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The Phytoremediation Resource Matrix
displays summary information on references listed in the Abstracts
section of the Guide with the exception of publications containing multiple
papers. Both the Matrix and Abstracts sections are organized
using the same contaminant- based categories. Internet Resources are listed in
a separate matrix following printed references. The first column of the
Matrix displays the document title, ordering number (when applicable),
and page number of the full abstract in the Abstracts section. The
second column (Technology Type) lists the technologies that the article
addresses. Definitions for these technologies can be found in the Technology
Summary on page vii. Column three denotes the media treated, and column four
denotes the contaminants treated. |
| The 1998 United States Market for
Phytoremediation [1] |
Unspecified |
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| The Advancement of
Phytoremediation as an Innovative Environmental Technology for Stabilization,
Remediation, or Restoration of Contaminated Sites in Canada: A Discussion Paper
[2] |
Unspecified |
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| Bioremediation and Phytoremediation
Glossary [2] |
Unspecified |
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A Citizen's Guide to Phytoremediation
[2]
EPA 542-F-98-011 |
Unspecified |
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Compost-Enhanced Phytoremediation of
Contaminated Soil [2]
EPA 530-R-98-008 |
Unspecified |
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| Introduction to Phytoremediation [2] |
Unspecified |
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Legal and Social Concerns to the
Development of Bioremediation Technologies [3]
DE96015254 |
Unspecified |
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Phytoremediation [3]
EPA
625-K-96-001 |
Unspecified |
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| Phytoremediation [3] |
Unspecified |
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| Phytoremediation: A Clean Transition from
Laboratory to Marketplace? [3] |
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| Phytoremediation: A New Technology Gets
Ready to Bloom [3] |
Unspecified |
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| Phytoremediation Bibliography [4] |
Unspecified |
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| Phytoremediation Field Demonstrations in
the U.S. EPA SITE Program [4] |
Phytoextraction |
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| Phytoremediation: It Grows on You [4] |
Unspecified |
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| Phytoremediation on the Brink of
Commercialization [4] |
Unspecified |
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| Phytoremediation: Technology Overview
Report [5] |
Unspecified |
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| Phytoremediation: Using Green Plants to
Clean Up Contaminated Soil, Groundwater, and Wastewater [5] |
Phytostabilization |
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| Remediation Technologies Screening Matrix
and Reference Guide [5] |
Unspecified |
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| Stemming the Toxic Tide [5] |
Phytoextraction |
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| Technology Evaluation Report:
Phytoremediation [6] |
Unspecified |
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Using Phytoremediation to Clean Up
Contamination at Military Installations [6]
DE97007971 |
Unspecified |
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| Overviews |
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| Mechanisms of Phytoremediation:
Biochemical and Ecological Interactions Between Plants and Bacteria [7] |
Rhizodegradation |
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| Phytoremediation of TCE in Groundwater
Using Populus [8] |
Phytodegradation Phytovolatilization |
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| Field Studies and Demonstrations |
| Demonstration Plan for Phytoremediation of
Explosive-Contaminated Groundwater in Constructed Wetlands at Milan Army
Ammunition Plant, Milan, Tennessee. Volumes 1 and 2. Final Report [8]
ADA311121/8/XAB, ADA311122/6/XAB |
Phytodegradation |
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Evaluation of Various Organic Fertilizer
Substrates and Hydraulic Retention Times for Enhancing Anaerobic Degradation of
Explosives-Contaminated Groundwater While Using Constructed Wetlands at the
Milan Army Ammunition Plant, Milan, Tennessee [8]
ADA349293 |
Phytodegradation |
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| Field Scale Evaluation of Grass-Enhanced
Bioremediation of PAH Contaminated Soils [8] |
Rhizodegradation |
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| Friendly Forests [9] |
Phytostabilization Phytodegradation
Rhizodegradation |
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| Groundwater Phytoremediation
Test Facility, University of Washington [9] |
Rhizofiltration |
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| Phreatophyte Influence on Reductive
Dechlorination in a Shallow Aquifer Containing TCE [9] |
Rhizodegradation |
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| Phytoremediation of Dissolved-Phase
Trichloroethylene Using Mature Vegetation [10] |
Phytovolatilization |
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| Phytoremediation of Groundwater at Avesta
Sheffield Pipe [10] |
Unspecified |
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| Phytoremediation of Organic and Nutrient
Contaminants [10] |
Phytodegradation |
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| Pilot-Scale Use of Trees to Address VOC
Contamination [10] |
Phytodegradation |
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Screening of Aquatic and Wetland Plant
Species for Phytoremediation of Explosives-Contaminated Groundwater from the
Iowa Army Ammunition Plant. Final Report [10]
ADA322455/7/XAB |
Phytodegradation |
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| Screening Submersed Plant Species for
Phytoremediation of Explosives-Contaminated Groundwater from the Milan Army
Ammunition Plant, Milan, Tennessee. Final Report [11] |
Phytodegradation |
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| Research |
| Adsorption of Naphthalene onto Plant Roots
[11] |
Phytostabilization |
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| Aromatic Nitroreduction of Acifluorfen in
Soils Rhizospheres and Pure Cultures of Rhizobacteria [11] |
Rhizodegradation |
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| Bacterial Inoculants of Forage Grasses
that Enhance Degradation of 2-Chlorobenzoic Acid in Soil [11] |
Rhizodegradation |
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| Bioremediation Bacteria to Protect Plants
in Pentachlorophenol-Contaminated Soil [12] |
Rhizodegradation |
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| Decreased Transpiration in Popular Trees
Exposed to 2,4,6-Trinitrotoluene [12] |
Phytovolatilization |
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| Degradation of Polychlorinated Biphenyls
by Hairy Root Culture of Solanum nigrum [12] |
Phytodegradation |
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| Detoxification of Phenol by the Aquatic
Angiosperm, Lemna gibba [12] |
Phytodegradation |
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| Effect of Hybrid Poplar Trees on Microbial
Populations Important to Hazardous Waste Bioremediation [13] |
Rhizodegradation |
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| Effects of Ryegrass on Biodegradation of
Hydrocarbons in Soil [13] |
Rhizodegradation |
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| A Field Facility for Phytoremediation
Research [13] |
Phytodegradation |
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| Greenhouse Evaluation of Agronomic and
Crude Oil-Phytoremediation Potential Among Alfalfa Genotypes [13] |
Phytodegradation |
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| The Influence of Planting and Soil
Characteristics on Mineralization of 2,4,5-T in Rhizosphere Soil [14] |
Rhizodegradation |
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| Mineralization of 2,4-Dichlorophenol by
Ectomycorrhizal Fungi in Axenic Culture and in Symbiosis with Pine [14] |
Rhizodegradation |
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| Phytoremediation Experimentation with the
Herbicide Bentazon [14] |
Phytodegradation |
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| Phytoremediation: Modeling Removal of TNT
and Its Breakdown Products [14] |
Phytodegradation |
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| Phytoremediation of 1,4-dioxane by Hybrid
Poplars [14] |
Phytovolatilization Rhizodegradation |
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| Phytoremediation of Hazardous Wastes
[15] |
Phytodegradation |
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| Phytoremediation of Organic Contaminants:
A Review of Phytoremediation Research at the University of Washington [15] |
Phytodegradation |
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| Phytoremediation of Pesticide-Contaminated
Soils [15] |
Rhizodegradation |
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| Phytoremediation of Trichloroethylene with
Hybrid Poplars [16] |
Rhizofiltration |
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| Phytoremediation, Plant Uptake of Atrazine
and Role of Root Exudates [16] |
Rhizodegradation |
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| Phytotreatment of TNT-Contaminated
Groundwater [16] |
Phytodegradation |
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| Plant Cell Biodegradation of a Xenobiotic
Nitrate Ester, Nitroglycerin I [16] |
Phytodegradation |
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| Plant-Enhanced Remediation of Petroleum
Contaminated Soil [17] |
Phytodegradation
Rhizodegradation |
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| Plant-Enhanced Subsurface Bioremediation
of Nonvolatile Hydrocarbons [17] |
Rhizodegradation |
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| Potential of Phytoremediation as a Means
for Habitat Restoration and Cleanup of Petroleum Contaminated Wetlands
[17] |
Phytodegradation |
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| Rhizosphere Microbial Populations in
Contaminated Soils [17] |
Rhizodegradation |
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| Transformation of TNT by Aquatic Plants
and Plant Tissue Cultures [18] |
Phytodegradation |
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| Uptake and Fate of Organohalogens from
Contaminated Groundwater in Wood Plants [18] |
Phytodegradation
Phytovolatilization |
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| Overviews |
| Emerging Technologies for the Remediation
of Metals in Soils: Phytoremediation [18] |
Unspecified |
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| Literature Review: Phytoaccumulation of
Chromium, Uranium, Plutonium in Plant Systems [19] |
Phytoextraction |
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| Remediation of Metal-Contaminated Sites
Using Plants [19] |
Phytoextraction |
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| Restoration of Mined Lands—Using
Natural Processes [19] |
Unspecified |
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Status of In Situ Phytoremediation
Technology [19]
EPA 542-R-97-004 |
Phytoextraction Phytostabilization Rhizofiltration
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| Field Studies and Demonstrations |
| Phytoaccumulation of Trace Elements by
Wetlands Plants: I. Duckweed [20] |
Phytoextraction |
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| Relationship Between Sulfur Speciation in
Soils and Plant Availability [20] |
Phytoextraction |
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| Removal of Uranium from Water Using
Terrestrial Plants [20] |
Rhizofiltration |
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| Research |
| Differences in Root Uptake of Radiocesium
by 30 Plant Taxa [20] |
Phytoextraction |
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| Enhanced Accumulation of Pb in Indian
Mustard by Soil-Applied Chelating Agents [21] |
Phytoextraction |
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| Evaluation of Tamarisk and Eucalyptus
Transpiration for the Application of Phytoremediation [21] |
Phytoextraction |
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| Feasibility of Using Plants to Assist in
the Remediation of Heavy Metal Contamination at J-Field, Aberdeen Proving
Ground, Maryland. Final Report [21] |
Phytoextraction |
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| Lead-Contaminated Sediments Prove
Susceptible to Phytoremediation [21] |
Phytoextraction |
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| Lead Uptake and Effects on Seed
Germination and Plant Growth in a Pb Hyperaccumulator Brassica pekinensis
Rupr. [22] |
Phytoextraction |
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| Metal Accumulation by Aquacultured
Seedlings of Indian Mustard [22] |
Phytoextraction |
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| Phytoextraction of Cadmium and Zinc from a
Contaminated Soil [22] |
Phytoextraction |
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| Phytoextraction of Zinc by Oat (Avena
sativa), Barley (Hordeum vulgare), and Indian Mustard (Brassica
juncea) [23] |
Phytoextraction |
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| Phytoextraction: the Use of Plants to
Remove Heavy Metals from Soils [23] |
Phytoextraction |
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| Phytofiltration of Hazardous Cadmium,
Chromium, Lead and Zinc Ions by Biomass of Medicago sativa (Alfalfa)
[23] |
Rhizofiltration |
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| Phytoremediation of a
Radiocesium-Contaminated Soil: Evaluation of Cesium137 Bioaccumulation in the Shoots of Three Plant Species
[23] |
Phytoextraction |
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| Phytoremediation of Lead-Contaminated
Soils: Role of Synthetic Chelates in Lead Phytoextraction [24] |
Phytoextraction |
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| Phytoremediation of Selenium Laden Soils:
A New Technology [24] |
Phytoextraction |
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| Phytoremediation of Uranium-Contaminated
Soils: Role of Organic Acids in Triggering Uranium Hyperaccumulation in Plants
[24] |
Phytoextraction |
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| Potential for Phytoextraction of
137Cs from a Contaminated Soil [25] |
Phytoextraction |
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| Potential Remediation of 137Cs and 90Sr
Contaminated Soil by Accumulation in Alamo Switchgrass [25] |
Phytoextraction |
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| Rhizofiltration: the Use of Plants to
Remove Heavy Metals from Aqueous Streams [25] |
Rhizofiltration |
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| The Role of EDTA in Pb Transport and
Accumulation by Indian Mustard [25] |
Phytoextraction |
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| A Search for Lead Hyperaccumulating Plants
in the Laboratory [26] |
Rhizofiltration
Phytoextraction |
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| Selenium Accumulation by Brassica Napus
Grown in Se-laden Soil from Different Depths of Kersterson Reservoir
[26] |
Phytoextraction |
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|
Test Plan for the Phytoremediation Studies
of Lead-Contaminated Soil from the Sunflower Army Ammunition Plant, Desoto,
Kansas. Vol. 1 and Vol. 2 [26]
ADA342667, ADA342668 |
Phytoextraction |
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| Toxicity of Zinc and Copper to
Brassica Species: Implications for Phytoremediation [26] |
Phytoextraction
Phytostabilization |
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| Toxic Mercury Reduction and Remediation
Using Transgenic Plants with a Modified Bacterial Gene [27] |
Phytoextraction
Phytostabilization |
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| Zinc and Cadmium Accumulation in the
Hyperaccumulator Thlaspi Caerulescens in Response to Limestone and
Compost Applications to a Heavy Metal Contaminated Site in Palmerton,
Pennsylvania [27] |
Phytoextraction |
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