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- ...exposed during moulting to concentrations of 75 µg/l, although some other marine invertebrate species were able to tolerate short exposure to concentrations3 KB (459 words) - 14:32, 9 August 2020
- ...ata are then normally used in a rather limited context. The [[About MarBEF|Marine Biodiversity and Ecosystem Functioning Network of Excellence]] (MarBEF) imp ...The MANUELA database: an integrated database on meiobenthos from European marine waters. Meiofauna Marina 17: 35-60] </ref>7 KB (1,065 words) - 22:41, 10 September 2020
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 ...nitiatives which aim to provide lists and information on all species (both marine and terrestrial).22 KB (2,825 words) - 15:37, 6 October 2021
- .... Therefore it poses a low toxicity threat by [[biomagnification]] towards marine mammals. Bisphenol A becomes lethal when mammals consume each day more than4 KB (550 words) - 14:03, 9 August 2020
- ...p://www.marbef.org MarBEF] working group [[About_MarBEF|Global Patterns of Marine Biodiversity across Ecosystems (Theme 1)]]. LargeNet focusses on capturing475 bytes (61 words) - 20:51, 10 September 2020
- ...stay in the top 15 cm. This reduces its exposure to surface waters and the marine environment. Glyphosate is a rather unstable molecule that can be biodegrad3 KB (386 words) - 12:01, 21 September 2020
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 ''Rhodopirellula'', an abundant red bacterium that lives attached to marine sediment grains was selected to investigate these questions. 70 different s12 KB (1,732 words) - 18:35, 22 February 2021
- ...for secondary poisoning. It might cause toxic effects when [[pollution and marine mammals|mammals]] consume each day more than 20 mg quinoxyfen per kg of bod3 KB (424 words) - 14:35, 9 August 2020
- ...ton|plankton]], but they are also found on and in marine sediments. In the marine sediments they are usually the second most abundant group, after the [http: ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2005 KB (792 words) - 20:34, 11 September 2020
- ...anding contributions of [http://www.marbef.org MarBEF] to our knowledge of marine biodiversity. ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2004 KB (517 words) - 12:25, 11 September 2020
- ...fauna or meiobenthos are small [[benthic]] invertebrates that live in both marine and fresh water environments. The term meiofauna loosely defines a group of692 bytes (108 words) - 14:48, 26 August 2009
- Imagine a similar scenario without chemical interactions in the marine environment. ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 20010 KB (1,425 words) - 16:17, 27 August 2023
- |definition=A substance which prevents or retards fouling or marine underwater growth on plants, rocks, ships' bottoms etc. }}204 bytes (26 words) - 12:54, 28 August 2009
- ...d how [[Atlantic Ocean|Atlantic]] water coming from a biologically diverse marine region (Norwegian Sea, Norwegian and British shelf) introduces additional [ ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2002 KB (331 words) - 18:10, 18 February 2024
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2007 KB (957 words) - 18:30, 22 February 2021
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 Since the 1980s, the Mediterranean marine [[biota]] have experienced rapid, dramatic changes, illustrated by alterati15 KB (2,170 words) - 13:39, 2 December 2020
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200730 bytes (104 words) - 15:24, 31 August 2009
- The genetic analysis of marine organisms has revealed various examples of cryptic [[species]]: [[populatio ...ave generated important new insights into the process of speciation in the marine environment. For example the Heart Urchin, [http://www.marinespecies.org/ap4 KB (580 words) - 16:43, 26 December 2020
- ...rfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 200 ...increase in [[nutrients]] and primary production of the 20th century) and marine mammal predators of cod (seals) were more abundant. The higher abundance of6 KB (908 words) - 13:42, 17 February 2024
- ...r species but also the relative abundances with which species populate our marine [[coastal area|coastal environments]]<ref name="ma"/>. ...m function|function of marine ecosystems]] is threatened by a [[Threats to Marine Biodiversity|range of human activities]].12 KB (1,660 words) - 18:34, 16 December 2020