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N. Pernar, D. Bakšić, V. Bobić, I. Perković: STANJE TLA U MIKRODEPRESIJAMA ŠUME ŽUTICA Šumarski list br. 9–10, CXXXII (2008), 405-417 6. Dosadašnja istraživanja ukazuju da pojedinačna sušenja i fiziološko slabljenje grupa stabala u šumi Žutica nije izravno povezano s kontaminacijom tla bušotinskim fluidom, osim rijetkih izuzetaka na vrlo malim površinama, kada se utjecaj može manifestirati kroz vrlo kratko razdoblje nakon akcidenta (ne više od godine dana10); 7. U budućem istraživanju na ovom prostoru trebalo bi dati naglasak na analizu strukture populacija (rodovi i vrste) mikroorganizama tla i moguću promijenu strukture kroz sezonske periode, uz praćenje vodnog režima šume Žutica (poplave) te kemijske analize voda u tim uvjetima. LITERATURA 1. A d e n i y i , A. A., J. A. A f o l a b i , 2002: Determination of total petroleum hydrocarbons and heavy metals in soils within the vicinity of facilities handling refined petroleum products in Lagos metropolis. Environment International, 28, (1–2): 79–82. 2. Alexander , M. 1994: Biodegradation and Bioremediation. AP, San Diego, CA 302 p. 3. A t l a s , R. M. (Ed.) 1984: Petroleum Microbiology, Macmillan Publishing Comp. New York, 475–504. 4. B a š i ć , F., B. P r p i ć , M. To m i ć , 1993: Utjecaj istraživanja proizvodnje i transporta nafte i plina na okoliš – lokalitet Ivanić Grad. Fond dokumentacije Zavoda za OPB, Agronomski fakultet Zagreb, 80 p. 5. B e r r y, K. A., D. L. B u r t o n , 1997: Natural attenuation of diesel fuel in heavy clay soil. Can. J. Soil Sci. 77, 469–477. 6. B o b i ć , V. , I. Z o r i ć , I. P a v u š e k , 1989: The effects of crude oil on marine hydrocarbonoclastic yeasts, Book of Abstracts, A. 1. Envirotech, Vienna, First international ISEP Congress. 7. Bobić, V., F. Anušić, I. Pavušek, 1990. The growth response of marine hydrocarbon-degradative yeast Candida sp. to drilling fluid, Abth stract Book of 5 European Congress in Biotechnology, Copenhagen, Eds. Christiansen C., Munck, L., Willandsen, J., Munksgaard, K. Copenhagen, 197–197. 8. B o b i ć , V., V. R u n j i ć - P e r i ć , I. P a v u š e k , 1993: Toxicity evaluation of drilling fluid components using marine yeast Candida sp. Sixth European Congress on Biotechnology, Firenz. Abstract Books Volume III, WE316. 9. Burkhardt, C., H. Insam, T. C. Hutchinson, H. H. Reber, 1993: Impact of heavy metals on the degradative capabilities of soil bacterial communities. Biol. Fertil. Soils. 16, 154–156. 10. D a v i s , J. B. 1967: Petroleum Microbiology, Elsevier, Amsterdam. – References 11. C a s e l l a , S., W. J. P a y n e , 1996: Potential of denitrifiers for soil envinonment protection. FEMS Microbiol. Lett. 140, (1): 1–8. 12. Chaineau, C. H., C. Yepremian, J. F. Vida l i e , J. Ducreaux, D. Ballerini, 2003: Bioremediation of a crude oil-polluted soil: biodegradation, leaching and toxicity assessments. Water Air Soil Pollut. 144, 419–440. 13. C h a n d e r, K., P. C. B r o o k s , 1991: Effects of heavy metals from past application of sewage sludge on microbial biomass and organic matter accumulation in a sandy loam soil and silty loam. UK Soil Biol Biochem 23, 927–932. 14. D e l i l l e , D., E. P e l l e t i e r, 2002: Natural attenuation of diesel-oil contamination in a subartictic soil (Crozet Island). Polar Biol. 25 p. 15. Dighton, J., M. Kooistra, 1993: Measurement of proliferation and biomass of fungal hyphae and roots, Geoderma 56, 317–330. 16. D i e l s , L., D. S p r i n g a e l , S., K r e p s , M. M e r g e a y, 1991: Construction and characterisation of heavy metal resistant, PCB- degrading Alcaligenes sp. Strains. In: On. Site Bioreclamation: Processes for Xenobiotic and Hydrocarbon Treatment (Hinche, R. E. & R. F. Olfenbutel, Eds.). Butterworth-Heinemann, Stoneham, MA. 483–493. 17. D u mi t r u , M., M. To t i , C. Ceausu, C. Cons t a n t i n , A. Vo i c u l e s c u , V. C a p i t a n u , E. P i r v u l e s c u , D. P o p a , 1998: Bioremediation of petroleum contaminated soils. Stinta Sollului, Soil Science Journal of the Romanian National Society of Soil Science, 1–2, 163–175, Bucarest. 18. H i r n e r, A. V., U. M. G r ü t e r, J. K r e s i m o n , 2000: Metal (loid) organic compounds in contaminated soil. Fresenius J. Anal. Chem. 368, 263–267. 19. J o n e s , J. G., M. K n i g h t , J. A. B y r o n , 1970: Effect of gross pollution by kerosene hydrocarbons on the microflora of moorland soil. Nature 227, 1166. 20. K a m p l i c h e r, C., E. K a n d e l e r, R. D. B a r d gett, T. H. Jones, M. Thomson, 1998: Impact Izuzetaci su mogući i u ovom slučaju u neposrednom okolišu saniranih deponija (isplačnih jama). |