Investigator: Dr. Mandy Michalsen, U.S. Army Corps of Engineers
ESTCP Mar 2012

Electrokinetic-Enhanced (EK-Enhanced) Amendment Delivery for Remediation of Low Permeability and Heterogeneous Materials

Project Information
Project ID: ER-201325
Principal Investigator: Mr. Evan Cox, GeoSyntec Consultants
ESTCP Jan 2013

Contaminant Flux Reduction Barriers for Managing Difficult-to-Treat Source Zones in Unconsolidated Media

Project Information
Project ID: ER-201328
Principal Investigator: Dr. Charles Newell, GSI Environmental Inc.
ESTCP Jan 2013

Rapid Assessment of Remedial Effectiveness and Rebound in Fractured Bedrock

Project Information
Project ID: ER-201330
Principal Investigator: Dr. Charles Schaefer, Shaw Environmental, Inc.
ESTCP Jan 2013

In Situ Wetland Restoration Demonstration

Project Information
Project ID: ER-200825
Principal Investigator: Ms. Amy Hawkins, Naval Facilities Engineering Service Center (NFESC)
ESTCP Apr 2008

Evaluating the Efficacy of a Low-Impact Delivery System for In Situ Treatment of Sediments Contaminated with Methylmercury and Other Hydrophobic Chemicals

Project Information
Project ID: ER-200835
Principal Investigator: Dr. Charles Menzie, Exponent Inc.
ESTCP Apr 2008

Passive Polyethylene Sampling in Support of In Situ Remediation of Contaminated Sediments

Project Information
Project ID: ER-200915
Principal Investigator: Dr. Philip Gschwend, Massachusetts Institute of Technology
ESTCP Jan 2009

Demonstration of an In-Situ Friction-Sound Probe for Mapping Particle Size at Contaminated Sediment Sites

Project Information
Project ID: ER-200919
Principal Investigator: Dr. D. Bart Chadwick, SPAWAR
ESTCP Jan 2009