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Sorption of Lipophilic Organic Compounds to Wood and Implications for Their Environmental Fate

descriptionPublicationkeyboard_double_arrow_right Article , Journal 07 Mar 2001Publisher:American Chemical Society (ACS)Journal:Environmental Science & Technology, volume 35, pages 1,561-1,566 (issn: 0013-936X, eissn: 1520-5851,

Authors: Trapp, Stefan; Miglioranza, S.B.; Mosbæk, Hans;

doi: 10.1021/es000204f

pmid: 11329702

Sorption of Lipophilic Organic Compounds to Wood and Implications for Their Environmental Fate

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Abstract

The sorption from water to wood (KWood) of 10 organic chemicals (log KOW, 1.48-6.20) was experimentally determined for oak (Quercus robur) and basket willow (Salix viminalis). Linear regression yielded log KWood = -0.27 (+/- 0.25) + 0.632 (+/- 0.063) log KOW for oak (r = 0.90, n = 27) and log KWood = -0.28 (+/- 0.40) + 0.668 (+/- 0.103) log KOW for willow (r = 0.79, n = 27). According to an equilibrium-partitioning model, wood should be an important storage compartment for lipophilic environmental chemicals, but this is contrary to analytical results. Diffusive uptake from air into wood was estimated to be a relevant transport process only for chemicals with a high KAW. Uptake of chemicals from soil via xylem into stem was simulated with a dynamic one-compartment model. This pathway seems to be important for chemicals with low and intermediate lipophilicity. In large trees, the chemicals are retained for a long time. If metabolism inside the stem occurs, wood can serve as a "safe sink" for environmental chemicals. This might be of use in phytoremediation.

Related Organizations

Technical University of Denmark
Denmark
National University of Mar del Plata
Argentina
National University of Mar del Plata
Argentina

Keywords

Plant Stems, Air, Plant Roots, Wood, TRANSLOCATION, Trees, CHEMICALS, Plant Leaves, Soil, HYBRID POPLAR TREES, Animals, Regression Analysis, VEGETATION, Biomass, Organic Chemicals, ACCUMULATION

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