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- Lee, K.G.; Lee, S.E.; Takeoka, G.R.; Kim, J.H.; Park, B.S.
- Journal of the science of food and agriculture 2005 v.85 no.9 pp. 1580-1586
- Fagus; wood; creosote; volatile organic compounds; antioxidants; antioxidant activity; food additives; herbal medicines; medicinal properties
- ... Volatile constituents of beechwood creosote were determined using gas chromatography (GC) and gas chromatography-mass spectrometry (GC-MS). The major volatile constituents of creosote were 2-methoxyphenol (guaiacol; 25.2%) 2-methoxy-4-methylphenol (4-methylguaiacol; 21.4%), 3-methylphenol (m-cresol; 8.3%) 4-methylphenol (p-cresol; 7.9%) 2-methylphenol (o-cresol; 4.6%) and phenol (2.8%). The antiox ...
- Viñas, Marc; Sabaté, Jordi; Espuny, María José; Solanas, Anna M.
- Applied and environmental microbiology 2005 v.71 no.11 pp. 7008-7018
- denaturing gradient gel electrophoresis; ribosomal RNA; genes; population dynamics; polluted soils; petroleum; soil pollution; bioremediation; population density; creosote; soil bacteria; community structure; soil water content; polycyclic aromatic hydrocarbons; aeration; nutrient availability; nucleotide sequences; biodegradation; Spain
- ... Bacterial community dynamics and biodegradation processes were examined in a highly creosote-contaminated soil undergoing a range of laboratory-based bioremediation treatments. The dynamics of the eubacterial community, the number of heterotrophs and polycyclic aromatic hydrocarbon (PAH) degraders, and the total petroleum hydrocarbon (TPH) and PAH concentrations were monitored during the bioremedi ...
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