Difference between revisions of "How can Marine Sciences help?"

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A comprehensive knowledge of marine life is essential for sustainable resource management and the economic sustenance of human societies. In order to achieve this aim, Marine Genomics Europe will unite individual teams in their research efforts to attain world-wide excellence in the field of Marine Genomics. It will expand the frontiers of emerging research forward and make major breakthroughs. This will be of particular use in other sectors such as health, fisheries, tourism, and agriculture.
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__TOC__
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A comprehensive knowledge of marine life is essential for sustainable resource management and the economic sustenance of human societies. In order to achieve this aim, Marine Genomics Europe will unite individual teams in their research efforts to attain world-wide excellence in the field of Marine Genomics. It will expand the frontiers of emerging research forward and make major breakthroughs. This will be of particular use in other sectors such as health, fisheries, tourism, and agriculture. <ref name="MGE">[http://www.vliz.be/imis/imis.php?module=ref&refid=126435 Volckaert F.A.M., Barbier M., Canário A.V.M., Clark M.S., Glöckner F.O., Olsen J.L., Wesnigk J., Boyen C. (2008) Marine Genomics Europe. The European flagship of marine sciences for a sustainable future. 38 pp. Marine Genomics Europe, EC-FP6 GOCE-CT-2004-505403]</ref>
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==Who is involved in the network?==
 
==Who is involved in the network?==
[[Image: diagramMGE.png | 400px | left|thumb]]
 
 
 
The organisation of the Marine Genomics research community directly affects its efficiency and social impact. It is organised at various levels, from the field to the academic lab, to R&D, and implementation to the level of regulatory bodies providing national and international (e.g., EU) regulations.
 
The organisation of the Marine Genomics research community directly affects its efficiency and social impact. It is organised at various levels, from the field to the academic lab, to R&D, and implementation to the level of regulatory bodies providing national and international (e.g., EU) regulations.
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[[Image: Diagram1MGE.png | 500px | right]]
 
===Main stakeholders involved in the network:===
 
===Main stakeholders involved in the network:===
 
====Needs for knowledge:====
 
====Needs for knowledge:====
*Multilateral interests in genomics in marine research are not represented by any specific agency, but rather by groups such as the Food and Agriculture Organisation (FAO), the European Fisheries and Aquaculture Research Organisation (EFARO) and the network of Marine Research Stations (MARS) include genetic and genomic research in their remit. Marine interests are also represented by the International Oceanographic Council of UNESCO (IOC) and the International Council for the Exploration of the Sea (ICES), and professional organisations such as the European Federation of Marine Science and Technology Societies (EFMS - including 6000 members, 200 institutions), the American Society of Limnology and Oceanography (ASLO), the International Association of Genetics in Aquaculture (IAGA) and the Sustainable Farm Animal Breeding and Reproduction Technology Platform (FABRE TP).
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*Multilateral interests in genomics in marine research are not represented by any specific agency, but rather by groups such as the [http://www.fao.org/index_en.htm|Food and Agriculture Organisation (FAO)], the [http://www.efaro.eu/ European Fisheries and Aquaculture Research Organisation (EFARO)] and the network of [http://www.marsnetwork.org/Marine Research Stations (MARS)] include genetic and genomic research in their remit. Marine interests are also represented by the [ http://ioc-unesco.org/ |International Oceanographic Council of UNESCO (IOC)] and the [International Council for the Exploration of the Sea (ICES)| http://www.ices.dk/indexfla.asp], and professional organisations such as the European Federation of Marine Science and Technology Societies (EFMS - including 6000 members, 200 institutions), the American Society of Limnology and Oceanography (ASLO), the International Association of Genetics in Aquaculture (IAGA) and the Sustainable Farm Animal Breeding and Reproduction Technology Platform (FABRE TP).
 
*'''Industry:''' Large companies, SMEs,
 
*'''Industry:''' Large companies, SMEs,
 
*'''Civil society:''' Citizens, Associations,
 
*'''Civil society:''' Citizens, Associations,
 
*'''Public Authority:''' Policy makers.
 
*'''Public Authority:''' Policy makers.
Marine genomics and biotechnology also contribute to national law and international treaties such as the UN Convention on the Law of the Sea (UNCLOS) and the UN Convention on Biological Diversity.
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Marine genomics and biotechnology also contribute to national law and international treaties such as the UN Convention on the Law of the Sea (UNCLOS) and the [http://www.cbd.int/UN Convention on Biological Diversity].
 
====Generation of knowledge:====
 
====Generation of knowledge:====
*Knowledge and expertise in Marine Genomics is largely based in academic and government research agencies (e.g., CSIC - Spain, NERC - UK, CNRS - F, MUIR - It, MPI - D), and in a growing number o companies (e.g., all major pharmaceutical
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[[Image: High-throughput platforms.PNG | 350px | right | thumb |High-throughput platforms handle thousands of samples per run. Photograph: © Yann Fontana, Station biologique de Roscoff, CNRS]]
companies but also
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*Knowledge and expertise in Marine Genomics is largely based in academic and government research agencies (e.g., CSIC - Spain, NERC - UK, CNRS - F, MUIR - It, MPI - D), and in a growing number o companies (e.g., all major pharmaceutical companies but also enterprises such as Prokarya, Biomérieux and Intervet) and in private foundations such as Volkswagen Foundation (Germany), Calouste Gulbenkian Foundation (Portugal) and Solvay Foundation (Belgium).
enterprises such as Prokarya, Biomérieux and Intervet) and in private foundations such as Volkswagen Foundation (Germany), Calouste Gulbenkian foundation (Portugal) and Solvay Foundation (Belgium).
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*Traditionally sample collection depends on coastal biological stations and ocean going vessels, some of them designed for operating under demanding circumstances such as the deep-sea, open ocean and polar regions.There is an increasing interest in developing automated stations and remote sensing for both classical water chemistry measurements and novel methods (including genomics) of environmental monitoring. It is expected that such stations will be adapted to serve applications such as fisheries management and weather prediction, as well as more academic requirements.
- Traditionally sample collection depends on coastal biological stations and ocean going vessels, some of them designed for operating under demanding circumstances such as the deep-sea, open ocean and polar regions.There is an increasing interest in developing automated stations and remote sensing for both classical water chemistry measurements and novel methods (including genomics) of environmental monitoring. It is expected that such stations will be adapted to serve applications such as fisheries management and weather prediction, as well as more academic requirements. - With regard to genomics, laboratories of all kinds in universities, biological stations (in which Europe has a particularly rich tradition) and government agencies provide capacity for genomic analysis. Most often, advanced high-throughput sequencing and structural analyses are provided by associated non-marine laboratories such as the Genoscope (Paris), the Sanger Institute (Cambridge) and the Max Planck Institute for Molecular Genetics (Berlin). These specialized laboratories provide a second pool of resources, which demand a high level of capital investment. - Scientific information is communicated through various online
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*With regard to genomics, laboratories of all kinds in universities, biological stations (in which Europe has a particularly rich tradition) and government agencies provide capacity for genomic analysis. Most often, '''advanced high-throughput sequencing''' and structural analyses are provided by associated non-marine laboratories such as the Genoscope (Paris), the Sanger Institute (Cambridge) and the Max Planck Institute for Molecular Genetics (Berlin). These specialized laboratories provide a second pool of resources, which demand a high level of capital investment.  
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*Scientific information is communicated through various online news groups, via list servers to peers at conferences (e.g., annual European Marine Biology Symposium, Marine Genomics 2006, International Marine Biotechnology Conference 2007) and in scientific journals (SCI publications between 2001-2006 under the key words marine/ocean*genomic/genetic reach > 3,500 references). In addition, communication to the R&D community is via newsgroups, professional journals (e.g., Marine Biotechnology and Marine Genomics) and websites (e.g., Federation of European Aquaculture Producers).
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 +
====Transmission of knowledge:====
 +
*Secondary education of school children
 +
*Higher education of students and researchers
 +
*Vocational and non-vocational education for adult groups, fishermen, developers, etc.
 +
====Exploitation of knowledge====
 +
*Financial Community:
 +
National governments and international agencies are the main sponsors of these capital-intensive activities. Investors look for niche markets.
 +
*Innovation supporters:
 +
Technology transfer, professional associations,
 +
*Communication:
 +
Communications / interviews with journalists and the public at large through international press agencies (such as Reuters, BBC, AFP) and local media.
 +
*Marketing.
 +
 
 +
 
 +
==Acknowledged recognition==
 +
 
 +
'''Acknowledged recognition of Marine Sciences'''
 +
 
 +
The [http://cordis.europa.eu/fp7/home_en.htmlEU FP7] identifies priority research themes in areas such as environment, transport, food, agriculture, biotechnology and energy. It declares that special attention will be paid to priority scientific areas which cut across themes, e.g. marine related sciences and technologies with the objective of increasing coordination and integration of marine related research in FP7.
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In its strategic objectives for 2005-2009, the European Commission declared “the particular need for an all-embracing maritime policy aimed at developing a thriving maritime economy, in an environmentally sustainable manner. Such a policy should be supported by excellence in marine scientific research, technology and innovation” (EU 2005).
 +
 
 +
'''Acknowledged recognition of the Marine Genomics Europe Network'''
 +
 
 +
By selecting the consortium in a highly competitive environment under the Sixth Framework Programme for Research and Development, the European Union has officially recognized the importance of the field of Marine Genomics and the high level of excellence of the consortium. The Marine Genomics Europe Network has played a key leading scientific role and has already received international renown and recognition in this sector.
 +
 
 +
==What are the direct economic opportunities for investors in Marine Genomics?==
 +
'''The expected return on investment….'''
 +
Exciting discoveries have to be developed so that they lead to a finished product suitable for development by a company. The number of organisations active in bio-prospecting and aquaculture varies considerably across the EU. The development of pharmaceuticals and bio-active compounds necessitates huge capital investments and involves equally huge financial risks. There is a tendency by larger companies to integrate successful smaller players (start-up companies). Investments, however, are required to increase this aspect of marine exploitation, not least of which between academic researchers and small commercial pilot projects. According to the Irish Marine Institute (Anonymous 2005), the marine sectors with most growth potential appear to be:
 +
*marine aquaculture,
 +
*marine biotechnology,
 +
*renewable energy,
 +
*submarine telecommunications,
 +
*cruise industry,
 +
*ports.
 +
 
 +
==References==
 +
<references/>
 +
 
 +
[[Category:Marine Genomics]]
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[[Category:Coastal and marine ecosystems]]

Latest revision as of 11:08, 8 August 2019

A comprehensive knowledge of marine life is essential for sustainable resource management and the economic sustenance of human societies. In order to achieve this aim, Marine Genomics Europe will unite individual teams in their research efforts to attain world-wide excellence in the field of Marine Genomics. It will expand the frontiers of emerging research forward and make major breakthroughs. This will be of particular use in other sectors such as health, fisheries, tourism, and agriculture. [1]


Who is involved in the network?

The organisation of the Marine Genomics research community directly affects its efficiency and social impact. It is organised at various levels, from the field to the academic lab, to R&D, and implementation to the level of regulatory bodies providing national and international (e.g., EU) regulations.

Diagram1MGE.png

Main stakeholders involved in the network:

Needs for knowledge:

  • Multilateral interests in genomics in marine research are not represented by any specific agency, but rather by groups such as the and Agriculture Organisation (FAO), the European Fisheries and Aquaculture Research Organisation (EFARO) and the network of Research Stations (MARS) include genetic and genomic research in their remit. Marine interests are also represented by the [ http://ioc-unesco.org/ |International Oceanographic Council of UNESCO (IOC)] and the [International Council for the Exploration of the Sea (ICES)| http://www.ices.dk/indexfla.asp], and professional organisations such as the European Federation of Marine Science and Technology Societies (EFMS - including 6000 members, 200 institutions), the American Society of Limnology and Oceanography (ASLO), the International Association of Genetics in Aquaculture (IAGA) and the Sustainable Farm Animal Breeding and Reproduction Technology Platform (FABRE TP).
  • Industry: Large companies, SMEs,
  • Civil society: Citizens, Associations,
  • Public Authority: Policy makers.

Marine genomics and biotechnology also contribute to national law and international treaties such as the UN Convention on the Law of the Sea (UNCLOS) and the Convention on Biological Diversity.

Generation of knowledge:

High-throughput platforms handle thousands of samples per run. Photograph: © Yann Fontana, Station biologique de Roscoff, CNRS
  • Knowledge and expertise in Marine Genomics is largely based in academic and government research agencies (e.g., CSIC - Spain, NERC - UK, CNRS - F, MUIR - It, MPI - D), and in a growing number o companies (e.g., all major pharmaceutical companies but also enterprises such as Prokarya, Biomérieux and Intervet) and in private foundations such as Volkswagen Foundation (Germany), Calouste Gulbenkian Foundation (Portugal) and Solvay Foundation (Belgium).
  • Traditionally sample collection depends on coastal biological stations and ocean going vessels, some of them designed for operating under demanding circumstances such as the deep-sea, open ocean and polar regions.There is an increasing interest in developing automated stations and remote sensing for both classical water chemistry measurements and novel methods (including genomics) of environmental monitoring. It is expected that such stations will be adapted to serve applications such as fisheries management and weather prediction, as well as more academic requirements.
  • With regard to genomics, laboratories of all kinds in universities, biological stations (in which Europe has a particularly rich tradition) and government agencies provide capacity for genomic analysis. Most often, advanced high-throughput sequencing and structural analyses are provided by associated non-marine laboratories such as the Genoscope (Paris), the Sanger Institute (Cambridge) and the Max Planck Institute for Molecular Genetics (Berlin). These specialized laboratories provide a second pool of resources, which demand a high level of capital investment.
  • Scientific information is communicated through various online news groups, via list servers to peers at conferences (e.g., annual European Marine Biology Symposium, Marine Genomics 2006, International Marine Biotechnology Conference 2007) and in scientific journals (SCI publications between 2001-2006 under the key words marine/ocean*genomic/genetic reach > 3,500 references). In addition, communication to the R&D community is via newsgroups, professional journals (e.g., Marine Biotechnology and Marine Genomics) and websites (e.g., Federation of European Aquaculture Producers).

Transmission of knowledge:

  • Secondary education of school children
  • Higher education of students and researchers
  • Vocational and non-vocational education for adult groups, fishermen, developers, etc.

Exploitation of knowledge

  • Financial Community:

National governments and international agencies are the main sponsors of these capital-intensive activities. Investors look for niche markets.

  • Innovation supporters:

Technology transfer, professional associations,

  • Communication:

Communications / interviews with journalists and the public at large through international press agencies (such as Reuters, BBC, AFP) and local media.

  • Marketing.


Acknowledged recognition

Acknowledged recognition of Marine Sciences

The FP7 identifies priority research themes in areas such as environment, transport, food, agriculture, biotechnology and energy. It declares that special attention will be paid to priority scientific areas which cut across themes, e.g. marine related sciences and technologies with the objective of increasing coordination and integration of marine related research in FP7. In its strategic objectives for 2005-2009, the European Commission declared “the particular need for an all-embracing maritime policy aimed at developing a thriving maritime economy, in an environmentally sustainable manner. Such a policy should be supported by excellence in marine scientific research, technology and innovation” (EU 2005).

Acknowledged recognition of the Marine Genomics Europe Network

By selecting the consortium in a highly competitive environment under the Sixth Framework Programme for Research and Development, the European Union has officially recognized the importance of the field of Marine Genomics and the high level of excellence of the consortium. The Marine Genomics Europe Network has played a key leading scientific role and has already received international renown and recognition in this sector.

What are the direct economic opportunities for investors in Marine Genomics?

The expected return on investment…. Exciting discoveries have to be developed so that they lead to a finished product suitable for development by a company. The number of organisations active in bio-prospecting and aquaculture varies considerably across the EU. The development of pharmaceuticals and bio-active compounds necessitates huge capital investments and involves equally huge financial risks. There is a tendency by larger companies to integrate successful smaller players (start-up companies). Investments, however, are required to increase this aspect of marine exploitation, not least of which between academic researchers and small commercial pilot projects. According to the Irish Marine Institute (Anonymous 2005), the marine sectors with most growth potential appear to be:

  • marine aquaculture,
  • marine biotechnology,
  • renewable energy,
  • submarine telecommunications,
  • cruise industry,
  • ports.

References