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Pubmed for Handhelds

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Journal Abstract Search

270 related items for PubMed ID: 19184738

  • 1. Relationship between polycyclic aromatic hydrocarbon (PAH) accumulation in semipermeable membrane devices and PAH bile metabolite levels in Atlantic cod (Gadus morhua).
    Harman C, Holth TF, Hylland K, Thomas K, Grung M.
    J Toxicol Environ Health A; 2009; 72(3-4):234-43. PubMed ID: 19184738
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  • 2. Polycyclic aromatic hydrocarbon (PAH) metabolites in Atlantic cod exposed via water or diet to a synthetic produced water.
    Grung M, Holth TF, Jacobsen MR, Hylland K.
    J Toxicol Environ Health A; 2009; 72(3-4):254-65. PubMed ID: 19184740
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  • 3. Assessment of bioavailable PAH, PCB and OCP concentrations in water, using semipermeable membrane devices (SPMDs), sediments and caged carp.
    Verweij F, Booij K, Satumalay K, van der Molen N, van der Oost R.
    Chemosphere; 2004 Mar; 54(11):1675-89. PubMed ID: 14675846
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  • 4. [Comparison between biomimetic sampling technique using semipermeable membrane device and bioconcentration in caged fish for polycyclic aromatic hydrocarbons].
    Ke RH, Qiao M, Xu YP, Huang SB, Wang ZJ.
    Huan Jing Ke Xue; 2006 Jul; 27(7):1410-4. PubMed ID: 16881320
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  • 5. Biological effects of polycyclic aromatic hydrocarbons (PAH) and their first metabolic products in in vivo exposed Atlantic cod (Gadus morhua).
    Pampanin DM, Le Goff J, Skogland K, Marcucci CR, Øysæd KB, Lorentzen M, Jørgensen KB, Sydnes MO.
    J Toxicol Environ Health A; 2016 Jul; 79(13-15):633-46. PubMed ID: 27484143
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  • 6. Effects of produced water on reproductive parameters in prespawning Atlantic cod (Gadus morhua).
    Sundt RC, Björkblom C.
    J Toxicol Environ Health A; 2011 Jul; 74(7-9):543-54. PubMed ID: 21391097
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  • 7. Investigation of fixed wavelength fluorescence results for biliary metabolites of polycyclic aromatic hydrocarbons formed in Atlantic cod (Gadus morhua).
    Pampanin DM, Kemppainen EK, Skogland K, Jørgensen KB, Sydnes MO.
    Chemosphere; 2016 Feb; 144():1372-6. PubMed ID: 26492423
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  • 11. Field uptake rates of hydrophobic organic contaminants by semipermeable membrane devices: environmental monitoring considerations.
    Sanchez-Hernandez JC, Borghini F, Corral A, Grimalt JO.
    J Environ Monit; 2004 Nov; 6(11):919-25. PubMed ID: 15536507
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  • 15. Oil well produced water discharges to the North Sea. Part I: comparison of deployed mussels (Mytilus edulis), semi-permeable membrane devices, and the DREAM model predictions to estimate the dispersion of polycyclic aromatic hydrocarbons.
    Durell G, Utvik TR, Johnsen S, Frost T, Neff J.
    Mar Environ Res; 2006 Sep; 62(3):194-223. PubMed ID: 16713621
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  • 16. The application of HPLC-F and GC-MS to the analysis of selected hydroxy polycyclic hydrocarbons in two certified fish bile reference materials.
    Jonsson G, Beyer J, Wells D, Ariese F.
    J Environ Monit; 2003 Jun; 5(3):513-20. PubMed ID: 12833997
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  • 17. Study of the bile proteome of Atlantic cod (Gadus morhua): Multi-biological markers of exposure to polycyclic aromatic hydrocarbons.
    Pampanin DM, Larssen E, Øysæd KB, Sundt RC, Sydnes MO.
    Mar Environ Res; 2014 Oct; 101():161-168. PubMed ID: 25440786
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  • 20. [Comparison of the methods for assessing Ah effects in aquatic system by semipermeable membrane device and caged fish].
    Ke RH, Li J, Xu YP, Wang ZJ.
    Huan Jing Ke Xue; 2006 Nov; 27(11):2309-13. PubMed ID: 17326446
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