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- .... The most relevant sections, imported from the articles [[Dynamics of mud transport]], [[Sediment deposition and erosion processes]] and [[Coastal and marine s ...they easily bind to one another (aggregate) and to other substances in an aquatic environment as the result of the electrochemical Van der Waals forces. This22 KB (3,430 words) - 13:17, 29 April 2024
- ...name="tien">Landsberg, J. H., 2002. The effects of harmful algal blooms on aquatic organisms. Reviews in Fisheries Science. 10, p113-390.</ref>. Toxines kunne ...het water wordt onttrokken, wordt de balans hersteld en vindt er een netto transport naar de oceaan plaats. Wanneer het plankton (of andere organismen) sterft,14 KB (1,989 words) - 17:04, 28 October 2013
- Clay particles in an aquatic environment tend to stick together (coagulate) as the result of the van der == Transport modes ==28 KB (4,158 words) - 16:19, 27 February 2023
- ...ncy to move outwards. Transversally, dykes have broken connections between aquatic [[habitat|habitats]] and reduced the area and diversity of wet land, includ ...ulating in the estuary and re-establishing connections between the various aquatic components of ecosystems. Adopting such objectives means considering each e36 KB (5,283 words) - 14:03, 2 March 2023
- ...Chemistry, focuses on process and product modelling of reaction kinetics, transport phenomena and fluid mechanics, sensitivity analysis, optimisation, intensif |University of Ljubljana, Faculty of Maritime Studies and Transport11 KB (1,368 words) - 10:00, 10 August 2019
- * [[COSINUS]] Prediction of COhesive Sediment transport and bed dynamics in estuaries and coastal zones with Integrated NUmerical S * [[SANDPIT]] Sand transport and morphology of offshore sand mining7 KB (873 words) - 11:50, 17 February 2024
- ...of common interests with priorities such as “Unlocking the potential of aquatic living resources within environmental and biological constraints” and set ...nvestment-round/document-image-library/investment-plan.pdf</ref> It has an aquatic biotechnology department involved in algal technologies, aquaculture, envir26 KB (3,643 words) - 11:37, 9 August 2019
- ...ies of scleractinian corals and their algal symbionts (Symbiodinium spp.). Aquatic Toxicology, 97(2), pp.125–133. ...nd partitioning of copper and cadmium in the coral Pocillopora damicornis. Aquatic Toxicology, 85(1), pp.48–56.50 KB (7,106 words) - 12:42, 14 September 2020
- ...(Phocoena phocoena), in: Popper, A.N. et al. (Ed.) The effects of noise on aquatic life. Advances in Experimental Medicine and Biology, 730: pp. 281-284.</ref ...fishing and animals being caught up in fishing nets. MUMM has equipment to transport live stranded dolphins. These animals are transferred to specialised rehabi77 KB (11,773 words) - 16:58, 17 February 2024
- .... It is therefore useful to review coarse and fine sediment properties and transport behaviors in tandem. The definition of particle size related to settling ve ...1 is that, based on the mineral particle diameter, coarse-grained sediment transport formulas are applicable down to 10 μm (not 62.5 μm). Below this diameter63 KB (9,960 words) - 23:03, 28 April 2024
- ...tion between freshwater and marine environments and are influenced by both aquatic realms. Salinity levels are indicative of the position within the mixing zo ...on, see the articles [[Estuarine turbidity maximum]] and [[Dynamics of mud transport]].22 KB (3,117 words) - 23:14, 20 January 2024
- ...knowledge including chemical processes of pollutants synthesis, hydraulic transport of compounds, biological impacts on human health or ecosystems, socio-econo ...iques, and analytical models to help predict the fate of these pollutants. Transport and dissemination models are implemented by universities, but only seldom u27 KB (4,006 words) - 18:23, 23 February 2019
- ...0m (Duarte, 1991<ref name=D91>Duarte, C.M., 1991. Seagrass depth limits. ''Aquatic Botany''.'''40(4)''', pp. 363-377.</ref>) and consist of approximately 50 s ...ondary circulation cell at the meadow’s edge thus producing complex, 3-D transport patterns. Tigny et al. (2007<ref>Tigny, V., Ozer, A., De Falco, G., Baroli,69 KB (10,397 words) - 17:04, 17 April 2024
- ...e in which plants and animals play in stabilizing and de-stabilizing these aquatic systems is also explored. ...orphology can be studied in terrestrial as well as aquatic systems. Within aquatic systems biogeomorphological relationships can be found for both hard substr15 KB (2,154 words) - 18:43, 7 March 2023
- Amount concentration of carbon found dissolved in water samples from aquatic systems, measured as total elemental carbon. Notes: # DOC is important in the transport and bioavailability of pollutants in aquatic systems.39 KB (5,335 words) - 13:31, 6 March 2022
- ...rld where offsetting seaweed could help raise pH and provide oxygen to the aquatic ecosystem, thereby locally reducing ocean acidification and deoxygenation. ...ub>2</sub> emissions in the aquaculture sector. Growing seaweeds alongside aquatic animal production could become an ‘‘offset pre-requisite’’ for finf35 KB (5,044 words) - 17:21, 16 February 2024
- ...the ever changing environment. The vegetation comprises evergreen emergent aquatic macrophytes, chiefly graminoids such as rushes, reeds, grasses and sedges, ...reservoirs) and sand extraction, which disrupts the continuity of sediment transport. These interventions generally take place higher upstream, so that downstre14 KB (2,146 words) - 12:57, 23 June 2023
