Miljøprojekt, 922 – Fytoremidiering af tungmetalholdigt dambrugsslam

Fytoremidiering af tungmetalholdigt dambrugsslam

5 Referencer

Andersen, L., Holm, P.E., Lehmann, N.K.J., Petersen, L.S., Jørgensen, U. & Mortensen, J.V. 2000. Phytooprensning af metaller. Miljøprojekt nr. 536, Miljøstyrelsen. 63 pp.

Baguer, A.J., Jensen, J. & Krogh, P.H. 1999. Effects of the antibiotics oxytetracycline and tylosin on soil fauna. Chemosphere 40, 751-757.

Baker, A.J.M., McGrath, S.P., Sidoli, C.M.D. & Reeves, R.D. 1994. The possibility of in situ heavy metal decontamination of polluted soils using crops of metal-accumulating plants. Resources, Conser.vation and Recycling 11, 41-49.

Bañuelos, G.S. & Ajwa, H.A. 1999. Journal of Environmental Science and Health Part A 34(4), 951-974.

COWI 1998: Tungmetalforurening af slam fra dambrug. Kilder og afhjælpeforanstaltninger. COWI og Dansk Dambrugerforening.

Danfors, B., Ledin, S. & Rosenqvist, H. 1998. Short-rotation willow coppice: Growers manual. Swedish Institute of Agricultural Engineering. Björn Sundell, Sverige. 40 pp.

Ernst, W.H.O. 1995. Decontamination or consolidation of metal-contaminated soils by biological means. In: Heavy Metals: Problems and Solutions (eds. U. Foerstner, W. Salomons & P. Meder) pp 141-149. Springer Verlag, Berlin.

Ernst, W.H.O. 1996. Bioavailability of heavy metals and decontamination of soils by plants. Applied Geochemistry, 11, 163-167.

Ernst, W.H.O. 1988. Decontamination of mine sites by plants: an anlysis of the efficiency. In: En.vironmental Contamination 3rd Int. Conf. Venice (ed. A.A. Orio) pp 30+5-310. CEP Consultants, Edinburgh.

Felix, H. 1997. Field trials for in situ decontamination of heavy metal polluted soild using crops of metal-accumulating plants. Zeitschrift für Pflanzenernährung und Bodenkunde 160, 525-529.

Greger, M. 1997: Willow as phytoremediator of heavy metal contaminated soil. in II International Scientific-Technical Conference: Element Cycling in the Environment, pp. 167-172, Institute of En.vironmental Protection, Warzaw.

Greger, M., & Landberg, T. 1995: Use of willow clones with high Cd accumulating properties in phytoremediation of agricultural soils with elevated Cd levels. Contaminated Soils, 85, 505-511.

Hasselgren, K. 1984: Municipal wastewater reuse and treatment in energy cultivation. in Future of water reuse Vol. 1, pp. 414-427, AWWA Research Foundation, Denver, Colorado, San Diego, Cali.fornia.

Landberg, T. & Greger, M. 1996. Differences in uptake and tolerance to heavy metals in Salix from unpolluted and polluted areas. Applied Geochemistry 11, 175-180.

Ledin, S. 1996. Willow wood properties, production and economy. Biomass and Bioenergy 11, 75-83.

Pichtel, J., Kuroiwa, K. & Sawyerr, H.T. 2000. Distribution of Pb, Cd and Ba in soils and plants of two contaminated sites. Environmental Pollution 110, 171-178.

Reeves, R.D & A.J.M. Baker 2000. Metal-accumulating plans. In: Phytoremediation of toxic metals: Using plants to clean up the environment (eds. I. Raskin & B.D. Ensley) pp 193-229. John Wiley & Sons, USA.

Ridell-Black, D., Pulford, I., & Stewart, C. 1997: Clonal variation in heavy metal uptake by willow. Aspects of Applied Biology 49, 327-334.

Robinson, B.H., Mills, T.M., Petit, D., Fung, L.E., Green, S.R. & Clothier, B.E. 2000. Natural and induced cadmium-accumulation in poplar and willow: Implications for phytoremediation. Plant and Soil 227, 301-306.

Tichy, R., Fajtl, J., Kuzel, S. & Kolar, L. 1997. Use of elemental suphur to enhance a cadmium solubilization and its vegetative removal from contaminated soil. Nutrient Cycling in Agroecosystems 46, 249-255.

Westergaard, T. & Munkøe, M. 1999. Tungmetalfjernelse vha. phytooprensning. Eksamensprojekt nr 256. IGG, DTU.