Phytotechnologies for Environmental Restoration and Management Micah Beard, M.S. Shaw Environmental, Inc.
Phytoremediation The use of plants to degrade, extract, contain, or immobilize contaminants in soil, sediment, groundwater, or surface water. Phytotechnology Technical & Regulatory Guidance Document – Interstate Technology and Regulatory Cooperation
Phytotechnologies can be applied either in situ or ex situ and include: Phytostabilization, erosion, and leachate control Degradation/ Detoxification Phytovolatilization Constructed and Natural Wetlands for Treatment of Surface Water Phytoextraction: Heavy metal and radio nuclide accumulation Rhizodegradation & Rhizofiltration Rhizodegradation, & Contaminant Uptake Hydraulic control: Plume containment Chemical Phytostabilization
Stabilization of contaminated soils in place by vegetation, and immobilization (physically or chemically) of contaminants Source: ITRC, 2001
Phytostabilization Advantages Reduction in erosion potential (wind, soil, runoff, leaching) Low Cost / Less Disruptive No removal or disposal Drawbacks Effects limited to immediate area of the plantings Long term maintenance / monitoring
Rhizodegradation The breakdown of contaminants in the soil through the bioactivity that exists in the rhizosphere Bacteria, Yeasts, Fungi Source: ITRC, 2001
Rhizodegradation Advantages Positive affects on soil microbe populations Natural or created wetlands Low Cost Release to air less likely Drawbacks Effects can be limited to the immediate area of the plantings Time Long term maintenance / monitoring
Phytodegradation Uptake of organic contaminants with the subsequent transformation in the plant’s roots, stems, and leaves. Source: ITRC, 2001
Phytodegradation Advantages Contaminants removed from soil No residuals management Either metabolized or degraded Low cost Drawbacks Difficult to separate from phytovolatilization Possible toxic daughter products
Phytovolatilization Translocation of dissolved contaminants into plant leaves followed by transpiration to the atmosphere. Source: ITRC, 2001
Phytovolatilization Advantages Contaminants removed from soil Transformed to less toxic products No residuals management Drawbacks Moving problem from one media to another Possible air monitoring
Phytoextraction Translocation of soil contaminants to above ground stems and leaves. Source: ITRC, 2001
Phytoextraction Advantages Contaminants removed from soil Translocation to above ground plant parts allows harvesting Reduced disposal costs Drawbacks Above ground plant residues must be managed Must properly dispose
Rhizofiltration Sorption, concentration, and/or precipitation of contaminants from surface waters or groundwater Source: ITRC, 2001
Rhizofiltration Advantages Stream treatment can occur above ground Not limited by site location Drawbacks Applicable to aqueous phase contamination Requires engineered system (influent) Requires monitoring Must be properly disposed
Hydraulic Control Uptake and consumption of groundwater in order to contain or control the migration of contaminants. Source: ITRC, 2001
Hydraulic Control Advantages Extracted water is respired by plants No treatment required Drawbacks Hydraulic control by plants is seasonal Limited primarily to rooting zone Time and space
Site Evaluation and Phytoremediation Design Conduct typical site assessment Develop conceptual phytoremediation design Evaluate Phytoremediation design vs. traditional remedial alternatives Costs Bench scale or pilot scale evaluation of selected phytoremediation approach Field implementation/planting Monitoring and reporting
Technology Limitations Root contact with contaminant - Plant roots must be able to extend to the depth of contaminant or contaminant must be moved to the root zone. Growth rate of plants – Time (months to years) required for plants to reach maturity. Contaminant concentration – Free product concentrations toxic to plants. Unfavorable site conditions – Dense clays, salts, pH or dry conditions not conducive to plant growth. Ecological risks – Plants may present new exposure pathway for humans and other local organisms
Technology Limitations -continued. Space concerns – Is space or area available for design/implementation? Waste production - If wastes are produced can they effectively be disposed? Mechanism of contaminant remediation – will COC be accumulated within plant tissue or volatilized?
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