4.8. PhytoremediationPolygonum sach

4.8. Phytoremediation
Polygonum sachalase and Alyssim have the capability to accumulate cadmium, copper, lead, nickel and zinc and can be therefore be considered as an indirect method of treating contaminated soils (Baker et al., 1991). This method is limited to shallow depths of contamination. Rhizofiltration, the adsorption by plant biomass, can be used to remediate
metal- contaminated groundwater. Phytoextraction involves uptake of metals by trees, herbs, grasses and crops and can be used for soil treatment. Phytostabilization is a process to excrete components from the plants to decrease the soil pH and form metal complexes. The plants will have to be isolated from wildlife and agri- cultural lands. The climatic conditions and bio- availability of the metals must be taken into consideration when using this method. Once con- taminated, the plants will have to be disposed of in an appropriate fashion. Some techniques include drying, incineration, gasification, pyrolysis, acid extractions, anaerobic digestion, extraction of the oil, chlorophyll fibers from the plants (Bolenz et al., 1990) or disposal since plants are easier to dispose of than soil. Phytoremediation will be most applicable to shallow soils with low levels of contamination (2.5- 100 mg/kg) for polishing. Phytoremediation field demonstrations (Fig. 4) are summarized in Table 2. The main disadvantage of this method is that longer times are required compared to other methods. More research is needed to enhance the extraction of the metals by the plants through genetic breeding or other methods and how to correlate bioavailability with metal uptake. Crop plants that grow fast may be viable for phytoremediation.