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Fytoremediering af forurening med olie- og tjæreprodukter
Aiken, B.S. & Logan, B.E. (1996): Degradation of pentachlorophenol by the the
white-rot fungus Phanerochaete chrysosporium grown in ammonium lignosulphonate
media. Biodegradation 7:175–182.
Alexander, M. (1994): Biodegradation and Bioremediation. Academic Press, San Diego,
California
Alvey, S. & Crowley, D.E. (1996): Survival and activity of an atrazine-mineralizing
bacterial consortium in rhizosphere soil. Environ. Sci. & Technol., 30:
1596–1603
Amterne (2000): Amterne på Sjælland og Lolland-Falster samt Frederiksberg og
Københavns Kommune: "Vejledning i håndtering af forurenet jord på Sjælland",
januar 2000
Amternes Videnscenter for jordforurening (AVJ) (1999): Jordforurening fra tjæring af
fiskegarn. Erfaringer fra Nordjyllands Amt. Teknik og Administration nr. 6, 1999.
Amternes Videnscenter for jordforurening (AVJ) (2000): Diffus jordforurening –
fase 2. Statistisk bearbejdning af data. Teknik & Administration nr. 3, 2000
Andersen, J. (2000): Popler skal rense gasværksgrund. Ingeniøren d. 3-11-2000 p.
7
Anderson, T.A. & Walton, B.T. (1995): Comparative fate of [14C]Trichloroethylene
in the root zone of plants from a former solvent disposal site. Environ. Toxicol.
Chem., 14: 2041–2047
Aprill, W. & Simms, R.C. (1990): Evaluation of the use of prairie grasses for
stimulating polycyclic aromatic hydrocarbon treatment in soil. Chemosphere, 20:
253–265
Arvin, E. & Broholm, K. (1999): Afværgeteknikker for MTBE-forurenet grundvand. Miljøprojekt
nr. 483, Miljø- og Energiministeriet, Miljøstyrelsen
Baeder-Bederski, O., Kuschk, P. & Stottmeister, U. (1999): Phytovolatilization of
organic contaminants. In: Heiden, S.; Erb, R.; Warrelmann, J.; Dierstein, R. (eds.):
Biotechnologie im Umweltschutz. Erich Schmidt, Berlin, 1999, 175–183
Bally, M., Wilberg, E., Kühni, M. & Egli, T. (1994): Growth and regulation of
enzyme synthesis in the nitrilotracetic acid (NTA)-degrading bacterium Chelatobacter
heintzii ATCC 29600. Microbiology, 140: 1927–1936
Banks, M.K., Pekarek, S., Rathbone, K. & Schwab, A.P. (1997b): Phytoremediation of
petroleum contaminated soils: Field assessment. In Situ and on-site bioremediation vol
3: Papers from the Fourth International In Situ and On-site bioremediation symposium.
New Orleans, April 28-may 1, 1997, Batelle Press, USA
Banks, M.K., Schwab, A.P. & Govindaraju, R.S. (1997a): Bioremediation of petroleum
contaminated soil using vegetation – A technology transfer project. Final report
Project D-93-1 to the Great Plains Rocky Mountain Hazardous Substance Research Center,
Kansas State University, Manhattan
Bauer, J.E. & Capone, D.G. (1988): Degradation and mineralization of the polycyclic
aromatic hydrocarbons antyhracene and naphthalene in intertidal marine sediments. Appl.
Environ. Microbiol. 50: 81–90
Bazin, M.J., Markham, P., Scott, E.M. & Lynch, J.M. (1990): Population dynamics and
rhizosphere interactions". Chapter 5 pp 99–127 in: The Rhizosphere. Ed. by J.M.
Lynch, John Wiley & Sons, New York
Black, H. (1999): Phytoremediation: A growing field with some concerns. The
Scientist 13, 1. March 1999, 5–6
Bokern, M., Raid, R. & Harms, H. (1998): Toxicity, uptake and metabolism of 4-n-nonylphenol
in root cultures and intact plants under septic and aseptic conditions. ESPR-Environ.
Sci. & Poll. Res. 5(1): 21–27.
Boonchan, S., Britz, M.L. & Stanley, G.A. (2000): Degradation and mineralization of
high molecular weight polycyclic aromatic hydrocarbons by defined fungal-bacterial
cocultures. Appl.Environ.Microbiol., 66: 1007–19
Bosma, T.N.P., Middeldorp, P.J.M., Schraa, G. & Zehnder, A.J.B. (1997): Mass
transfer limitation of biotransformation: Quantifying bioavailability. Environ. Sci.
Technol., 31: 248–252
Boyle, J.J. & Shann, J.R. (1995): Biodegradation of phenol, 2,4-DCP, 2,4-D and
2,4,5-T in field-collected rhizosphere and nonrhizosphere soils. J. Environ. Qual., 24:
782–785
Brazil, D., Kenefick, L., Callanan, M., Hara, A., de Lorenzo, V., Dowling, D.N. &
O'Gara, F. (1995): Construction of a Rhizosphere Pseudomonad with potential to degrade
PCBs: Detection of bph Gene Expression in the Rhizosphere. Appl. Environ. Microbiol.,
61: 1946–1952
Briggs, G., Bromilow, R. & Evans, A. (1982): Relationships between lipophilicity
and root uptake and translocation of non-ionised chemicals by barley. Pestic. Sci.,
13: 495–504.
Briggs, G., Rigitano, R. & Bromilow, R. (1987): Physico-chemical factors affecting
uptake by roots and translocation to shoots of weak acids in barley. Pestic. Sci.,
19: 101–112.
Brix, H., Sorrell, B.K. & Schierup, H-H. (1996): Gas fluxes achieved by in situ
convective flow in Phragmites australis. Aquatic Botany, 54: 151–163.
Burken, J.G. & Schnoor, J.L. (1997): Uptake and metabolism of atrazine by poplar
trees. Environ. Sci. Technol., 31: 1399–1406
Burken, J.G. & Schnoor, J.L. (1998): Predictive relationships for uptake of organic
contaminants by hybrid poplar trees. Environ. Sci. Technol. 32: 3379–3385.
Campbell, R. & Greaves, M.P. (1990): Anatomy and community structure of the
rhizosphere. Chapter 2 pp 11–34 in: The Rhizosphere. Ed. by J.M. Lynch, John Wiley
& Sons, New York
Cerniglia, C.E. (1992): Biodegradation of polycyclic aromatic hydrocarbons. Biodegradation,
3: 351–368
Crowley, D.E., Alvey, S. & Gilbert, E.S. (1997): Rhizosphere ecology of
xenobiotic-degrading microorganisms. In Kruger, E.L., Anderson, T.A. and Coats, J.R.:
Phytoremediation of soil and water contaminants. ACS symposium series 664, ACS,
Washington DC, pp 20–36.
Crowley, D.E., Brennerova, M.V., Irwin, C., Brenner, V. & Focht, D.D. (1996):
Rhizosphere effects on biodegradation of 2,5-dichlorobenzoate by a bioluminescent strain
of root-colonizing Pseudomonas fluorescens. FEMS Microbiol. Ecol., 20:
79–89
Cunningham, S.D., Anderson, T.A., Schwab, A.P. & Hsu, F.C. (1996): Phytoremediation
of soils contaminated with organic pollutants. Adv. Agron., 56: 55–114
Cunningham, S.D., Shann, J.R., Crowley, D.E. & Anderson, T.A. (1997):
Phytoremediation of contaminated water and soil. Kapitel 1 pp 2–17 i: ACS Symposium
Series, vol. 664, American Chemical Society, Washington DC
Curl, E.A. & Truelove, B. (1986): Root exudates. Kapitel 3 pp 55–92 i: The
Rhizosphere. Springer Verlag, Berlin, Germany
Davis, L.C., Muralidharan, N., Visser, V.P., Chaffin, C., Fateley, W.G. & Hammaker,
R.M. (1993): Alfalfa plants and associated microorganisms promote biodegradation rather
than volatilization of organic substances from ground water. Kapitel 10 pp 112–122 i:
Bioremediation through rhizosphere technology. Redigeret af T.A. Anderson & J.R.
Coats. ACS Symposium series 563. Developed from a symposium at the 206’th National
Meeting of the American Chemical Society, Chicago, August 23–27, 1993
Dec, J. & Bollag, J-M. (1994): Use of plant material for the decontamination of
water polluted with phenols. Biotechnology and Bioengineering, 44: 1132–1139
Dietrich, D., Hickey, W.J. & Lamar, R. (1995): Degradation of
4,4’-dichlorobiphenyl, 3,3’,4,4’-tetrachlorobiphenyl, and
2,2’,4,4’, . Appl. Environ. Microbiol., 61: 3904–3909.
Dobson, M.C. & Moffat, A.J. (1995): A re-evaluation of objections to tree planting
on containment landfills. Waste Management & Research, 13: 579–600.
Doty, S.L., Shang, T.Q., Wilson, A.M., Tangen, J., Westergreen, A.D., Newman, L.A.,
Strand, S.E. & Gordon, M.P. (2000): Enhanced metabolism of halogenated hydrocarbons in
transgenic plants containing mammalian cytochrome P450 2E1. Proc. Nat. Acad. Sci. USA,
97: 6287–6291
Doucette, W.J., Bugbee, B., Hayhurst, S., Plahen, W.A., Donney, D.C., Taffinder, S.A.
& Edwards, R. (1998): Phytoremediation of dissolved phase trichloroethylene using
mature vegetation. In: Wickramanayake GB, Hinchee RE (eds) 'Bioremediation and
Phytoremediation, Chlorinated and Recalcitrant Compounds'. Battelle Press, 251-256
Dörfler, U., Scheunert, I. & Trapp, S. (2001): Uptake, toxicity and metabolism of
MTBE in a microecosystem with radish and lettuce. Umweltwissenschaften und
Schadstofforschung (på tysk, under forberedelse)
Dörr, R. (1970): Die Aufnahme von 3,4-Benzpyren durch Pflanzenwurzeln. Landwirtsch.
Forsch. 23: 371–79
Edwards, N.T. (1986): Uptake, translocation and metabolism of anthracene in bush bean (Phaseolus
vulgaris L.). Environ. Toxicol. Chem., 5: 659–665.
Egli, T. (1995): The ecological and physiological significance of the growth of
heterotrophic microorganisms with mixtures of substrates. Adv. Microb. Ecol., 14:
305–86
Ellenberg, H. (1979): Zeigerwerte der Gefäpflanzen Mitteleuropas. SCRIPTA GEOBOTANICA
IX, Erich Goltze KG, Göttingen, Germany.
Ellis, B. (1994): Reclaiming contaminated land: In Situ/Ex Situ remediation of
creosote- and petroleum hydrocarbon-contaminated sites. Kapitel 6 pp 107–143 i:
Bioremediation. Field experience. Redigeret af Flathman, P.E., Jerger, D.E. & Exner,
J.H. Lewis Publishers, CRC Press, Inc., USA
EPA Environmental Protection Agency (1994): Health risk perspective on fuel oxygenates.
Washington D.C., U.S.
EPA Environmental Protection Agency (1998): Phytoremediation of TCE in groundwater
using Populus. EPA-report May at http://clu-in.org/products/phytotce.htm
EPA Environmental Protection Agency (2000): Introduction to Phytoremediation.
EPA-report EPA/600/R-99/107. May 2000 at http://clu-in.org/techpubs.htm
Epuri, V. & Sorensen, D.L. (1997): Benzo(a)pyrene and hexachlorobiphenyl
contaminated soil: Phytoremediation potential. In Kruger, E.L., Anderson, T.A. &
Coats, J.R.: Phytoremediation of soil and water contaminants. ACS symposium series
664, ACS, Washington DC, pp 200-222.
Federle, T.W. & Schwab, B.S. (1989): Mineralization of surfactants by microbiota of
aquatic plants. Appl. Environ. Microbiol., 55: 2092–2094
Ferro, A.M., Sims, R.C. & Bugbee, B. (1994): Hycrest crested wheatgrass accelerates
the degradation of pentachlorophenol in soil. J. Environ.Qual., 23: 272–279
Flathman, P.E. & Lanza, G.R. (1998): Phytoremediation, current views on an emerging
green technology. Journal of Soil Contamination, 7(4): 415 – 432.
Fletcher, J.S. & Hegde, R.S. (1995): Release of phenols by perennial plant roots
and their potential importance in bioremediation. Chemosphere, 31: 3009–3016
Frohne, D. & Jensen, U. (1985): Systematik des Pflanzenreiches unter besonderer
Berücksichtigung chemischer Merkmale und pflanzlicher Drogen. Gustav Fischer, Stuttgart,
Germany, 1985
Gatliff, E.G. (1994): Vegetative remediation process offers advantages over traditional
pump-and-treat technologies. Remediation, 4: 343–352
Gilbert, E.S. & Crowley, D.E. (1997): Plant compounds that induce polychlorinated
biphenyl biodegradation by Arthrobacter sp. strain B1B. Appl. Environ.
Microbiol., 63: 1933–1938
Grosse, W., Frye, J. & Lattermann, S. (1992): Root aeration in wetland trees by
pressurized gas transport. Tree Physiology, 10: 285–295
Grosse, W., Jovy, K. & Tiebel, H. (1996): Influence of plants on redox potential
and methane production in water-saturated soil. Hydrobiologica, 340: 93–99.
Gräf, W. & Nowak, W. (1966): Promotion of growth in lower and higher plants by
carcinogenic polycyclic aromatics. Arch. Hyg. Bakteriol., 150: 513–528.
Günther, T., Dornberger, U. & Fritsche, W. (1996): Effects of ryegrass on
biodegradation of hydrocarbons in soil. Chemosphere, 33: 203–215
Haby, P.A. & Crowley, D.E. (1996): Biodegradation of 3-chlorobenzoate as affected
by rhizodeposition and selected carbon substrates. J. Environ. Qual., 25:
304–310
Han, K-H., Keathley, D.E., Davis, J.M. & Gordon, M.P. (1993): Regeneration of a
transgenic woody legume (Robinia pseudoacacia L., black locust) and morphological
alterations induced by Agrobacterium rhizogenes-mediated transformation. Plant
Science, 88: 149–157
Harms, H. & Langebartels, C. (1986): Standardized plant cell suspension test
systems for an ecotoxicological evaluation of the metabolic fate of xenobiotics. Plant
Science, 45: 157–165
Harms, H. & Zehnder, A.J.B. (1994): Influence of substrate diffusion on degradation
of dibenzofuran and 3–chlorodibenzofuran by attached and suspended bacteria. Appl.
Environ. Microbiol., 60: 2736–2745.
Harms, H. (1975): Metabolism of benzo(a)pyrene in plant cell cultures and wheat
seedlings. Landbauforsch. Voelkenrode, 25(2): 83–90.
Harms, H. (1996): Bacterial growth on distant naphthalene diffusing through water, air,
water-saturated, and unsaturated porous media. Appl. Environ. Microbiol., 62:
2286–2293.
Harms, H. (1999): The use of laboratory model systems to elucidate the mechanisms of
bioavailability of hydrophobic organic compounds. I: Bioavailability of Organic
Xenobiotics in the Environment, pp 121–134, redigeret af P. Baveye et al., Kluwer
Academic Publishers, Holland
Harms, H. & Bosma, T.N.P. (1996): Mass transfer limitation of microbial growth and
pollutant degradation. J. Ind. Microbiol., 18: 97-105
Harms, H., Dehnen, W. & Mönch, W. (1977): Benzo(a)pyrene metabolites formed by
plant cells. Z. Naturforsch., 32: 321–326.
Hedeselskabet (2000): Kopi af analyseresultater: "Phyto-oprensning af rabatjord i
Vejle Amt", dateret d. 28-9-2000, afsendt af Arense Nordentoft, Hedeselskabet,
vedlagt analysedata fra Miljø-Kemi, Dansk Miljø Center A/S.
Hong, M.S., Farmayan, W.F., Dortch, I.J., Chiang, C.Y., McMillan, S.K., & Schnoor,
J.L. (2001): Phytoremediation of MTBE from a groundwater plume. Environ. Sci. &
Technol., 35: 1231-1239.
Hsu, F.C., Marxmiller, R.L. & Yang, A.S. (1991): Study of root uptake and xylem
translocation of cinmethylin and related compounds in detopped soybean roots using a
pressure chamber technique. Plant Physiol., 93: 1573–1578.
Hsu, T.S. & Bartha, R. (1979): Accelerated mineralization of two organophosphate
insecticides in the rhizosphere. Appl. Environ. Microbiol., 37: 36–41
Hulzebos, E.M., Adema, D.M.M., Dirven-Van Breemen, E.M., Henzen, L., Van Dis Wa,
Herbold, H.A., Hoekstra, J.A., Baerselman, R. & Van Gestel Cam (1993): Phytotoxicity
studies with Lactuca sativa in soil and nutrient solution. Environ. Toxicol.
Chem., 12: 1079–1094
Hutchinson, S.L., Banks, M.K., & Schwab, A.P. (2001): Phytoremediation of aged
petroleum sludge: Effect of inorganic fertilizer. J. Environ. Qual., 30: 395-403.
Hülster, A. & Marschner, H. (1995): PCDD/PCDF-complexing compounds in zucchini. Organohalogen
Compounds, 24: 493–495.
Hülster, A., Mueller, J.F. & Marschner, H. (1994): Soil-plant transfer of
polychlorinated dibenzo-p-dioxins and dibenzofurans to vegetables of the cucumber
family (Cucurbitaceae). Environ. Sci. Technol., 28: 1110–1115.
Höflich, G. & Günther, T. (2000): Einfluss von
Pflanzen-Rhizosphärenmikroorganismen-Assoziationen auf den Abbau von polyzyklischen
aromatischen Kohlenwasserstoffen im Boden. Die Bodenkultur, 51(2): 91-97.
Inoue, J., Chamberlain, K. & Bromilow, R.H. (1998): Physico-chemical factors
affecting the uptake by roots and translocation to shoots of amine bases in barley. Pestic.
Sci., 54: 8–21.
Iritz, Z. (1996) Energy balance and evaporation of a short-rotation willow forest.
Dissertation, Sveriges Landbrugs Universitet-report No 1, 1996.
ITRC Interstate Technology and Regulatory Cooperation Work Group / Phytoremediation
Work Team (1999): Phytoremediation Decision Tree. Homesite ITRC http://www.itrcweb.org. Document available at http://www.imt.dtu.dk/courses/63190/stt/research2.htm
(October 2000)
Jackson, M.B. & Attwood, P.A. (1996): Roots of willow (Salix viminalis L.)
show marked tolerance to oxygen shortage in flooded soils and in solution culture. Plant
and Soil, 187: 37–45.
Jakobsen, P.R. & Klint, K.E.S. (1999): Fracture distribution and migration of DNAPL
in a clayey lodgement till. Nordic Hydrology, 30: 285–300
Joner, E.J., Hohansen, A., Loibner, A.P., Dela Cruz, M.A., Szolar, H.J., Portal, J.-M.,
& Leyval, C. (2001): Rhizosphere effects on microbial community structure, and
dissipation and tixicity of PAH in spiked soil. Environ. Science Technol., in
press.
Jordahl, J.L., Foster, L., Schnoor, J.L. & Alvarez, P.J.J. (1997): Effect of hybrid
poplar trees on microbial populations important to hazardous waste bioremediation. Environ.
Toxicol. Chem., 16: 1318–21
Jury, W.A., Russo, D., Streile, G. & Hesham, E. (1990): Evaluation of
volatilization by organic chemicals residing below the soil surface. Wat. Resources
Res., 26 (1): 13–20.
Jury, W.A., Spencer, W.F. & Farmer, W.J. (1983, 1987): Behavior assessment model
for trace organics in soil: I. Model description. J. Environ. Qual., 12:
558–564, plus Erratum (1987) J. Environ. Qual., 16: 448.
Jørgensen, U. & Schelde, K. (2001) Energy crop water and nutrient use efficiency.
Report for International Energy Agency, Paris, Bioenergy, Task 17
Karickhoff, S.W. (1981): Semi-empirical estimation of sorption of hydrophobic
pollutants on natural sediments and soils. Chemosphere, 10: 833–846.
Karlson, U. (2000): Samspil mellem planter og mikro-organismer ved fjernelse af
organiske jordforureniger. ATV (eds.): ATV Vintermøde om grundvandsforurening, Vingsted,
Danmark, 7.–8. marts 2000
Karthikeyan, R., Davis, L.C., Mankin, K.R., Erickson, L.E. & Kulakow, P.A. (1999):
Biodegradation of jet fuel (JP-8) in the presence of vegetation. Proc. Conference on
Hazardous Waste Research, 1999: 243–256.
Kirchmann, H. & Tengsved, A. (1991): Organic pollutants in sewage sludge. 2.
Analysis of barley grains grown on sludge-fertilized soil. Swedish J. Agric. Res., 21:
115–119
Klint, K.E.S. & Fredericia, J. (1995): Sprækkeparametre i moræneler. Vand og
Jord, oktober 1995: 208–214
Knaebel, D.B. & Vestal, J.R. (1992): Effects of intact rhizosphere microbial
communities on the mineralization of surfactants in surface soils. Can. J. Microbiol., 38:
643–653
Knoche, H., Klein, M., Kördel, W., Wahle, U., Hund, K., Müller, J. & Klein, W.
(1995): Literaturstudie zur Ableitung von Bodengrenzwerten für polyzyklische aromatische
Kohlenwasserstoffe (PAK). Umweltbundesamt Berlin, report 107 03 007/14.
Koch, A.L. (1990): Diffusion: The crucial process in many aspects of the biology of
bacteria. In: Adv. Microbial Ecol., vol. 11, redigeret af K.C. Marshall, Plenum
Press, New York, pp 37–70.
Komisar, S.J. & Park, J. (1997): Phytoremediation of diesel-contaminated soil using
alfalfa. In Situ and on-site bioremediation vol 3: Papers from the Fourth
International In Situ and On-site bioremediation symposium. New Orleans, April 28–may
1, 1997, Batelle Press, USA
Komossa, D., Langebartels, C. & Sandermann Jr, H. (1995): Metabolic processes for
organic chemicals in plants. I: Trapp, S. & Mc Farlane, C. (editorer), Plant
Contamination - Modeling and Simulation of Organic Chemical Processes. Lewis Pub.,
Boca Raton, Florida, USA, 69–103.
Kovarova, K., Käch, A., Zehnder, A.J.B. & Egli, T. (1997): Cultivation of Escherichia
coli with mixtures of 3-phenylpropionic acid and glucose: Steady state growth
kinetics. Appl. Environ. Microbiol., 63: 2619–24
Kulakov, P.A., Schwab, A.P., Banks, M.K. & O’Reilly, K.T. (1998): Assessment
of vegetation enhanced biodegradation of aged hydrocarbon contaminats. Draft Final Report
(California Refinery site) Project D-93-1 to The Great Plains of Rocky Mountain Hazardous
Substance Research Center, Kansas State University, Manhattan.
Kutschera, L. (1960): Wurzelatlas mitteleuropäischer Ackerunkräuter und
Kulturpflanzen. DLG-Verlags-GmbH, Frankfurt.
Kutschera, L., Lichtenegger, E. & Sobotik, M. (1982): Wurzelatlas
mitteleuropäischer Grünlandpflanzen. Gustav Fischer, New York.
Lamar, R.T. & Dietrich, D.M. (1990): In situ depletion of pentachlorophenol from
contaminated soil by Phanerochaete spp. Appl. Environ. Microbiol., 56:
3093–3100.
Larcher, W. (1995): Physiological plant ecology. Berlin: Springer, 3. udgave.
Larsen, L.C. & Trapp, S. (2000): Phytoremediering af olieprodukter på en nedlagt
tankstation. ATV Vintermøde om grundvandsforurening, Vingstedcentret 7.–8. marts,
2000.
Lin, Q. & Mendelssohn, I.A. (1998): The combined effects of phytoremediation and
biostimulation in enhancing habitat restoration and oil degradation of petroleum
contaminated wetlands. Ecological Engineering, 10: 263–274.
Liste, H.-H., & Alexander, M. (1999): Rapid screening of plants promoting
phenanthrene degradation. J. Environ. Qual., 28: 1376-1377.
Lombi, E. & Wenzel, W.W. (1999): Phytosanierung: Grundlegende Prozesse und
künftige Verbesserungen. In Umweltbundesamt (eds.) 'Pflanzenbelastung auf kontaminierten
Standorten'. Erich Schmidt, Berlin, 157–169.
Macek, T., Mackova, M. & Kas, J. (2000): Exploitation of plants for the removal of
organics in environmtal remediation. Biotechnology Advances, 18: 23–34
Mackay, D., Shiu, W.Y. & Ma, K.C. (1993): Illustrated handbook of physical-chemical
properties and environmental fate for organic chemicals. Vol. III. Lewis Pub., Boca Raton,
USA.
Macpherson, G. (1995) Home grown energy from short-rotation coppice. Farming Press
Books, Ipswich, United Kingdom.
Mc Farlane, J.C., Pfleeger, T. & Fletcher, J. (1990): Effect, uptake and
disposition of nitrobenzene in several terrestrial plants. Environ. Toxicol. Chem.,
9: 513–520.
Merck & Co, Inc. (1996): The Merck Index. An encyclopedia of chemicals, drugs and
biologicals. 12. udgave. Redigeret af S. Budavari, M.J. O’Neil, A. Smith, P.E.
Heckelman & J.F. Kinneary. Merck Research Laboratories, USA
Miljøkontrollen (1999): Miljøet i København. Rapport downloadet fra www.miljoe.kk.dk
Miljøstyrelsen (1996): Projekt om jord og grundvand fra Miljøstyrelsen, Nr. 20, 1996,
Kemiske stoffers opførsel i jord og grundvand.
Miljøstyrelsen (1997), jordforureningskontoret: Kortlægning af kilder til
jordforurening. Status og erfaringer. 1997.
Miljøstyrelsen (1998a): Vejledning fra Miljøstyrelsen nr. 6 1998. Oprydning på
forurenede lokaliteter
Miljøstyrelsen (1998b): Handlingsplan for MTBE. Fundet på Miljøstyrelsens
hjemmesider: www.mst.dk
Miljøstyrelsen (1998c): Bioremediering: rensning af PAH forurenet jord med svampe. Miljøprojekt
nr. 411, DTI, Miljø, sektion for bioteknik.
Miljøstyrelsen (1999a): Oprensning af blandingsforurenet jord. Miljøprojekt nr.
503, Teknologiudviklings-programmet for jord- og grundvandsforurening, Miljø- og
Energiministeriet, Miljøstyrelsen.
Miljøstyrelsen (1999b): Opsamling af data for diffus jordforurening. Arbejdsrapport
nr. 13, Miljøstyrelsen
Miljøstyrelsen (2001a): Naturlig nedbrydning af PAH’er i jord og grundvand. Miljøprojekt
nr. 582, Miljø- og energiministeriet, Miljøstyrelsen & RAMBØLL.
Miljøstyrelsen (2001b): Roddybder i grønsager. Miljøprojekt nr. 588,
Teknologiudviklings-programmet for jord- og grundvandsforurening, Miljø- og
Energiministeriet, Miljøstyrelsen.
Mo, K., Lora C.O., Wanken, A.E., Javarnmardian, M., Yang, X. &. Kulpa, C.F. (1997):
Biodegradation of methyl t-butyl ether by pure bacterial cultures. Appl. Microbiol.
Biotechnol., 47: 69–72
Mortensen, J.V., Nielsen, K.H. & Jørgensen, U. (1998): Nitrate leaching during
establishment of willow (Salix viminalis)on two soil types and at two fertilisation
levels. Biomass and Bioenergy, 15(6): 457-466.
Moser, M. & Haselwandter, K. (1983): Ecophysiology of Mycorrhizal symbioses. pp
392–421 i: Encyclopedia of plant physiology. New Series. 12C: Physiological
plant ecology. 3: Responses to the chemical and biological environment. Berlin, Springer.
Nakajima, D., Kojima, E., Iwaya, S., Suzuki, J. & Suzuki, S. (1996): Presence of
1-hydroxypyrene conjugates in woody plant leaves and seasonal changes in their
concentrations. Environ. Sci. Technol., 30: 1675–1679.
Narayanan, M., Davis, L.C. & Erickson, L.E. (1995): Fate of volatile chlorinated
organic compounds in a laboratory chamber with alfalfa plants. Environ. Sci. Technol., 29:
2437–2444
Neumann, G., Hülster, A. & Marschner, H. (1996): Identifizierung
PCDD/F-mobilisierender Verbindungen in Wurzelexudaten von Zucchini. Veroeff. PAOe,
16: 513–528.
Newman, E.I. (1985): The rhizosphere: carbon sources and microbial populations. pp
107–121 i: Ecological interactions in soil. Plants, microbes and Animals. Redigeret
af A.H. Fitter, Blackwell Scientific Publications, England
Newman, L., Wang, X., Muiznieks, I., Ekuan, G., Ruszaj, M., Cortellucci, R., Domroes,
D., Karscig, G., Newman, T., Crampton, R. S., et al. (1999): Remediation of
trichloroethylene in an artificial aquifer with trees: A controlled field study. Environ.
Sci. Technol., 33: 2257–2265
Newman, L.A. (2000): Presentation at the DHI Danish Hydraulic Institute, Hørsholm, 9th
March 2000.
Newman, L.A., Doty, S.L., Gery, K.L., Heilman, P.E., Muiznieks, I., Shang, T.Q.,
Siemieniec, S.T., Strand, S.E., Wang, X., Wilson, A.M. & Gordon, M.P. (1998):
Phytoremediation of organic contaminants: A review of phytoremediation research at the
university of Washington. J. Soil Cont., 7(4): 531–542.
Newman, L.A., Strand, S.E., Choe, N., Duffy, J., Ekuan, G., Ruszaj, M., Shurtleff,
B.B., Wilmoth, J., Heilman, P. & Gordon, M.P. (1997): Uptake and biotransformation of
trichloroethylene by hybrid poplars. Environ. Sci. Technol., 31: 1062–1067
Normander, B., Hendriksen, N.B. & Nybroe, O. (1999): Green fluorescent
protein-marked Pseudomonas fluorescens: Localization, viability and activity in the
natural barley rhizosphere. Appl. Environ. Microbiol., 65: 4646–4651
O’Neill, E.J., Cripe, C.R., Mueller, L.H., Conolly, J.P. & Pritchard, P.H.
(1989): Fate of fenthion in salt-marsh environments: II. Transport and biodegradation in
microcosms. Environ. Toxicol. Chem., 8: 759–68
Oliebranchens Miljøpuljes hjemmesider (2001): http://www.oil-forum.dk/om/statistik/
Olsen, I., Thomsen, M., Jeppesen, A.Z. & Rand, R.H.(1997): Erfaringsopsamling på
Amternes registreringsundersøgelser. Amternes Videnscenter for Jordforurening. Teknik
& Administration nr. 3, 1997
Olson, P.E. & Fletcher, J.S. (2000): Ecological recovery of vegetation at a former
industrial sludge basin and its implications to phytoremediation. Environ. Sci. &
Poll. Res., 7: 195-204
Orchard, B.J., Doucette, W.J., Chard, J.K. & Bugbee, B. (2000): Uptake of
trichloroethene by hybrid poplar trees grown hydroponically in flow-through plant growth
chambers. Environ. Tox. Chem., 19: 895–903
Perrson, G. (1995): Willow stands evapotranspiration simulated for Swedish soils. Agricultural
Water Management, 28: 271–293.
Pradhan, S.P., Conrad, J.R., Paterek, J.R. & Sristava, V.J. (1998): Potential of
phytoremediation for treatment of PAHs in soil at MPG sites. J. Soil Cont., 7:
467–480.
Qiu, X., Leland, T.W., Shah, S.I., Sorensen, D.L. & Kendall, E.W. (1997): Field
study: Grass Remediation for Clay Soil Contaminated with Polycyclic Aromatic Hydrocarbons.
ACS Symposium Series 664, ed. by Kruger, Anderson & Coats, kapitel 14:
186–199. American Chemical Society, Washington DC
Radwan, S., Sorkhoh, N. & El-Nemr, I. (1995): Oil biodegradation around roots. Nature,
376: 302.
Reilley, K.A., Banks, M.K. & Schwab, A.P. (1996): Dissipation of polycyclic
aromatic hydrocarbons in the rhizosphere. J. Environ. Qual., 25: 212–219.
Reynolds, C.M., Koenen, B.A., Carnahan, J.B., Walworth, J.L. & Bhunia, P. (1997):
Rhizosphere and nutrient effects on remediating subarctic soils. pp 297–302 i: In
Situ and On-Site bioremediation: Volume 1. Papers from the Fourth International In-Situ
and On-Site Bioremediation Symposium. New Orleans, April 28–May 1, 1997. Battelle
Press, Columbus.
Rigitano, R.L.O., Bromilow, R.H., Briggs, G.G. & Chamberlain, K. (1987): Phloem
translocation of weak acids in Ricinus communis. Pestic. Sci., 19:
113–133.
Rijnaarts, H.H.M., Bachmann, A., Jumelet, J.C. & Zehnder, A.J.B. (1990): Effect of
desorption and intraparticle mass transfer on the aerobic biomineralization of
alpha-hexachlorocyclohexane in a contaminated calcareous soil. Environ. Sci. Technol., 24:
1349–1354.
Rippen, G. (1996–1999): Handbuch Umweltchemikalien. ecomed, Landsberg a.L.,
Germany (Løbende opdateret ringbindsversion).
Rytter, R.M. & Hansson, A.C. (1996): Seasonal amount, growth and depth distribution
of fine roots in an irrigated and fertilized Salix viminalis L. plantation. Biomass
and Bioenergy, 11: 129–137.
Salanitro, J.P., Diaz, L.A., Williams, M.P. & Wisniewski, H.L. (1994): Isolation of
a bacterial culture that degrades methyl t-butyl ether. Appl. Environ. Microbiol.,
60(7): 2593–2596
Sandermann, H. (1994): Higher plants metabolism of xenobiotics: the 'green liver'
concept. Pharmacogenetics, 4: 225–241.
Sanders, P.F. & Stern, A.H. (1994): Calculation of soil cleanup criteria for
carcinogenic volatile organic compounds as controlled by the soil-to-indoor air exposure
pathway. Environ. Toxicol. Chem., 13: 1367–1373.
Schlegel, H. (1993): General microbiology. Cambridge Univ. Press, 7. udgave.
Schnoor, J.L., Licht, L.A., McCutcheon, S.C., Wolfe, N.L. & Carreira, L.H. (1995):
Phytoremediation of organic and nutrient contaminants. Environ. Sci. Technol., 29:
318A–323A.
Schnöder, F., Mittelstaedt, W. & Führ, F. (1996): Das Verhalten von 14C-Fluoranthen
und -Benzo(a)pyren sowie 14C-PCB 28 und -PCB 52 im Agrarökosystem -
Lysimeterversuche mit einer Parabraunerde aus Löss. In Landesumweltamt NRW, eds, Materialien
zur Ermittlung und Sanierung von Altlasten, LUA Essen, Germany, pp 1–214.
Schwab, A.P. & Banks, M.K. (1994): Biologically mediated dissipation of
polyaromatic hydrocarbons in the root zone. Kapitel 12 pp 132–141 i: Bioremediation
through rhizosphere technology. ACS Symposium Series 563, USA
Schwab, A.P., Al-Assi, A.A. & Banks, M.K. (1998): Plant and environmental
interactions. Adsorption of naphthalene onto plant roots. J. Environ. Qual., 27:
220–224
Schwab, A.P., Banks, M.K. & Arunachalam, M. (1995): Biodegradation of Polycyclic
Aromatic Hydrocarbons in Rhizosphere Soil. I: Hinchee, R.E., Anderson, D.B. og Hoeppel,
R.E. (eds.): Bioremediation of recalcitrant organics, Battelle Memorial Institute,
USA, pp 23–29
Shiaris, M.P. (1989): Seasonal biotransformation of naphthalene, phenanthrene and
benzo(a)pyrene in superficial sediments. Appl. Environ. Microbiol., 55:
1391–99
Shimp, J.F., Tracy, J.C., Davis, L.C., Huang, W., Erickson, L.E. & Schnoor, J.L.
(1993): Beneficial effects of plants in the remediation of soil and groundwater
contaminated with organic materials. Crit. Rev. Environ. Sci. Technol., 23:
41–77
Shone, M.G.T. & Wood, A.V. (1974): A comparison of the uptake and translocation of
some organic herbicides and a systemic fungicide by barley. I. Adsorption in relation to
physico-chemical properties. J. Exp. Botany, 25: 390–400
Siciliano, S.D. & Germida, J.J. (1998): Mechanisms of phytoremediation: biochemical
and ecological interactions between plants and bacteria. Environ. Rev., 6:
65–79
Skude & Jacobsen (Rådgivende Ingeniører): Statusrapport nr. 1, Bøgevangen 14,
Allerød – Phytooprensning. 27-1- 2000
Smith, M.R. (1990): The biodegradation of aromatic hydrocarbons by bacteria. Biodegradation,
1: 191–206
Squillace, P.J., Zogorski, J.S., Wilber, W.G. & Price, C.V. (1996): Preliminary
assessment of the occurrence and possible sources of MTBE in groundwater in the United
States, 1993–1994. Environ. Sci. Technol., 30: 1721–1730
Steffan, R.J., McClay, K., Vainberg, S., Condee, C.W. & Zhang, D. (1997):
Biodegradation of the gasoline oxygenates methyl tert-butyl ether, ethyl tert-butyl ether,
and tert-amyl methyl ether by propane-oxidizing bacteria. Appl. Environ. Microbiol.,
63: 4216–4222
Stringfellow, W.T. & Aitken, M.D. (1995): Competitive metabolism of naphthalene,
methylnaphthalenes and fluorine by phenanthrene-degrading pseudomonads. Appl. Environ.
Microbiol., 61: 357–62
Suflita, J. M. & Mormile, M.R. (1993): Anaerobic biodegradation of known and
potential gasoline oxygenates in the terrestrial subsurface. Environ. Sci. Technol.,
27(5): 976–978
Suominen, L., Jussila, M.M., Mäkeläinen, K., Romantschuk, M. & Lindström, K.
(2000): Evaluation of the Galega-Rhizobium galegae system for the bioremediation of
oil-contaminated soil. Environ. Pollution, 107: 239–244
Svenson, A., Kjeller, L.-O. & Rappe, C. (1989): Enzyme-mediated formation of
2,3,7,8-tetrasubstituted chlorinated dibenzodioxins and dibenzofurans. Emviron. Sci.
Technol., 23: 900–902.
Thompson, P.L., Ramer, L.A., Guffey, A.P. & Schnoor, J.L. (1998): Decreased
transpiration in poplar trees exposed to 2,4,6-trinitrotoluene. Environ. Toxicol.
Chem., 17(5): 902–906.
Topp, E.M. (1985): Aufnahme von Umweltchemikalien in die Pflanze in Abhängigkeit von
physikalisch-chemischen Stoffeigenschaften. Dissertation, Technische Universität
München.
Trapp, S. & Christiansen, H. (2001): Phytoremediation as in situ Treatment Method
for Cyanide-Polluted Soils. I: McCutcheon, S.C. & Schnoor, J.L. (eds.):
Phytoremediation: Transformation and Control of Contaminants. Optaget til publicering af
John Wiley & Sons.
Trapp, S. & Matthies, M. (1997): Modeling Volatilisation of PCDD/F from Soil and
Uptake into Vegetation. Environ. Sci. Technol., 31(1): 71–74.
Trapp, S. & Pussemier, L. (1991): Model Calculations and Measurements of Uptake and
Translocation of Carbamates by Bean Plants. Chemosphere, 22 (3/4): 327–339.
Trapp, S. (1995): Model for uptake of xenobiotics into plants. I: Trapp, S. & Mc
Farlane, C. (eds.), Plant Contamination - Modeling and Simulation of Organic Chemical
Processes. Lewis Pub., Boca Raton, Florida, USA, 107–151.
Trapp, S. (2000): Modeling uptake into roots and subsequent translocation of neutral
and ionisable organic compounds. Pest Management Science (formerly Pesticide Science) 56:
767–778.
Trapp, S., Matthies, M. & Reiter, B. (1998): Transferfaktoren Boden-Pflanze.
Rapporteret til det tyske Umweltbundesamt, Project No. 107 02 005, upubliseret.
Trapp, S., Mc Farlane, C. & Matthies, M. (1994): Model for Uptake of Xenobiotics
into Plants - Validation with Bromacil Experiments. Environ. Toxicol. Chem., 13(3):
413–422.
Trapp, S., Zambrano, K.C., Kusk, K.O. & Christiansen, H. (under forberedelse):
Laboratory studies and model calculations to the Axelved Phytoremediation Site.
Trapp, S., Zambrano, K.C., Kusk, K.O. & Karlson, U. (2000): A phytotoxicity test
using transpiration of willows. Arch. Environ. Cont. Toxicol., 39(2): 154–160.
US-EPA standard test methods 8100 and 8310. In the on-line publication SW-846: Test
Methods for evaluation solid wastes. Physical chemical methods. Download via http://www.epa.gov/epaoswer/hazwaste/test/index.htm
Van Zwieten, L., Sriskandarajah, S., Feng, L. & Kennedy, I.R. (1992):
Plant-microbial associations: The potential for bioremediation. Soil decontamination
using biological processes, 6–9 december 1992, Karlsruhe, DECHEMA, Frankfurt,
Germany
Volkering, F., Breure, A.M. & van Andel, J.G. (1993): Effect of micro-organisms on
the bioavailability and biodegradation of crystalline naphthalene. Appl. Microbiol.
Biotechnol., 40: 535–540.
Walton, B.T. & Anderson, T.A. (1990): Microbial degradation of trichloroethylene in
the rhizosphere: Potential application to biological remediation of waste sites. Appl.
Environ. Microbiol., 56: 1012–1016
Watanabe, M.E. (1997): Phytoremediation on the brink of commercialization. Environ.
Sci. Technol., 31: 182A–186A.
Wiedemeier, T.H., Rifai, H.S., Newell, C.J. & Wilson, J.T. (1999): Natural
attenuation of fuels and chlorinated solvents in the subsurface. John Wiley & Sons,
New York.
Wild, S.R. & Jones, K.C. (1992): Organic chemicals in the environment. Polynuclear
aromatic hydrocarbon uptake by carrots grown in sludge-amended soil. J. Environ. Qual.,
21: 217–225
Wild, S.R., Jones, K.C. & Johnston, A.E. (1992): The polynuclear aromatic
hydrocarbon (PAH) content of herbage from a long term grassland experiment. Atmospheric
Environment, 26A: 1299–1307
Wiltse, C.C., Rooney, W.L., Chen, Z., Schwab, A.P. & Banks, M.K. (1998): Greenhouse
evaluation of agronomic and crude oil-phytoremediation potential among alfalfa genotypes. J.
Environ. Qual., 27: 169-173
Yeh, C.K. & Novak, J.T. (1994): Anaerobic biodegradation of gasoline oxygenates in
soils. Water Environ. Res., 66: 744–752
Yuste, L., Canosa, I. & Rojo, F. (1998): Carbon-source-dependent expression of the PalkB
promotor from the Pseudomonas oleovorans alkane degradation pathway. J.
Bacteriol., 180: 5218–5226
Zakharova, E.A., Kosterin, P.V., Brudnik, V.V., Sherbakov, A.A., Ponomaryov, A.A.,
Shcherbakova, L.F., Mandich, V.G., Federov, E.E. & Ignatov, V.V. (2000): Soil
phytoremediation from the breakdown products of the chemical warfare agent, yperite. Environ.
Sci. & Poll. Res., 7: 191-194.
Zhang, Q. (1999): Phytoremediation of methyl tert-butyl ether (MTBE) in groundwater -
experimental and modeling studies. Dissertation, Department of Chemical Engineering,
Kansas State University
Zhang, Q., Davis, L.C. & Erickson, L.E. (1999): An experimental study of
phytoremediation of methyl-tert butylether (MTBE) in groundwater. Proc. of the 1999
Conference on Hazardous Waste Research, 227–242.
Öberg, L.G., Glas, B., Swanson, S.E., Rappe, C. & Paul, K.G. (1990):
Peroxidase-catalyzed oxidation of chlorophenols to polychlorinated dibenzo-p-dioxins
and dibenzofurans. Arch. Environ. Contam. Toxicol., 19: 930–938.
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