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IMPACT OF SLUDGE ORIGINATED PCDDS/PCDFS ON SOIL CONTAMINATION AND SALIX SP. METABOLISM

Urbaniak, Magdalena, Wyrwicka, Anna, Serwecinska, Lilianna, Zielinski, Marek, Toloczko, Wojciech

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b32/s13.023View metrics

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Publication details

Title
IMPACT OF SLUDGE ORIGINATED PCDDS/PCDFS ON SOIL CONTAMINATION AND SALIX SP. METABOLISM
Authors
Urbaniak, Magdalena, Wyrwicka, Anna, Serwecinska, Lilianna, Zielinski, Marek, Toloczko, Wojciech
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-14-8
Language
en
Publication type
Conference Paper
References30
  1. Przewrocki P., Kulczycka J., Wzorek Z., et al., 2004. Risk Analysis of Sewage Sludge - Poland and EU Comparative Approach. Polish Journal of Environmental Studies, 13, 2, pp. 237-244. 2004 14th SGEM GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  2. Dabrowski W. Treatment and final utilization of sewage sludge from dairy waste wa ter treatment plants located in Podlaskie province. Contemporary problems of management and environmental protection Vol. 4. Sewages and waste materials in environment. pp. 141-151, 2009

  3. Rulkens W.,. Sewage Sludge as a Biomass Resource for the Production of Energy: Overview and Assessment of the Various Options†. Energy & Fuels, 22, pp 9–15, 2008

  4. US EPA. A Citizen’s Guide to Phytoremediation. EPA 542-F-98-011, 1998.

  5. Meers E., Vandecasteele B., Ruttens A., Vangronsveld J., Tack F.M.G. Potential of five willow species (Salix spp.) for phytoextraction of heavy metals. Environmental and Experimental Botany 60, pp 57 –68, 2007.

  6. Ericsson K. Rosenqvust H., Pisarek M., Nilsson L. An agro-economic analysis of willow cultivation on Poland. Biomass and Bioenergy 30, pp 16 – 27, 2006.

  7. Rappe C., Bergek S., Fiedler H., Cooper K. PCDD and PCDF contamination in catfish feed from Arkansas, USA. Chemosphere 36, pp 2705–2720, 1998.

  8. Stewart A., Harrad S.J., McLachlan M.S., McGrath S.P., Jones K.C. PCDD/Fs and non-o-PCBs in digested UK sewage sludges. Chemosphere 30, pp. 51-67, 1995.

  9. Eljarrat E., Caixach J., Rivera J. Decline in PCDD and PCDF levels in sewage sludges from Catalonia (Spain). Environ. Sci. Technol. 33, pp. 2493-2498, 1999.

  10. Dudzińska M.R., Czerwiński J. PCDD/F levels in sewage sludge from MWTP in South-Eastern Poland. Organohalogen Comp. 57, pp. 305-308, 2002.

  11. Oleszek-Kudlak S., Grabda M., Czaplicka M., Rosik-Dulewska Cz., Shibata E., Takashi N. Fate of PCDD/PCDF Turing mechanical-biological sludge treatment. Chemosphere 62, pp. 389-397, 2005.

  12. Drobniewska, 2008. Optymalizacja wykorzystania osadu ściekowego do produkcji bioenergii na podstawie wielkoskalowych eksperymentów terenowych oraz modelu matematycznego. University of Lodz, doctor al thesis.

  13. Romanowska-Duda B. and Grzesik M. Phytoremediation and Bioenergy. Demonstration Activity Report ,The City of Lodz, GOCE 0118530 SWITCH, 2007.

  14. Oleszczuk., P. Toxicity of Light Soil Fertilized by Sewage Sludge or Compost in Relation to PAHs Content. Water Air Soil Pollut , 210, 1, pp. 347-356, 2010.

  15. Wyrwicka A., Steffani S., Urbaniak M. The effect of PCB-contaminated sewage sludge and sediment on metabolism of cucumber plants (Cucumis sativus L.). Ecohydrology & Hydrobiology 14, pp. 75–82, 2014.

  16. Przewrocki P., Kulczycka J., Wzorek Z., et al., 2004. Risk Analysis of Sewage Sludge - Poland and EU Comparative Approach. Polish Journal of Environmental Studies, 13, 2, pp. 237-244. 2004 14th SGEM GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  17. Dabrowski W. Treatment and final utilization of sewage sludge from dairy waste wa ter treatment plants located in Podlaskie province. Contemporary problems of management and environmental protection Vol. 4. Sewages and waste materials in environment. pp. 141-151, 2009

  18. Rulkens W.,. Sewage Sludge as a Biomass Resource for the Production of Energy: Overview and Assessment of the Various Options†. Energy & Fuels, 22, pp 9–15, 2008

  19. US EPA. A Citizen’s Guide to Phytoremediation. EPA 542-F-98-011, 1998.

  20. Meers E., Vandecasteele B., Ruttens A., Vangronsveld J., Tack F.M.G. Potential of five willow species (Salix spp.) for phytoextraction of heavy metals. Environmental and Experimental Botany 60, pp 57 –68, 2007.

  21. Ericsson K. Rosenqvust H., Pisarek M., Nilsson L. An agro-economic analysis of willow cultivation on Poland. Biomass and Bioenergy 30, pp 16 – 27, 2006.

  22. Rappe C., Bergek S., Fiedler H., Cooper K. PCDD and PCDF contamination in catfish feed from Arkansas, USA. Chemosphere 36, pp 2705–2720, 1998.

  23. Stewart A., Harrad S.J., McLachlan M.S., McGrath S.P., Jones K.C. PCDD/Fs and non-o-PCBs in digested UK sewage sludges. Chemosphere 30, pp. 51-67, 1995.

  24. Eljarrat E., Caixach J., Rivera J. Decline in PCDD and PCDF levels in sewage sludges from Catalonia (Spain). Environ. Sci. Technol. 33, pp. 2493-2498, 1999.

  25. Dudzińska M.R., Czerwiński J. PCDD/F levels in sewage sludge from MWTP in South-Eastern Poland. Organohalogen Comp. 57, pp. 305-308, 2002.

  26. Oleszek-Kudlak S., Grabda M., Czaplicka M., Rosik-Dulewska Cz., Shibata E., Takashi N. Fate of PCDD/PCDF Turing mechanical-biological sludge treatment. Chemosphere 62, pp. 389-397, 2005.

  27. Drobniewska, 2008. Optymalizacja wykorzystania osadu ściekowego do produkcji bioenergii na podstawie wielkoskalowych eksperymentów terenowych oraz modelu matematycznego. University of Lodz, doctor al thesis.

  28. Romanowska-Duda B. and Grzesik M. Phytoremediation and Bioenergy. Demonstration Activity Report ,The City of Lodz, GOCE 0118530 SWITCH, 2007.

  29. Oleszczuk., P. Toxicity of Light Soil Fertilized by Sewage Sludge or Compost in Relation to PAHs Content. Water Air Soil Pollut , 210, 1, pp. 347-356, 2010.

  30. Wyrwicka A., Steffani S., Urbaniak M. The effect of PCB-contaminated sewage sludge and sediment on metabolism of cucumber plants (Cucumis sativus L.). Ecohydrology & Hydrobiology 14, pp. 75–82, 2014.

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Number of times cited according to Crossref: 3

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