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- ...solubility 0.02 mg/l, is very hydrophobic and is therefore expected in the marine environment to be mostly associated to organic matter, particles and sedim3 KB (401 words) - 14:09, 9 August 2020
- ...per billion) and 159 ppb. The highest measured concentration of benzene in marine water is 315 µg/l<ref name = atsdr>[http://www.atsdr.cdc.gov/toxprofiles/t4 KB (520 words) - 14:03, 9 August 2020
- ...|adsorb]] to particles and soils. Therefore it's unlikely to end up in the marine ecosystem. It has a high [[volatile|volatility]] causing it after use to us3 KB (462 words) - 14:05, 9 August 2020
- ...ij, C., Boutonnet, J., Garny, V. et al. Euro Chlor Risk Assessment for the Marine Environment Osparcom Region: North Sea - 1,2-Dichloroethane. Environ Monit3 KB (436 words) - 13:52, 9 August 2020
- ...document79.pdf Euro Chlor February 1999 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Dichloromethane]</ref>. ...document79.pdf Euro Chlor February 1999 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Dichloromethane]</ref>.4 KB (589 words) - 14:07, 9 August 2020
- ...ei">Heip C, Warwick RM, d’Ozouville L (1999). A European Science Plan on Marine Biodiversity. European Science Foundation, Strasbourg.</ref>. The physical environment of the seas and land is totally different. Marine organisms live4 KB (676 words) - 15:38, 27 December 2020
- ...d to induce acute toxicity. Some [[pollution and pelagic fishes|fish]] and marine invertebrate [[species ]] experience acute toxic effects at diuron concentr3 KB (411 words) - 14:10, 9 August 2020
- ...<ref name = ken>Kennish, M. J. (1996): Practical Handbook of Estuarine and Marine Pollution, CRC Press 524 pp</ref>. ...<ref name = ken>Kennish, M. J. (1996): Practical Handbook of Estuarine and Marine Pollution, CRC Press 524 pp</ref>.3 KB (411 words) - 14:14, 9 August 2020
- == Marine biodiversity == ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2008 KB (1,124 words) - 21:10, 21 February 2024
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 ...s addressed the most topical questions in [[Marine_habitats_and_ecosystems|marine ecology]], biogeochemistry, fisheries biology, [[taxonomy]] and socio-econo5 KB (685 words) - 21:07, 21 February 2024
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 In Europe, we have world-class marine scientists with outstanding skills and expertise6 KB (982 words) - 21:13, 21 February 2024
- Valuation of competing functions to optimise the societal use of coastal and marine resources. ...x solid #23297A"|[[Image:Theme03_40.png|link=Theme 3|Theme 3 : Coastal and marine spatial planning.]]||7 KB (825 words) - 17:09, 19 March 2013
- ...sent in the soils of [[estuary|estuaries]]<ref name = c>Clark, R,B., 1999. Marine pollution. Oxford University press, Fourth edition, pp 161</ref>. ...n caused by other [[pollutant|pollutants]]<ref name = c>Clark, R,B., 1999. Marine pollution. Oxford University press, Fourth edition, pp 161</ref>.3 KB (479 words) - 14:27, 9 August 2020
- Scientific data on [[marine Biodiversity|marine biodiversity]] is very much fragmented and scattered over many laboratories ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2006 KB (902 words) - 21:14, 21 February 2024
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2004 KB (597 words) - 20:52, 10 September 2020
- ...tional 500 tons are applied for nonagricultural uses. It mainly enters the marine environment through run off from application sites<ref name="epa">[http://w3 KB (465 words) - 14:35, 9 August 2020
- ...a strong tendency to [[adsorption|adsorb]] to organic matter and soils. In marine waters they are not considered to be easily degraded, and can be very [[per ...g [[pollution and sea birds|sea birds]] and [[pollution and marine mammals|marine mammals]]. Prolonged daily administration of doses of 100 mg of C<sub>10-135 KB (698 words) - 14:04, 9 August 2020
- ...p://www.marbef.org MarBEF] working group [[About_MarBEF|Global Patterns of Marine Biodiversity across Ecosystems (Theme 1)]] created and integrated database ...in detail at the data centre of the [http://www.vliz.be/EN/INTRO Flanders Marine Institute] (VLIZ). Describing these datasets in a standardised way made it7 KB (1,115 words) - 22:39, 10 September 2020
- ...ocuments/document80.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobenzene]</ref>. ...volatile]], its strong adsorption to particles prolongs its present in the marine environment<ref name="US">[http://www.atsdr.cdc.gov/toxprofiles/tp90.pdf U.5 KB (769 words) - 14:17, 9 August 2020
- ...ocuments/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>. ...ocuments/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>.5 KB (691 words) - 14:17, 9 August 2020
