Abstract
Phytoremediation offers owners and managers of metal-contaminated sites an innovative and cost-effective option to address recalcitrant environmental contaminants. The use of plants or plant products to restore or stabilize contaminated sites, collectively known as phytoremediation, takes advantage of the natural abilities of plants to take up, accumulate, store, or degrade organic and inorganic substances. Although not a new concept, phytoremediation is currently being re-examined as an environmentally friendly, cost-effective means of reducing metal contaminated soil and other substrates throughout North America and Europe. Processes include using plants that tolerate and accumulate metals at high levels (phytoextraction) and using plants that can grow under conditions that are toxic to other plants while preventing, for example, soil erosion (phytostabilization) [1]. Governments worldwide are establishing research and demonstration programs to use this potential [2-6]. Environment Canada has developed a database (PHYTOREM) of 775 plants with capabilities to accumulate or hyperaccumulate one or several of 19 key metallic elements. This chapter addresses key research, potential benefits and limitations, and the potential future needs for phytoremediation. Issues related to intellectual property law, commercialization and public acceptance are touched on.
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References
Raskin I, Ensley BT (2000) Phytoremediation of Toxic Metals-Using Plants to Clean Up the Environment, Wiley Inter-Science Publication, New York, NY, p ix
Vangronsveld J, Cunningham SD (1999) Metal-Contaminated Soils. In Situ Inactivation and Phytorestoration, Springer-Verlag, New York, NY
US EPA (2000) Introduction to Phytoremediation. EPA Document # EPA/600/R-99/107, U.S. Environmental Protection Agency Office of Research and Development, Washington, DC
US Department of Energy (2000) Proceedings from the Workshop on Phytoremediation of Inorganic Contaminants, Idaho National Engineering and Environmental Laboratory Document #INEEL/EXT-2000-00207, Idaho Falls, ID
Fiorenza S, Oubre CL, Ward H (2000) Phytoremediation of Hydrocarbon Contaminated Soil, Lewis Publishers, New York, NY
McIntyre TC (1996) A Survey to Determine Public Awareness, Perceptions, and Concerns Over Enhanced Environmental Applications of Biotechnology in Canada. Creative Research Inc., Ottawa, p 36
Henry JR (2000) An Overview of the Phytoremediation of Lead and Mercury, United States Environmental Protection Agency Office of Solid Waste and Emergency Response, Washington, DC
National Contaminated Sites Working Group (1998) Unpublished Manuscript, Federal Government Working Group on Contaminated Sites, Ottawa, Ontario
Chambers C, Winfield M (2000) Mining’s Many Faces, Canadian Institute for Environmental Law and Policy, Toronto, Ontario
Glass D (2000) The 2000 United States Market for Phytoremediation, D. Glass and Associates, Needham, MA
Ernst WH ( 1998) The Origin and Ecology of Contaminated, Stabilized and Non-Pristine Soils. In: Vangronsveld J, Cunningham SC (eds) Metal Contaminated Soils, In Situ Inactivation and Phytorestoration, Springer, Berlin Heidelberg New York, p 17
Seward MR, Richardson, DH (1990) In: Shaw AJ (ed) Heavy Metal Tolerance in Plants:Evolutionary Aspects, CRC Press, Boca Raton, FL, p 75
Lasat M (2000) The Use of Plants for the Removal of Toxic Metals from Contaminated Soils, Unpublished Manuscript from the US EPA, American Association for Advancement of Sciences Fellowship Program, p 34
Blaylock MJ, Huang JW (2000) Phytoextraction of Metals. In: Raskin I, Ensley B (eds) Phytoremediation of Toxic Metals. Wiley, New York, NY, p 53
US EPA (1997) Technology Alternatives for the Remediation of Soils Contaminated with As, Cd, Cr, Hg, and Pb. EPA Document #EPA/540/S-97/500. United States Environmental Protection Agency Office of Emergency and Remedial Response, Washington, DC
CCME (1997) Recommended Canadian Soil Quality Guidelines, CCME Document #PN1268. Canadian Council of Ministers of the Environment, Winnipeg, Manitoba
Medina VF, McCutcheon SC (1996) Remediation Winter:31
Chappell J (1998) Phytoremediation of TCE in Groundwater Using Populus, United States Environmental Protection Agency Office of Solid Waste and Emergency Response, Washington, DC
National Round Table on Environment and Economy (1998) Brownfields, Ministry of Supply and Services, Ottawa, Ontario
McIntyre TC (2001) PHYTOREM-A Global Data Base on Aquatic and Terrestrial Plants Known to Sequester, Accumulate, or Hyperaccumulate Metals in the Environment, Environment Canada, Ottawa, Ontario
Glass D (1998) The 1998 United States Market for Phytoremediation, D. Glass and Associates, Inc., Needham, MA
Salt D, Blaylock M, Kumar PB, Dushenkov V, Ensley BD, Chet I, Raskin L (1995) Bio/Technology 13:468
Saxena P (2001) Unpublished Manuscript on the Establishment of a Network of Centres of Excellence on Phytoremediation in Canada, University of Guelph, Ontario, Canada
Chaney RL, Brow SL, Li YM, Angle JS, Homer FA, Green CE (1995) Mining Environ Mgmt 3(3):9
Cornish JE, Goldberg WC, Levine RS, Benemann JR (1995) Phytoremediation of Soils Contaminated with Toxic Elements and Radionuclides. In: Hinchee RE, Means JL, Burns DR (eds) Bioremediation of Inorganics, Battelle Press, Columbus, OH, p 55
Moffat AS (1995) Science 269:302
Brown KS (1995) Bioscience 45:579
Kim YH, Yoo YJ, Lee, HY (1995) Biotechnol Letters 17:345
Wang TC, Weissman JC, Ramesh G, Varadarajan R, Benemann (1995) Bioremoval of Toxic Elements with Aquatic Plants and Algae. In: Hinchee RE, Anderson DB, Hoeppel RE (eds) Bioremediation of Recalcitrant Organics, Battelle Press, Columbus, OH, p 65
Wehrheim B, Weltern M (1994) Appl Microbial Biotechnol 41:725
Wilson MW, Edyvean RG ( 1995) Biosorption for the Removal of Heavy Metals from Industrial Wastewaters. In: Bousher A, Chandra M (eds) Biodeterioration and Biodegradation 9, Proceedings of the 9th International Biodeterioration and Biodegradation Symposium, Leeds, UK, Sept. 1993, p 47
Gardea-Torresdey JL, Bibb J, Tiemann KJ, Gonzalez JH, Arenas, J (1996) Adsorption of Copper Ions from Solution by Heavy Metal Stressed Larrea tridentata (Creosote Bush) Biomass, Proceedings of the HSRC/WERC Joint Conference on the Environment, Albuquerque, NM, Great Plains Rocky Mountain Hazardous Substances Research Centre
Dushenkov V, Kumar NP, Motto H, and Raskin I (1995) Environ Sci Technol 29:1239
Rugh CL, Wilde HD, Stack NM, Thompson DM, Summers AO, Meagher RB (1996) Proc Nat Acad Sci 93:3182
Vangronsveld J, Colpaert J, van Tichelen K (1996) Environ Pollut 94:131
Schnoor J, Licht LA, McCutcheon SC, Wolfe NL, Carreira LH (1995) Environ Sci Technol 29(7):318A
Black H (1995) Innovations 103(12):1106
Bosshard PB, Reinhard B, Brandl H (1996) Environ Sci Technol 30:3066
Phytotech (1996) The Wall Street Journal, February 29
Olson P, Fletcher J (2000) Unpublished Manuscript, Environ Sci Pollution Res
Brooks RR (1998) Plants that Hyperaccumulate Heavy Metals-Their Role in Phytoremediation, Microbiology, Archaeology, Mineral Exploration, and Phytomining, CAB International, New York, p 1
McCutcheon S (2000) Phytoremediation State of the Science Conference, Boston, MA
Gatcliff EG ( 1994) Remediation 4:343
Yaeck J (1997) An Investigation of the Process Required to Determine the Success of Phytoremediation, Unpublished Undergraduate Thesis-Faculty of Science, University of Waterloo, Ontario, Canada
Baker AJM, Brooks RR ( 1989) Biorecovery 1:81
Reilley KA, Banks MK, Schwab AP (1996) J Environ Qual 25:212
Harrington CF, Roberts DJ, Nickless G (1996) Can J Botany 74:1742
Winterhalder K (1996) Environ Rev4:185
Reeves RD, McFarlane RM, Brooks RR (1983) Am J Botany 70:1297
Boyd RS, Martens SN (1992) The Raison d’etre for Metal Hyperaccumulation by Plants. In: Baker AJM, Proctor J, Reeves RD (eds) The Ecology of Ultramafic (Serpentine) Soils, Intercept, Andover, p 279
Pollard JA, Baker AJM (1997) New Phytol 135:655
Borovik AS (1990) Characterization of Metal Ions in Biological Systems. In: Shaw AJ (ed) Heavy Metal Tolerance in Plants: Evolutionary Aspects, CRC Press, Boca Raton, FL,p3
US Department of Energy ( 1994) Summary Report of a Workshop on Phytoremediation Research Needs, Office of Technical Information, Springfield, VA
Sorenson DL, Sims RC, Qiu X (1994) Field Scale Evaluation of Grass Enhanced Bioremediation of PAH Contaminated Soils. 20th Annual RREL Research Symposium Abstract Proceedings, EPA Document #EPA/600/R-94/011, United States Environmental Protection Agency, Washington, DC, p 92
Schwab AP, Banks MK, Arunachalam M (1995) Biodegradation of Polycyclic Aromatic Hydrocarbons in Rhizosphere Soil. In: Hinchee RE, Anderson DB, Hoeppel RE (eds) Bioremediation of Recalcitrant Organics, Battelle Press, Columbus, OH
Cunningham SD, Berti W, Huang JW (1995) Remediation of Contaminated Soils and Sludges by Green Plants. In: Leeson A, Alleman BC (eds) Phytoremediation Proceedings of the 3rd International Conference on In Situ and On-Site Bioremediation, San Diego, CA,p33
Anderson TA, Guthrie EA, Wilson BT (1993) Environ Sci Technol 27:2630
Anderson TA, Kruger EL, Coats JR ( 1994) Chemosphere 28:1551
Berti WR, Cunningham SD ( 1997) Environ Sci Technol 31:1359
Kramer U, Cotter-Howells JD, Charnock JM, Baker AJM, Smith JAC (1996) Nature 379:635
Burken JG, Schnoor JL (1996) J Environ Engrg 122:958
Brooks RR, Morrison RR, Reeves RS, Malaisse F (1978) Plant and Soil 50:503
Brooks RR, Shaw S, Asensi MA (1981) Physiol Plant 51:167
Van Der Lelie D, Schwitzguebel JP, Glass D, Vangrosveld J, Baker A (2001) Environ Sci Technol, November 1, p 447A
Coghlan A (1996) New Scientist 17:17
Ruesink JL, Parker IM, Groom MJ, Kareiva PM ( 1996) BioScience 45(7):465
Office of Technology Assessment (1993) Harmful Non-Indigenous Species in the United States, US Government Printing Office Document #OTA-F-565, Washington, DC, p198
Keddy C (2000) The Role of Importation Control in Protecting Native Canadian Biodiversity-A Discussion Paper, Canadian Wildlife Service, Environment Canada, Ottawa, Ontario, p 9
Small E (1993) Can J Botany 71:1537
Keeler K, Turner C (1991) Management of Transgenic Plants in the Environment. In: Levin M, Strauss H (eds) Risk Assessment in Genetic Engineering:Environmental Release of Organisms, McGraw-Hill Inc, New York, NY
Lancaster J (1997) Alberta Native Plant Council Guidelines for Rare Plant Surveys, Alberta Native Plant Council, Alberta, Canada
Mack RN (1996) Biol Conservation 78:107
Tilman D (1997) Ecology 78(1):81
Fowler BA ( 1992) Environ Health Perspect 100:57
Leffler PE, Nyholm NE (1996) Ambio 25:417
Leggett RW (1989) Health Phys 57:365
Stein JH, Gottschall J, Osgood RW (1975) Kidney Int 8:27
Lock EA (1993) Responses of the Kidney to Toxic Compounds. In: Ballantyne B, Marrs T Turner P (eds), General and Applied Toxicology, vol 1. MacMillan, New York NY
Luckey TD, Venugopal B (1977) Metal Toxicity in Mammals. Plenum Press, New York, NY
Seiler HG, Sigel H, (1988) Handbook on Toxicity of Inorganic Compounds. Marcel Dekker, New York, NY
Babich H, Devanas MA, Stotkzy G (1985) Environ Res 37:253
O’Brien P, Kortenkamp A (1994) Environ Health Perspect 102(3):3
Kawanishi S, Inoue S, Yamamoto K (1994) Environ. Health Perspect 102:17–20
Stohs SJ, Bagchi D (1995) Free Rad Biol Medic 18:321–336
Arhar M, Abdulla M, Sultana S, Favier A (1993) J. Trace Elem Exper Med 6:65–73
Domingo, JL (1994) J Toxicol Environ Health 42:123–141
Bauchinger M, Schmid E, Einbrodt, J (1976) Mutat Res. 40:57–62
Anderson SL, Wild GC (1994) EnvironHealth Perspect 102:9–12
Hebert PD, Luiker MM (1996) Sci Total Environ 191:23–58
McBee K, Bickham JW (1998) Bull. Environ Contam Toxicol 40:343–349
Sileo L, Beyer WN (1985) J Wild Dis 21:289
Wren CD (1986) Environ Res 40:210
Sivertsen T, Daae HL, Godal A, Sand G (1995) Environ Pollut 90:75
Cloutier NR, Clulow TP, Lim TP, Dave NK (1985) Environ Pollut (Series B) 10:19
Hunter BA, Johnson MS (1982) Oikos 38:108
Sample BE, Opresko DM, Suter IIGW (1996) Toxicological Benchmarks for Wildlife: 1996 Revision, US Department of Energy Document #ES/ER/TM-86/R-3, Oak Ridge National Laboratory, Oak Ridge, TN
Sample BE, Aplin MS, Efroymson RA, Suter II GW (1997) Methods and Tools for Estimation of the Exposure of Terrestrial Wildlife to Contaminants, US Department of Energy Document #ORNL/TM-13391, Oak Ridge National Laboratory, Oak Ridge, TN
Glooschenko V, Downes C, Frank R (1988) Sci Total Environ 71:173
Kronberg B, Glooschenko V (1994) Alces 30:71
Charters DW, Christian JJ (1987) Indigenous Mammals as Indicators of Environmental Pollution and Potential Health Risk at Chemical Dumps. In: Saxena J (ed) Hazard Assessment of Chemicals, Vol. 5, Hemisphere Publishing Corporation, Washington, DC
McBee K, Lochmiller RL (1996) Ecotoxicity and Human Health, CRC Press, Boca Raton, FL
O’Brien DJ, Kaneene JB, Poppenga RH (1993) Environ Health Perspect 99:351
Carson B, Ellis HV, McCann JL ( 1986) Toxicology and Biological Monitoring of Metals in Humans, Lewis Publishers, Inc., Chelsea, MI
Gardea-Torresdey JL, Tang L, Salvador JM (1996) J Hazard Mat 48:191
Hrudy S, Pollard SJ (1993) Environ Rev 1:55
Alexander M (1999) Biodegradation and Bioremediation, 2nd edn. Academic Press, New York, NY
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McIntyre, T. (2003). Phytoremediation of Heavy Metals from Soils. In: Tsao, D.T. (eds) Phytoremediation. Advances in Biochemical Engineering/Biotechnology, vol 78. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45991-X_4
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