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Growth and development of selected plant species in the phytoremediation of diesel oil contaminated soil

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Effect of soil contamination with diesel oil on the growth of two plant species – faba bean (Vicia faba ssp. minor) and rape (Brassica napus var. napus) was assessed. It was demonstrated that the presence of diesel oil initially reduced the number of germinating seeds and then limited their development. Negative effect of the contamination was visible also in relation to the length of the roots and above-ground plant parts. The plants stimulated the process of degradation of diesel oil, however, it occurred only in the initial incubation period.
Rocznik
Strony
5--13
Opis fizyczny
Bibliogr. 25 poz., tab., rys.
Twórcy
  • Department of Microbiology and Environmental Biotechnology, West Pomeranian University of Technology, Słowackiego 17, 71-434 Szczecin, Poland
autor
  • Department of Microbiology and Environmental Biotechnology, West Pomeranian University of Technology, Słowackiego 17, 71-434 Szczecin, Poland
Bibliografia
  • [1] HARVEY P.J., CAMPANELLA B.F., CASTRO P.M.L., HARMS H., LICHTFOUSE E., SCHAEFFNER A.R., SMRCEK S., WERCK-REICHHART D., Phytoremediation of polyaromatic hydrocarbons, anilines and phenols, Environ. Sci. Pollut. Res., 2002, 9, 29.
  • [2] ADAM G., DUNCAN H., Influence of diesel fuel on seed germination, Environ. Pollut., 2002, 120, 363.
  • [3] KAIMI E., MUKAIDANI T., MIYOSHI S., TAMAKI M., Ryegrass enhancement a of biodegradation in diesel-contaminated soil, Environ. Experim. Bot., 2006, 55, 110.
  • [4] KECHAVARZI C., PETTERSON K., LEEDS-HARRISON P., RITCHIE L., LEDIN S., Root establishment of perennial ryegrass (L. perenne) in diesel contaminated subsurface soil layers, Environ. Poll., 2007,145, 68.
  • [5] LIN Q., MENDELSSOHN I.A., Potential of restoration and phytoremediation with Juncus roemerianus for diesel-contaminated coastal wetlands, Ecol. Eng., 2009, 35, 85.
  • [6] TESAR M., REICHENAUER T.G., SESSITCH A., Bacterial rhizosphere populations of black poplar and herbal plants to be used for phytoremediation of diesel fuel, Soil Biol. Biochem., 2002, 34 (12), 1883.
  • [7] VERVAEKE P., LUYSSAER T.S., MERTENS J., MEERS E., TACK F.M.G., LUST N., Phytoremediation prospects of willow stands on contaminated sediment: a field trial, Environ. Pollut., 2003, 126, 275.
  • [8] ZAND A.D., BIDHENDI G.N., MEHRDADI N., Phytoremediation of total petroleum hydrocarbons (TPHs) using plant species in Iran, Turk. J. Agric. For., 2010, 34, 429.
  • [9] PARADA G.L, DE VIANA M.L., Germination and survival of Tithonia tubaeformis (Asteraceae) in soils containing petroleum hydrocarbon contaminants, Ecol. Austral., 2005, 15 (2), 177.
  • [10] BAUD-GRASSET F., BAUD-GRASSET S., SAFFERMAN S.I., Evaluation of the bioremediation of a contaminated soil with phytotoxicity tests, Chemosphere, 1993, 26, 1365.
  • [11] MOLINA-BARAHONA L., VEGA-LOGO L., GUERRERO M., RAMERIEZ S., ROMERO I., VEGA-JARQUIN C., ALBORES A., Ecotoxicological evaluation of diesel contaminated soil before and after a bioremediationprocess, Environmental Toxicology, 2005, 20, 100.
  • [12] HAWROT-PAW M., HRECZUK H., Potential remedial properties of selected plant species, Materials of the International Scientific Conference Degraded and Reclaimed Areas – the Possibility of Their Development, Ostoja, 2009, 65–70 (in Polish).
  • [13] HAWROT M., NOWAK A., Monitoring of bioremediation of soil polluted with diesel fuel applying bioassays, EJPAU, Environmental Development, 2005, 8 (2).
  • [14] PN-75/C-04573/10. The research content of extractable in organic solvents (in Polish).
  • [15] MAŁACHOWSKA-JUTSZ A., MIKSCH K., PRZYSTAŚ W., Influence of the rhizosphere on the degree of removal of PAHs, petroleum hydrocarbons TPH and heavy fractions of soil exposed to long-term effects of these compounds, National Symposium on Materials Science and Technology, Wisła–Bukowa, 1998, 157–170 (in Polish).
  • [16] ADAM G., DUNCAN H., The effect of diesel fuel on common vetch (Vicia sativa L.) plants, Environ. Geochem. Health, 2003, 25, 123.
  • [17] MERKL N., SCHULTZE-KRAFT R., INFANTE C., Phytoremediation of petroleum-contaminated soils in the tropics. Assessment of tropical grasses and legumes for enhancing oil degradation, Wat. Air Soil Pollut., 2005, 165, 195.
  • [18] SHARIFI M., SADEGHI Y., AKBARPOUR M., Germination and growth of six plant species on contaminated soil with spent soil, Int. J. Environ. Sci. Tech., 2007, 4 (4), 463.
  • [19] ZIÓŁKOWSKA A., WYSZKOWSKI M., Toxicity of petroleum substances to microorganisms and plants, Ecol. Chem Eng., 2010, 17 (1), 73.
  • [20] OGBO E.M., Effects of diesel fuel contamination on seed germination of four crop plants – Arachis hypogaea, Vigna unguiculata, Sorghum bicolor and Zea mays, Afr. J. Biotechnol., 2009, 8 (2), 250.
  • [21] WŁODKOWIC D., TOMASZEWSKA B., Oil pollution phytotoxicity tests for rape (Brassica napus) and alfalfa (Medicago sativa) in the aspect of potential applications in phytoremediation and biomonitoring, IHAR, 2003, 14, 231 (in Polish).
  • [22] HOU F.S.L., MILKE M.W., LEUNG D.W.M., MACPERSON D.J., Variation in phytoremediation performance with diesel-contaminated soil, Environ. Technol., 2001, 22, 215.
  • [23] LABUD V., GARCIA C., HERNANDEZ T., Effect of hydrocarbon pollution on the microbial properties of a sandy and a clay soil, Chemosphere, 2007, 66, 1863.
  • [24] RADWAN S.S., AL-AWADHI H., EL-NEMR I.M., Cropping as a phytoremediation practice for oily desert soil with reference to crop safety as food, Int. J. Phytoremed., 2000, 2 (4), 383.
  • [25] GERMIDA J., FRICK C., FARRELL R., Phytoremediation of oil-contaminated soils, [in:] A. Violante, P.M. Huang, J.M. Bollag, L. Gianfreda (Eds.), Soil mineral-organic matter–microorganism interactions and ecosystem health. Developments in Soil Sciences, Elsevier, Netherlands, 2002, 169.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-021296c4-7dc0-411b-879a-da7c1e86f88a
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