Phytoremediation Bibliography

[A] [B] [C] [D] [E] [F] [G] [H] [I] [J] [K] [L] [M] [N] [O] [P] [Q] [R] [S] [T] [U] [V] [W] [X] [Y] [Z]

  • Cameron, R.E., and J.J. van Ee. 1992. Guide to site and soil description for hazardous waste site characterization, Volume 1: Metals. USEPA. EPA/600/4-91/029.

  • Cannon, H.L. 1960. Botanical prospecting for ore deposits. Science. 132:591-598.

  • Cannon, G.C., G.G. Martin, and C.L. McCormick. 1995. Poster Abstract: Purification and characterization of hydrophobins and schizophyllan from Schizophyllum commune for potential use in controlled release and/or waste-water remediation. p. 107. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Carbonell, A.A., M.A. Aarabi, R.D. DeLaune, R.P. Gambrell, and W.H. Patrick, Jr. 1998. Bioavailability and uptake of arsenic by wetland vegetation: Effects on plant growth and nutrition. J. Environ. Sci. Health, A33(1):45-66.

  • Carey, J. 1996. Can flowers cleanse the Earth? Business Week. February 19.

  • Carlson, C.L., D.C. Adriano, K.S. Sajwan, S.L. Abels, D.P. Thoma, and J.T. Driver. 1991. Effects of selected trace metals on germinating seeds of six plant species. Water Air Soil Pollut. 59:231.

  • Carman, E.P. 1997. Using phytoremediation to address fuel oil contaminated soil at an active industrial facility - A low cost, non-invasive, in-situ alternative. IBC's Second Annual Conference on Phytoremediation, June 18-19, 1997, Seattle, WA. International Business Communications, Southborough, MA.

  • Carman, E.P., T.L. Crossman, and E.G. Gatliff. 1997. Phytoremediation of fuel oil-contaminated soil. Fourth International In Situ and On-Site Bioremediation Symposium. April 28 - May 1, 1997, New Orleans, LA. 3:347-352.

  • Carman, E.P. 1997. Using phytoremediation to address fuel oil contaminated soils. In P.T. Kostecki and E.J. Calabrese (eds.), 12th Annual Conference on Contaminated Soils - Analysis, Site Assessment, Fate, Environmental and Human Risk Assessment, Remediation and Regulation, October 20-23, 1997, Amherst, MA. Environmental Health Sciences Program, School of Public Health, University of Massachusetts, Amherst, MA.

  • Carman, E.P., T.L. Crossman, and E.G. Gatliff. 1998. Trees stimulate remediation at fuel oil contaminated site. Soil & Groundwater Cleanup. February/March 1998

  • Carman, E.P., T.L. Crossman, and E.G. Gatliff. 1998. Using Phytoremediation to Address Contaminated Soil at an Active Facility in Wisconsin - An Update. 14th Annual Conference on Contaminated Soils. October 1998. University of Massachusetts at Amherst, Amherst, MA.

  • Carman, E.P., T.L. Crossman, and E.G. Gatliff. 1998. Phytoremediation of No. 2 Fuel Oil-Contaminated Soil. Journal of Soil Contamination. 7 (4): 455-466, July 1998.

  • Carr, R.H. 1919. Vegetative growth in soils containing crude petroleum. Soil Sci. 8:67-68.

  • Carreira, L.H. 1996. Abstract: Enzymology of degradation pathways for TNT. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Carreira, L.H. 1997. The use of antibody assays to predict plants capable of phytoremediation of nitroaromatics. IBC's Second Annual Conference on Phytoremediation, June 18 - 19, 1997, Seattle, WA. International Business Communications, Southborough, MA.

  • Cary, E.E., and W.H. Allaway. 1973. Selenium content of field crops grown on selenite-treated soils. Agron. J. 65:922-925.

  • Chaffin, C.T., L.C. Davis, L.E. Erickson, W.G. Fateley, R.M. Hammaker, R.M. Hoffman, R. Green, M. Jesch, V.D. Makepeace, T.L. Marshall, and N. Muralidharan. 1995. Poster Abstract: Monitoring fluxes through plants by use of fourier transform infrared spectrometry (FT-IR). p. 102. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Chaineau, C.-H., J.L. Morel, and J. Oudot. 1996. Biodegradation of fuel oil hydrocarbons in the rhizosphere of maize. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Chaineau, C.H., J.L. Morel, and J. Oudot. 1997. Phytotoxicity and Plant Uptake of Fuel Oil Hydrocarbons. J. Environ. Quality. 26:1478-1483.

  • Chaîneau, C.H., J.L. Morel, and J. Oudot. 1997. Phytotoxicity and plant uptake of fuel oil hydrocarbons. J. Environ. Qual. 26:1478-1483.

  • Chaîneau, C.H., J.L. Morel, and J. Oudot. 1996. Land treatment of oil-based drill cuttings in an agricultural soil. J. Environ. Qual. 25:858-867.

  • Chambers, J.C., J.A. MacMaron, and R.W. Brown. 1990. Alpine Seedling Establishment: The Influence of Disturbance Type. Ecology 71, 4, 1323-1341.

  • Chandra, P., S. Sinha, and U.N. Rai. 1997. Bioremediation of chromium from water and soil by vascular aquatic plants. In E.L. Kruger, T.A. Anderson, and J.R. Coats (eds.), Phytoremediation of Soil and Water Contaminants, ACS Symposium Series No. 664. American Chemical Society, Washington, DC.

  • Chaney, R.L. 1983. Plant uptake of inorganic waste constituents. pp. 50-76. In J.F. Parr, P.B. Marsh, and J.M. Kla (eds.), Land Treatment of Hazardous Waste. Noyes Data Corporation, Park Ridge, NJ.

  • Chaney, Rufus. 1995. Metal-Scavenging Plants to Cleanse the Soil. Agricultural Research. Nov. 4-9.

  • Chaney, R.L., S. Brown, Y.-M. Li, J.S. Angle, F. Homer, and C. Green. 1995. Potential use of metal hyperaccumulators. Mining Environ. Manage. 3(3):9-11.

  • Chaney, R.L. 1996. Abstract: Phytoremediation of Zn+Cd contaminated soils using metal hyperaccumulator plants: Progress in technology developments. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Chaney, R.L., Y.M. Li, S.L. Brown, J.S. Angle, and A.J.M. Baker. 1995. Hyperaccumulator based phytoremediation of metal-rich soils. pp. 33-34. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia,

  • Chaney, R.L., W.N. Beyer, C.H. Gifford, and L. Sileo. 1988. Effects of zinc smelter emissions on farm and gardens at Palmerton, PA. Trac. Subst./ Environ. Health. 22:263-280.

  • Chaney, R.L. 1983. Zinc phytotoxicity. p. 135-150. In A.D. Robson (ed.), Zinc in soils and plants. Kluwer Academic Publishers, Dordrecht, the Netherlands.

  • Chaney, R.L., M. Malik, Y.M. Li, S.L. Brown, E.P. Brewer, J.S. Angle and A.J.M. Baker. 1997. Phytoremediation of soil metals. Curr. Opin. Biotechnol. 8(3):279.

  • Chang, Y.-Y. and M.Y. Corapcioglu. 1998. Plant-enhanced subsurface bioremediation of nonvolatile hydrocarbons. J. Environ. Eng. 124:162-169.

  • Chang, Y.-Y. and M.Y. Corapcioglu. 1998. Plant-enhanced subsurface bioremediation of nonvolatile hydrocarbons. J. Environ. Eng. February 1998:162-169.

  • Chen, J., J.W. Huang, T. Caspar, and S.D. Cunningham. 1997. Arabidopsis thaliana as a model system for studying lead accumulation and tolerance in plants. In E.L. Kruger, T.A. Anderson, and J.R. Coats (eds.), Phytoremediation of Soil and Water Contaminants, ACS Symposium Series No. 664. American Chemical Society, Washington, DC.

  • Childress, C.R., and J.R. Shann. 1995. Poster Abstract: Pilot-scale testing of constructed wetlands for treatment of wastewater containing volatile organics. p. 90. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Chlopecka, A., and D.C. Adriano. 1996. Mimicked in-situ stabilization of metals in a cropped soil: Availability and chemical form of zinc. Environ. Sci. Technol. 30:3294.

  • Chlopecka, A., J.R. Bacon, M.J. Wilson, and J. Kay. 1996. Forms of cadmium, lead, and zinc in contaminated soils from Southwest Poland. J. Environ. Qual. 25(1):69-79.

  • Christensen-Kirsh, K.M. 1996. Phytoremediation and wastewater effluent disposal: Guidelines for landscape planers and designers. University of Oregon. December.

  • Christodoulakis, N.S., and N.S. Margaris. 1996. Growth of corn (Zea mays) and sunflower (Helianthus annuus) plants is affected by water and sludge from a sewage treatment plant. Bull. Environ. Contam. Toxicol. 57:300-306.

  • Clifford, P.A., D. Barchers, D.F. Ludwig, R.L. Sielken, J.S. Klingensmith, R.V. Graham, and M.I. Banton. 1995. An approach to quantifying spatial components of exposure for ecological risk assessment. Environ. Toxicol. Chem. 14(5):895-907.

  • Clyde, R. 1997. Abstract: Cells on fibers for pollution control. Poster 49. In 12th Annual Conference on Hazardous Waste Research - Abstracts Book, May 19-22, 1997, Kansas City, MO.

  • Cobbett, C.S., R. Howden, P.B. Goldsbrough, and C.R. Andersen. 1995. Phytochelatin-deficient mutants of Arabidopsis thaliana. pp. 17-18. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Cole, S. 1998. The emergence of treatment wetlands. Environ. Sci. Technol. 32(9):218A-223A.

  • Cole, M.A., X. Liu, and L. Zhang. 1994. Plant and microbial establishment in pesticide-contaminated soils amended with compost. pp. 210-222. In T.A. Anderson and J.R. Coats (eds.), Bioremediation Through Rhizosphere Technology, ACS Symposium Series, Volume 563. American Chemical Society, Washington, DC.

  • Collins, J.C. 1981. Zinc. p. 145-169. In N.W. Lepp (ed.), Effect of heavy metal pollution on plants, Vol. 1. Effects of trace metals on plant function. Applied Science Publishers, London.

  • Colwell, R.R. 1996. The bioremediation industry: Potential and future prospects. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Comis, D. 1996. Green remediation: Using plants to clean the soil. J. Soil Water Conserv. 51(3):184-187.

  • Comis, D. 1995. Metal-scavenging plants to cleanse the soil. Agric. Res. 43(11):4-9.

  • Compton, H.R., D.M. Haroski, S.R. Hirsh, and J.G. Wrobel. 1998. Pilot-scale use of trees to address VOC contamination. pp. 245-250. In G.B. Wickramanayake and R.E. Hinchee (eds.) Bioremediation and Phytoremediation, Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus, OH.

  • Conge, R.M, and R.J. Portier. 1998. Transpiration in black willow phytoremediation plots a determined by heat balance methods. 14th Annual Conference on Contaminated Soils. October 1998. University of Massachusetts at Amherst, Amherst, MA

  • Conger, R.M., and R. Portier. 1997. Phytoremediation experimentation with the herbicide bentazon. Remed. Spring. 7(2):19-37.

  • Conrad, R. 1991. Mechanisms controlling methane emission from wetland rice fields. p. 317-336. Biogeochemistry of Global Change: Environmental Biogeochemistry 10th International Symposium, August 19-24, 1991, San Francisco, CA. Max Planck Institut fur Terrestrische Mikrobiologie, Marburg/Lahn, Germany.

  • Cooper, P.F., G.D. Job, M.B. Green, and R.B.E. Shutes. 1996. Reed Beds & Constructed Wetlands. Wrc Swondon, Franklin Rd, Blagrove, Swindon, Wiltshire, SN5 8YK. England.

  • Cooper, E., D. Hjulberg, J. Villa, and J.G. DeWitt. 1997. Understanding transformation of heavy metals in a metal-tolerant plant using x-ray absorption spectroscopy. In G.W. Luthur III and K.B. Anderson (eds.), 214th ACS National Meeting, September 7-11, 1997, Las Vegas, NV.

  • Corapcioglu, M.Y., R.L. Rhykerd, C.L. Munster, M.C. Drew, K. Sung, and Y.-Y. Chang. 1998. Modeling phytoremediation of land contaminated by hydrocarbons. pp. 239-244. In G.B. Wickramanayake and R.E. Hinchee (eds.) Bioremediation and Phytoremediation, Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus, OH.

  • Cornish, J, M. Fuhrmann, L. Kochian, and D. Page. 1997. Phytoextraction treatability study: removal of 137Cs from soils at Brookhaven National Laboratory's Hazardous Waste Management Facility Site. Progress Report. U.S. Department of Energy. February 1997.

  • Cornish, J.E., W.C. Goldberg, R.S. Levine, and J.R. Benemann. 1995. Phytoremediation of soils contaminated with toxic elements and radionuclides. In Platform Abstracts, In Situ and On-Site Bioreclamation, The Third International Symposium, April 24-27, 1995, San Diego, CA. Battelle Memorial Institute.

  • Cornish, J.E., W.C. Goldberg, R.S. Levine, and J.R. Benemann. 1995. Phytoremediation of soils contaminated with toxic elements and radionuclides. pp. 55-63. In R.E. Hinchee, J.L. Means, and D.R. Burris (eds.), Bioremediation of Inorganics. Battelle Press, Columbus, OH.

  • Coy, P. 1995. Plants that clean a mess of messes. Business Week. May 8. p. 96.

  • Crites, R.W., G.D. Dombeck, and C.R. Williams. 1997. Removal of metals and ammonia in constructed wetlands. Water Environ. Res. 69:132.

  • Crowley, D.E., S. Alvey, and E.S. Gilbert. 1997. Rhizosphere ecology of xenobiotic-degrading microorganisms. In E.L. Kruger, T.A. Anderson, and J.R. Coats (eds.), Phytoremediation of Soil and Water Contaminants, ACS Symposium Series No. 664. American Chemical Society, Washington, DC.

  • Cui, Y., A. Chatterjee, C.K. Dumenyo, Y. Liu, and A.K. Chatterjee. 1995. Poster Abstract: Characterization of an Erwinia carotovora repressor gene (rsmA) that controls extracellular enzyme production, pathogenicity and secondary metabolic systems. p. 78. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Cunningham, S.D., W.R. Berti, and J.W. Huang. 1995. Remediation of contaminated soils and sludges by green plants. pp. 33-54. In R.E. Hinchee, J.L. Means, and D.R. Burris (eds.), Bioremediation of Inorganics. Battelle Press, Columbus, OH.

  • Cunningham, S.D. 1996. The phytoremediation of soils contaminated with organic pollutants: Problems and promise. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Cunningham, S.D. 1996. Getting the lead out, or leaving it in. The art, science (and a little politics) of the phytoremediation of lead contaminated soils. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Cunningham, J.D., D.R. Keeney, and J.A. Ryan. 1975. Phytotoxicity and uptake of metals added to soils as inorganic salts or in sewage sludge. J. Environ. Qual. 4(4):460-463.

  • Cunningham, S. 1995. Phytoremediation of Pb contaminated soils and sludges. pp. 38-39. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Cunningham, S.D., J.R. Shann, D.E. Crowley, and T.A. Anderson. 1997. Phytoremediation of contaminated water and soil. In E.L. Kruger, T.A. Anderson, and J.R. Coats (eds.), Phytoremediation of Soil and Water Contaminants, ACS Symposium Series No. 664. American Chemical Society, Washington, DC.

  • Cunningham, S.D., T.A. Anderson, A.P. Schwab, and F.C. Hsu. 1996. Phytoremediation of soils contaminated with organic pollutants. Adv. Agron. 56:55-114.

  • Cunningham, S.D., and W.R. Berti. 1993. The remediation of contaminated soils with green plants: An overview. In Vitro Cell. Devel. Biol. - J. Tissue Cult. Assoc. 29:207-212.

  • Cunningham, S.D., W.R. Berti, and J.W. Huang. 1994. Abstract: Remediation of contaminated soils and industrial sludges by green plants. Emerging Technologies in Hazardous Waste Management VI, ACS Industrial & Engineering Chemistry Division Special Symposium, Volume I, September 19-21, 1994, Atlanta, GA.

  • Cunningham, S.D., and W.R. Berti, and J.W. Huang. 1995. Phytoremediation of contaminated soils. Trends Biotechnol. 13:393-397.

  • Cunningham, S.D. 1997. Abstract: Phytoremediation of contaminated soils: progress and promise. Fourth International In Situ and On-Site Bioremediation Symposium, April 28 - May 1, 1997, New Orleans, LA. 3:319.

  • Cunningham, S.D., W.R. Berti, and J.W. Huang. 1995. Remediation of contaminated soils and sludges by green plants. In Platform Abstracts, In Situ and On-Site Bioreclamation, The Third International Symposium, April 24-27, 1995, San Diego, CA. Battelle Memorial Institute.

  • Cunningham, S.D., and D.W. Ow. 1996. Promises and prospects of phytoremediation. Plant Physiol. 110:715-719.

  • Cunningham, S. 1995. What plants can and cannot do. pp. 47-48. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • Cunningham, S.D., J.W. Huang, J. Chen, and W.R. Berti. 1996. Phytoremediation of contaminated soils - Progress and promise. Abstracts of Papers of the American Chemical Society. 212: 87-AGRO.

  • Cunningham, S.D., and C.R. Lee. 1995. Phytoremediation: Plant-based remediation of contaminated soils and sediments. pp. 145-156. In H.D. Skipper and R.F. Turco (eds.), Bioremediation: Science and Applications. SSSA Special Publication 43. Soil Science Society of America, Madison, WI.

  • D'Alleinne, C. 1997. Poster abstract: Application of thermal desorption for the concentration of phytoextracted metals. IBC's Second Annual Conference on Phytoremediation, June 18-19, 1997, Seattle, WA. International Business Communications, Southborough, MA.

  • Daniel, D.E., and Y.K. Wu. 1993. Compacted clay liners and covers for arid sites. J. Geotechnical Eng. 119(2):223-237.

  • Das, P., S. Samantaray, and G.R. Rout. 1997. Studies on cadmium toxicity in plants: a review. Environ. Pollut. 98(1):29-36

  • Davies, E.B., and J.H. Watkinson. 1966. Uptake of native and applied selenium by pasture species. I. Uptake of Se by browntop, ryegrass, cockfoot, and white clover from Atiamuri sand. N.Z. J. Agic. Res. 9:317-327.

  • Davis, L.C., M.K. Banks, A.P. Schwab, N. Muralidharan, L.E. Erickson, and J.C. Tracy. 1995. Plant based bioremediation in Sikdar and Irvine. Technomics Publ. Co.

  • Davis, A., M.V. Ruby, M. Bloom, R. Schoof, G. Freeman, and P.D. Bergstrom. 1996. Mineralogic Constraints on the Biovailabitiy of Arsenic in Smelter-Impacted Soils. Environ. Sci. Technol, 30, 392-399.

  • Davis, L.C., C.T. Chaffin, N. Muralidharan, V.P. Visser, W.G. Fateley, L.E. Erickson, and R.M. Hammaker. 1993. Monitoring the beneficial effects of plants in bioremediation of volatile organic compounds. pp. 236-249. In L.E. Erickson, D.L. Tillison, S.C. Grant, and J.P. McDonald (eds.), Proceedings of the 8th Annual Conference on Hazardous Waste Research, May 25-26, 1993, Manhattan, KS.

  • Davis, L.C., L.E. Erickson, E. Lee, J.F. Shimp, and J.C. Tracy. 1993. Modeling the effects of plants on the bioremediation of contaminated soil and ground water. Environ. Prog. 12:67-75.

  • Davis, L.C., N. Muralidharan, V.P. Visser, C. Chaffin., W.G. Fateley, L.E. Erickson, and R.M. Hammaker. 1994. Alfalfa plants and associated microorganisms promote biodegradation rather than volatilization of organic substances from ground water. pp. 112-122. In T.A. Anderson and J.R. Coats (eds.), Bioremediation Through Rhizosphere Technology, ACS Symposium Series, Volume 563. American Chemical Society, Washington, DC.

  • Davis, L.C., C.T. Chaffin, L.E. Erickson, W.G. Fateley, R.M. Hammaker, R.M. Hoffman, N. Muralidharan, and V.P. Visser. 1994. Using fourier transform infrared spectroscopy (FT-IR) to monitor the progress of plant based bioremediation efforts. pp. 92-94. In Twentieth Annual RREL Research Symposium Abstract Proceedings, EPA Risk Reduction Eng. Lab., March 15-17, 1994. Cincinnati, OH. EPA/600/R-94/011.

  • Debus, R, A. Fliender, and C. Shafers. 1996. An Artificial stream mescocosm to simulate fate and effects of chemicals: technical data and initial experience with the biocenosis. Chemosphere 32, 9, 1813-1822.

  • DeBusk, T.A., and F.E. Dierberg. 1996. Abstract: Lead compartmentalization in thin-film rhizosphere and wetland systems: Implications for metal phytoremediation by aquatic macrophytes. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • Dec, J., and J.-M. Bollag. 1995. Application of plant materials for the clean-up of wastewater. In Platform Abstracts, In Situ and On-Site Bioreclamation, The Third International Symposium, April 24-27, 1995, San Diego, CA. Battelle Memorial Institute.

  • Dec, J., and J.-M. Bollag. 1994. Dehalogenation of chlorinated phenols during binding to humus. pp. 102-111. In T.A. Anderson and J.R. Coats (eds.), Bioremediation Through Rhizosphere Technology, ACS Symposium Series, Volume 563. American Chemical Society, Washington, DC.

  • Dec, J., and J.-M. Bollag. 1995. Application of plant materials for the cleanup of wastewater. pp. 307-312. In R.E. Hinchee, A. Leeson, and L. Semprini (eds.), Bioremediation of Chlorinated Solvents. Battelle Press, Columbus, OH.

  • Dec, J., and J.-M. Bollag. 1994. Use of plant material for the decontamination of water polluted with phenols. Biotechnol. Bioeng. 44:1132-1139.

  • Delano, S.F., D.Y. Kim, and P. J. Jackson. 1996. Abstract: Monitoring munition compounds in soil using plants: Detection of TNT-induced gene expression in plants. International Phytoremediation Conference, May 8-10, 1996, Arlington, VA. International Business Communications, Southborough, MA.

  • DeLuca, T.H. and E.L. Lynch. 1996. Treatment of mine tailings to reduce metal mobility and encourage restoration of a mountain stream in Montana. AWRA Symposium Proc. Syracuse, NY.

  • Delhaize, E., P.R. Ryan, and P.J. Randall. 1993. Aluminum tolerance in wheat (Triticum aestivum L.) II. Aluminum-stimulated excretion of malic acid from root apices. Plant Physiol. 103:695-703.

  • DeLisle, A.J., and D.C. Bowman. 1995. Poster Abstract: Nickel-induced cDNAs of Streptanthus polygaloides. p. 98. In Proceedings/Abstracts of the Fourteenth Annual Symposium, Current Topics in Plant Biochemistry, Physiology, and Molecular Biology - Will Plants Have a Role in Bioremediation?, April 19-22, 1995, Columbia, MO. Interdisciplinary Plant Group, University of Missouri, Columbia, MO.

  • DeLuca, T.H. and E.L. Lynch. 1997. Assessment of amendments in the reclamation of an abandoned mine in Montana. Intermountain Journal of Science, 3, 1, 38-46, March.

  • Denduluri, S. 1994. Ameliorative effects of ethylenediamine tetraacetic acid and nitrilo triacetic acid on lead toxicity in Okra (Abelmoschus esculentus L.) grown in sewage-irrigated soil. Bull. Environ. Contam. Toxicol. 52:516-523.

  • Dibble, J.T., and R. Bartha. 1979. Rehabilitation of oil-inundated agricultural land: A case history. Soil Sci. 128:56-60.

  • Dickinson, N.M., A.P. Turner, and N.W. Lepp. 1991. How do trees and other long-lived plants survive polluted environments? Funct. Ecol. 5(1):5-11.

  • Dobson, M.C. and A.J. Moffat. 1995. A re-evaluation of objections to tree planting on containment landfills. Waste Management & Research. 13(6):579-600.

  • Dodds-Smith, M.E., C.A. Payne, and J.J. Gusek. 1995. Reedbeds at Wheal Jane. Mining Environ. Manage. 3(3):22-24.

  • Dodge, C.J. and A.J. Francis. 1997. Biotransformation of binary and ternary citric acid complexes of iron and uranium. Environ Science and Tech. 31, 3062-3067.

  • Dommergues, Y.R. Contribution of actinorhizal plants to tropical soil productivity and rehabilitation. Soil Biology and Biochemistry, 29:5-6, 931-941. 1997

  • Dommergues, Y.R. 1997. Contribution of actinorhizal plants to tropical soil productivity and rehabilitation. Soil Biol. Biochem. 29(5-6):931.

  • Donnelly, P.K., and J.S. Fletcher. 1994. Potential use of mycorrhizal fungi as bioremediation agents. pp. 93-99. In T.A. Anderson and J.R. Coats (eds.), Bioremediation Through Rhizosphere Technology, ACS Symposium Series, Volume 563. American Chemical Society, Washington, DC.

  • Donnelly, P.K., R.S. Hegde, and J.S. Fletcher. 1994. Growth of PCB-degrading bacteria on compounds from photosynthetic plants. Chemosphere. 28:981-988.

  • Dorian, D., C. Jacobsen, and J. Burke. 1995. Treatability study of soil using bioremediation (an unpublished report). Environmental Engineering Department, Rensselaer Polytechnic Institute.

  • Dorn, P.B., T.E. Vipond, J.P. Salanitro, and H.L. Wisniewski. 1998. Assessment of the acute toxicity of crude oils in soils using earthworms, Microtox®, and plants. Chemosphere. 37(5):845-860.

  • Doucette, W.J., and B. Bugbee. 1996. Relationship between aerobic biodegradation rates, chemical structure, and soil type for selected petroleum hydrocarbons.

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