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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 of elevated atmospheric CO2 concentration on soil microbial biomas and activity in a complex weedy field model ecosystem Global Change Biol. 4, 335–346. 21. K l u g , M. J., A. J. M a r k o v e t z , 1971: Utilization of aliphatic hydrocarbons by Microorganisms. U: Advances in Microbial Physiology, A. H. Rose, J. F. Wilkinson Eds., 1–43. 22. Koomen, I., S. P. McGrath, K. E. Giller, 1990: Mycorrhizal infection of white clover is delayed in soils contaminated with heavy metals from past sewage sludge applications. Soil Biol Biochem 22, 871–873. 23. L u i s , P. , G. Wa l t e r, H. K e l l n e r, F. M a r t i n , F. B o s c o t , 2004: Diversity of laccase genes from basodiomycetes in a forest soil. Soil Biol Biochem 36, 125–136. 24. McBridge , M. B., 1994: Environmental chemistry of soils. Oxford University Press, Inc, 406 p. 25. O l d e m a n et al. 1991: World map of the status of human induced soil degradation. ISRIC & UNEP. 26. P e r n a r, N., D. B a k š i ć , 2006 (a): Kontaminiranost tla u području naftnog polja. Glasnik za šumske pokuse. Posebno izdanje 5, 201–212. 27. P e r n a r, N., D. B a k š i ć , 2006 (b): Opterećenost tla šumskog ekosustava štetnim tvarima – Naftno polje Žutica / šuma žutica. Naftaplin 20, 73–88. 28. Pernar, N., D. Bakšić, O. Antonić, M. Gru b e š i ć , I. Ti k v i ć , M. Tr u p č e v i ć , 2006: Oil residuals in lowland forest soil after pollution with crude oil. Water, Air and Soil pollution. 177, 267–284. 29. R i e s e r - R o b e r t s , E. 1998: Remediation of petroleum contaminated soils. CRC Press LLC, 542 p. London. 30. R i l l i g , M. C., S. F. W r i g h t , V. T. E v i n e r, 2002: The role of arbuscular mycorrhizal fungi and glomalin in soil aggregation: comparing effects on live plant species. Plant soil 238, 325–333. 31. R o a n e , T. M., S. T. K e l l o g g , 1996: Characterization of bacterial communities in heavy metal contaminated soils. Can J Microb 42, 593–603. 32. R u k a v i n a , Ž., Z. J u r e t i ć , V. M i š e v i ć , M. To m i ć , M. Vi t e z i ć , 1990: Glavni tipski rudarski projekt “Sanacija isplačnih jama u INAnaftaplinu”. Fond dokumentacije tvrtke INA – industrija nafte d.d. Zagreb, 64 p. 33. S a r k a r, D., M. F e rg u s o n , R. D a t t a , S. B i r n b a u m , 2005: Bioremediation of petroleum hydrocarbons in contaminated soils: comparison of biosolids addition, carbon supplementation, and monitored natural attenuation. Environmental Pollution, 136 (1): 187–195. 34. Thorn , G., 1997: ModernSoilMicrobiology, Eds. VanElsa ßJ., Trevers, D., Welington, J. T., Dekker, J. M. H., New York, 63–128. 35. To t o, M., C. Constantin, M. Dracea, V. Capitanu, M. Damian, 1998: Some aspects cencerning the oil pollution and brine in Romanian soils. Stinta Sollului, Soil Science Journal of the Romanian National Society of Soil Science, 1–2, 177–187, Bucarest. 36. Trupčević , M. 2006: Katastar puknuća cjevovoda sabirno-otpremnog sustava Naftnog polja Žutica u razdoblju 1985–2003. godine. Naftaplin 20, 89–106. 37. Vanlocke, R., R. D e B o rg e r, J. P. Voets, W. Ve r s t r a e t e , 1975: Soil and groundwater contamination by oil spills, problems and remedies, Int. J .Environ. Studies 8, 99–111. 38. Vr b e k , B. 1998: Pedološke karakteristike gospodarske jedinice “Žutica” s kartom mjerila 1:10 000. Fond dokumentacije Šumarskog instituta Jastrebarsko, 26 p + prilozi. 39. Z a k , D. R., K. S. P r e g i t z e r, J. S. K i n g , W. E. H o l m e s , 2000. Elevated atmospheric CO2, fine roots and the response of soil microorganisms: a review and hipotesis. New Phytologist 147, 201–222. 40. Xiong, Z. T., H. X. Hu, Y. X. Wang, G. H. Fu, Z. Q. Ta n , G. A. Yan , 1997: Comparative Analyses of soil Contaminant Levels and Plant Species Diversity at Developing and Disused Oil Well Sites in Qianjiang Oilfield, China. Bull. Environ. Contam. Toxicol. 58, 667–672. SUMMARY: This work is the result of research undertaken in a polyvalent forest ecosystem situated on the edge of Lonjsko Polje Nature Park in central Posavina. The forest of Žutica is a very valuable forest management complex. Being a retention area for high waters of the River Sava, its larger part is also an oil-gas field. The last 30 to 40 years have seen physiological weakening and dieback of single trees and groups of trees and of pedunculate oak in particular. These |