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THE EFFECTS OF TRITICUM AESTIVUM SPECIES FOR THE PHYTOREMEDIATION OF PETROLEUM-CONTAMINATED SOIL

Despina-Maria Bordean, A. Cojocariu

First published: 2013-06-20https://doi.org/10.5593/sgem2013/be5.v1/s20.126View metrics

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  • CrossRef - Citation Indexes: 3
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Publication details

Title
THE EFFECTS OF TRITICUM AESTIVUM SPECIES FOR THE PHYTOREMEDIATION OF PETROLEUM-CONTAMINATED SOIL
Authors
Despina-Maria Bordean, A. Cojocariu
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION
Publisher
Stef92 Technology
Year
2013
Pages
963 - 970 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References30
  1. Baker J.M., The effects of oil on plants, Environ. Pollut. 1970, pp 1, 27-44;

  2. Biederbeck, V.O., St. Jacques, R.M., Curtin, D., Geissler, H.J., Selles, F., and Waddington, J., Use of Heavy Oil Waste Sludge for P rotection and Improvement of Sandy Soil. Agriculture andAgri-Food Canada, SK, and Environment Canada. 1993;

  3. Frick C.M., Farrell R.E., Germida J.J., Assessement of Phytoremediation as an in situ technique of cleaning oil -contaminated sites, Petroleum Te chnology Alliance GeoConference on Ecology, Economics, Education and Legislation Canada, Calgary AB, University of Saskaton, Dept.of Soil Science, Saskaton, SK. http://w.w.w.rtdf.org/pub/phyto/phylinks.htm., 1999;

  4. Garson D., Testing Statistical Assumptio ns, G. David Garson & Statistical Associates Publishing, USA, http://www.statisticalassociates.com/assumptions.pdf , 2012, pp. 34-36;

  5. Gunther T, Dornberger U., Fritsche W., Effects of ryegrass on biodegradation of hydrocarbons in soil, Chemosphere, 1996, pp 33, 203-215;

  6. Iancu V., Mitrita M., Petre J., Cruceru L., Analytical investigation of some organic compounds from contaminated areas with petroleum products, Journal of Environmental Protection and Ecology,11, x27, 2010;

  7. Johnson J.G., R.L., Nitrogen dynamics in soils with different hydrocarbon contents planted to barley and field pea, Can. J. Soil.Sci., 1997, pp. 77, 453-458;

  8. Kathi S. , Khan A.B., Phytoremediation approaches to PAH contaminated soil, Indian J. of Science Technology,4(1), 2011, pp. 56-63;

  9. Liang Y., Zhang X., Dai D., Li G., Porous biocarrier -enhanced biodegradation of crudeoil contaminated soil, International Biodeterioration and Biodegradation 63, 2009, pp 1,80-87;

  10. Ndimele P.E, A. Review on the Phytoremediation of Petroleum Hydrocarbon, Pakistan Journal of Biological Sciences 13(15), 2010, pp. 715-722;

  11. Nica DV,Bura M, Gergen I, Harmanescu M, Bordean D -M: Bioaccumulative and conchological asses sment of heavy metal transfer in a soil -plant-snail food chain. Chem Centr J, http://journal.chemistrycentral.com/content/6/1/55 , 2012, pp. 6:55.

  12. Reilley K.A., Banks M.K., Schwab A.P ., Dissipation of polycyclic aromatic hydrocarbons in the rhizophere, J. Environ, Qual., 1996, pp. 25, 2012-1019;

  13. Reynolds C.M., Wolf D.C., Microbial based strategies for assessing rhizo sphereenhanced phytoremediation, Proceeding of the Phytoremedia tion Technical Seminar, May 31-June 1, Calgary, Ottawa, 1999, pp.125-135;

  14. Wang M.C., Chen Y.T., Chen S.H., Chang Chien S.W., Sunkara S.V., Phytoremediation of pyrene contaminated soils ammende with compost and planted with ryegrass and alfaalfa, Chemosphere, 87, 2012, pp. 217-225;

  15. Wyszkowski M., Ziolkowska A., Role compost, bentonite and calcium oxide in restricting the effect of soil contaminated with petrol and diesel oil on plants, Chemosphere 74, 2009, pp 860-865;

  16. Baker J.M., The effects of oil on plants, Environ. Pollut. 1970, pp 1, 27-44;

  17. Biederbeck, V.O., St. Jacques, R.M., Curtin, D., Geissler, H.J., Selles, F., and Waddington, J., Use of Heavy Oil Waste Sludge for P rotection and Improvement of Sandy Soil. Agriculture andAgri-Food Canada, SK, and Environment Canada. 1993;

  18. Frick C.M., Farrell R.E., Germida J.J., Assessement of Phytoremediation as an in situ technique of cleaning oil -contaminated sites, Petroleum Te chnology Alliance GeoConference on Ecology, Economics, Education and Legislation Canada, Calgary AB, University of Saskaton, Dept.of Soil Science, Saskaton, SK. http://w.w.w.rtdf.org/pub/phyto/phylinks.htm., 1999;

  19. Garson D., Testing Statistical Assumptio ns, G. David Garson & Statistical Associates Publishing, USA, http://www.statisticalassociates.com/assumptions.pdf , 2012, pp. 34-36;

  20. Gunther T, Dornberger U., Fritsche W., Effects of ryegrass on biodegradation of hydrocarbons in soil, Chemosphere, 1996, pp 33, 203-215;

  21. Iancu V., Mitrita M., Petre J., Cruceru L., Analytical investigation of some organic compounds from contaminated areas with petroleum products, Journal of Environmental Protection and Ecology,11, x27, 2010;

  22. Johnson J.G., R.L., Nitrogen dynamics in soils with different hydrocarbon contents planted to barley and field pea, Can. J. Soil.Sci., 1997, pp. 77, 453-458;

  23. Kathi S. , Khan A.B., Phytoremediation approaches to PAH contaminated soil, Indian J. of Science Technology,4(1), 2011, pp. 56-63;

  24. Liang Y., Zhang X., Dai D., Li G., Porous biocarrier -enhanced biodegradation of crudeoil contaminated soil, International Biodeterioration and Biodegradation 63, 2009, pp 1,80-87;

  25. Ndimele P.E, A. Review on the Phytoremediation of Petroleum Hydrocarbon, Pakistan Journal of Biological Sciences 13(15), 2010, pp. 715-722;

  26. Nica DV,Bura M, Gergen I, Harmanescu M, Bordean D -M: Bioaccumulative and conchological asses sment of heavy metal transfer in a soil -plant-snail food chain. Chem Centr J, http://journal.chemistrycentral.com/content/6/1/55 , 2012, pp. 6:55.

  27. Reilley K.A., Banks M.K., Schwab A.P ., Dissipation of polycyclic aromatic hydrocarbons in the rhizophere, J. Environ, Qual., 1996, pp. 25, 2012-1019;

  28. Reynolds C.M., Wolf D.C., Microbial based strategies for assessing rhizo sphereenhanced phytoremediation, Proceeding of the Phytoremedia tion Technical Seminar, May 31-June 1, Calgary, Ottawa, 1999, pp.125-135;

  29. Wang M.C., Chen Y.T., Chen S.H., Chang Chien S.W., Sunkara S.V., Phytoremediation of pyrene contaminated soils ammende with compost and planted with ryegrass and alfaalfa, Chemosphere, 87, 2012, pp. 217-225;

  30. Wyszkowski M., Ziolkowska A., Role compost, bentonite and calcium oxide in restricting the effect of soil contaminated with petrol and diesel oil on plants, Chemosphere 74, 2009, pp 860-865;

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Number of times cited according to Crossref: 3

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