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• European Marine Strategy Framework Directive
  [[Image:Mareco.jpg|right|thumb|300px|<small>A marine ecosystem(Photo credit: [http://www.noaa.gov/ NOAA])</small>]] <P ALIGN="justify">The European Union's (2008/56/EC) '''Marine Strategy Framework Directive (MSFD)''' was adopted on 17 June 2008, and cam
  5 KB (708 words) - 09:18, 8 August 2019
• Talk:European Marine Strategy Framework Directive
  ...site] that provides clear, comprehensive and up-to-date information on the Marine Strategy Framework Directive. Knowledge of marine processes is far from complete. There are still many implementation issues
  1 KB (191 words) - 12:44, 14 January 2013
• Talk:Marine mammals' health as an indicator of ecosystem health - tools for monitoring
  79 bytes (13 words) - 15:40, 2 April 2013
• Marine Biotechnology in Ukraine
  {{Marine Biotechnology ...ine On priority directions of development of science and technique”. The marine research component of this Policy/Strategy is further developed in Part 5.6
  2 KB (257 words) - 09:57, 10 August 2019
• Marine Biotechnology in America
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] * [[Marine Biotechnology in Argentina|Argentina]]
  455 bytes (53 words) - 11:16, 9 August 2019
• Marine Biotechnology in Argentina
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[America] == National strategy for marine biotechnology ==
  2 KB (290 words) - 10:04, 10 August 2019
• Marine Biotechnology in Brasil
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[America] ...oss the areas comprising marine biotechnology interest, directly active in marine biotechnology or supporting it through biology, ecology, molecular biology
  7 KB (1,027 words) - 11:20, 9 August 2019
• Marine Biotechnology in Canada
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[America] ...4/dq110224f-eng.htm</ref>. 5% of the companies obtained their biomass from marine and aquaculture sources.
  11 KB (1,498 words) - 11:21, 9 August 2019
• Marine Biotechnology in Chile
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[America] == National strategy for marine biotechnology ==
  5 KB (702 words) - 11:21, 9 August 2019
• Marine Biotechnology in European countries
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] * [[Marine Biotechnology in Austria|Austria]]
  1 KB (161 words) - 11:23, 9 August 2019
• Marine Biotechnology at Pan-European level
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] ...Europe is a truly maritime continent, with access to an enormous range of marine habitats from coastal lagoons, to inshore waters to shelf seas and the deep
  31 KB (4,415 words) - 10:05, 10 August 2019
• Marine Biotechnology in European sea basins
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] * [[Marine Biotechnology in Atlantic, Celtic Sea, Bay of Biscay and the Iberian Coast|
  530 bytes (71 words) - 11:24, 9 August 2019
• Marine Biotechnology in USA
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[America] == National strategy for marine biotechnology ==
  14 KB (2,089 words) - 09:54, 10 August 2019
• Marine Biotechnology in Pacific Australia
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] * [[Marine Biotechnology in Australia|Australia]]
  246 bytes (28 words) - 10:02, 10 August 2019
• Marine Biotechnology in Australia
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[Australi == National strategy for marine biotechnology ==
  12 KB (1,775 words) - 11:18, 9 August 2019
• Marine Biotechnology in Asia
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] * [[Marine Biotechnology in China|China]]
  664 bytes (76 words) - 11:17, 9 August 2019
• Marine Biotechnology in China
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[Asia]] ...and R&D plans, certain activities are identified as national key projects; marine biotechnology is making a contribution to some of these in the biomedical a
  11 KB (1,580 words) - 11:22, 9 August 2019
• Marine Biotechnology international summaries
  Go back to: [[Portal:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] *[[Marine Biotechnology international summary|International]]
  590 bytes (57 words) - 09:56, 10 August 2019
• Marine Biotechnology international summary
  ...:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[Marine Biotechnology international summaries|International summaries]] ...chnology R&D programmes; it also identified the USA as the world leader in marine biotechnology.
  22 KB (3,139 words) - 16:48, 3 September 2020
• Marine Biotechnology international regional infrastructures summary
  ...:Marine Biotechnology|Home]] > [[Strategies, Policies and Programmes]] > [[Marine Biotechnology international summaries|International summaries]] ...</ref>. In a biofuels programme involving Namibia, Ghana and South Africa, marine algae are being investigated in Namibia <ref name="acc">http://www.acp-st.e
  19 KB (2,772 words) - 09:56, 10 August 2019

Page text matches

• PCO2 sensors
  using continuous and discrete sampling methods. Marine Chemistry 44: 189–204</ref>). Another overview on different systems is gi ...for the effect of temperature on the partial pressure of CO2 in seawater. Marine Chemistry 25: 29–37</ref>) combines aspects of the shower and bubble type
  5 KB (681 words) - 15:00, 20 August 2020
• Optical backscatter point sensor (OBS)
  ...tion of Sediment Suspension Processes in the Shallow Marine Environment. ''Marine Geology'', 42, p. 19-34.</ref>). The OBS [[sensor]] measures infra-red radi ...non homogeneous sediment suspensions using optical backscatter sensors. ''Marine Geology'', Vol. 110, p. 73-81.</ref>). The basic requirements are:
  11 KB (1,594 words) - 11:42, 20 August 2020
• Acoustic point sensors (ASTM, UHCM, ADV)
  [[Category:Coastal and marine observation and monitoring]]
  12 KB (1,685 words) - 16:25, 8 September 2020
• Acoustic backscatter profiling sensors (ABS)
  ...sand on the shoreface and the control of concentration by bed roughness. ''Marine Geology'', 96, p. 1-18.</ref>) used a pulse repetition rate of 10 Hz and fo ...mation to that of irregularly shaped scatterers, such as would be found in marine sediment.
  22 KB (3,217 words) - 11:14, 9 September 2020
• Optical Laser diffraction instruments (LISST)
  ...particle size and settling velocity observations in sediment transport. ''Marine Geology'', Vol. 168, p. 89-114.</ref>; 2002<ref>Agrawal, Y.C. and Pottsmith [[Category:Coastal and marine observation and monitoring]]
  9 KB (1,258 words) - 21:00, 29 June 2019
• French case studies: Upper tidal flat evolution in the bay of Mont-Saint-Michel (NW France)
  [[Category:Physical coastal and marine processes]]
  10 KB (1,645 words) - 17:46, 1 July 2020
• French case studies: Dynamic of swash bar and hook spit formation in megatidal environment, Regneville Inlet (Normandy, France)
  ...tidal beach under low-energy wave conditions, North Lincolnshire, England. Marine Geology, 190, 591-608. ...UR, C., 2000. The morphodynamics of megatidal beaches in Normandy, France. Marine Geology, 171, 39-59.
  13 KB (1,979 words) - 17:37, 1 July 2020
• Greek case studies: Morphological evolution of the R.Alfios deltaic shoreline
  [[Category:Physical coastal and marine processes]]
  5 KB (726 words) - 10:06, 2 July 2020
• Greek case studies: Sediment dynamics in the nearshore zone of Gouves (Heraklio, Crete) in relation to erosion (unpublished data 2006)
  [[Category:Physical coastal and marine processes]]
  7 KB (1,108 words) - 10:15, 2 July 2020
• Harmful algal bloom
  ...that naturally produce biotoxins. Harmful algal blooms (HABs) can occur in marine, estuarine, and fresh waters.<br> ...ignate any phytoplankton bloom event that causes 'negative' impacts on the marine ecosystem, for example oxygen depletion or sunlight shading. }}
  23 KB (3,458 words) - 22:27, 12 February 2024
• Stakeholder analysis
  ...Multi-stakeholder Knowledge Partnerships for the Sustainable Management of Marine Resources and Coastal Zones'. In the workshop 11 persons participated, from
  7 KB (1,007 words) - 17:34, 13 July 2020
• Decision support tools
  *The development of coastal and marine [[Spatial planning|spatial plans]]
  12 KB (1,735 words) - 20:16, 18 September 2023
• Application of data loggers to seabirds
  ...try] devices mainly since the 1970s to learn more about seabirds and their marine environment. In the beginning, devices have been very large so that they co ...d productivity (overview e.g. by Wilson et al. (2002)<ref>Wilson et al., ''Marine Ecology Progress Series'', 228: 241-261; 2002</ref>).
  5 KB (752 words) - 17:27, 10 August 2020
• NOKIS - Information Infrastructure for the North and Baltic Sea
  * [[European Marine Strategy Framework Directive]] [[Category:Coastal and marine observation and monitoring]]
  9 KB (1,250 words) - 20:51, 29 June 2019
• Input-output matrix
  For instance, if a policy option scenario for marine [[pollution]] management (e.g. a tax on plastic industry resulting in highe
  12 KB (1,790 words) - 16:15, 8 July 2020
• Wavelet analysis of coastal processes
  ...ry images from the mid-atlantic ridge using wavelet-based digital filters. Marine Geophysical Researches 18: 741-755</ref>). [[Category:Coastal and marine observation and monitoring]]
  20 KB (3,180 words) - 15:59, 6 October 2023
• Talk:European coastal and marine observatories (2020)
  ...as outdated. I have replaced this page with an overview of the coastal and marine observatories that currently (2020) participate in the JERICO network (Join
  284 bytes (38 words) - 17:26, 18 August 2020
• Currents and turbulence by acoustic methods
  .... A novel technique for measuring the rate of turbulent dissipation in the marine environment, ''Geophys. Res. Lett.'', 33, L21608, doi:10.1029/2006GL027050. ...eorol. Soc., Montreal, Que., Canada.</ref>) and it has been applied to the marine environment, with promising results, by Wiles et al. (2006<ref name="wiles"
  22 KB (3,631 words) - 22:30, 25 October 2020
• Coupled hydrodynamic - water quality - ecological modelling
  ...ecological modelling'' presents the 'effect chain' approach for modelling marine and coastal water quality and ecology. ...omplete food chain model, including pelagic fish, demersal fish, birds and marine mammals.
  7 KB (1,046 words) - 17:21, 7 September 2020
• Light fields and optics in coastal waters
  ...oplankton and macrophytes, and therefore set limits on the productivity of marine ecosystems. ...extensive literature on underwater light fields and associated problems in marine optics, but the fundamental concepts are clearly laid out in the books by K
  26 KB (3,866 words) - 20:41, 19 August 2020

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