Difference between revisions of "MarBEF World conference"

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[http://www.marbef.org MarBEF] organized the first [http://www.marbef.org/worldconference/index.php World Conference on Marine Biodiversity] where all of MarBEF scientists presented their latest research results in a five-day meeting that clearly demonstrated the enormous progress in the field of marine biodiversity and ecosystem functioning over the last few years and the contribution that MarBEF has made in this field. Nearly [http://www.marbef.org/worldconference/participants.php 600 scientists] from 42 countries were present at the world conference, giving giving 200 oral presentations and nearly as many posters. The participants also discussed and agreed upon a [http://www.marbef.org/worldconference/docs/The_Valencia_Declaration_20081115.pdf Valencia Declaration for the Protection of Marine Biodiversity.]
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[http://www.marbef.org MarBEF] organized the first World Conference on Marine Biodiversity where all of MarBEF scientists presented their latest research results in a five-day meeting that clearly demonstrated the enormous progress in the field of marine biodiversity and ecosystem functioning over the last few years and the contribution that MarBEF has made in this field. Nearly 600 scientists] from 42 countries were present at the world conference, giving 200 oral presentations and nearly as many posters. The participants also discussed and agreed upon the Valencia Declaration for the Protection of Marine Biodiversity.
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Scientists at the conference reviewed the current extent of understanding of marine biodiversity and its role in marine [[ecosystem functioning]]. They assessed the current and future [[Threats_to_Marine_Biodiversity|threats]] and the potential strategies for [[conservation]] and regulation of [[Introduction_to_MarBEF_research#Goods|marine resources]] and defined the [[Future marine biodiversity and ecosystem functioning research issues|future research priorities]]<ref name="ma">[https://www.researchgate.net/publication/306030378_Marine_Biodiversity_and_Ecosystem_Functioning Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>.
  
Scientists at the conference reviewed the current extent of understanding of marine biodiversity and its role in marine [[ecosystem functioning]]. They assessed the current and future [[Threats_to_Marine_Biodiversity|threats]] and the potential strategies for [[conservation]] and regulation of [[Introduction_to_MarBEF_research#Goods|marine resource]] and defined the [[Future marine biodiversity and ecosystem functioning research issues|future research priorities]].<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
 
  
  
 
[[Image:City_of_art_and_sciences.jpg|thumb|centre|700px| <div style="text-align: center;">
 
[[Image:City_of_art_and_sciences.jpg|thumb|centre|700px| <div style="text-align: center;">
The MarBEF World Conference venue, [http://www.cac.es/?languageId=1 the City of Arts and Sciences in Valencia, Spain].</div>]]
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The MarBEF World Conference venue, the City of Arts and Sciences in Valencia, Spain].</div>]]
 
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===Climate change===
 
===Climate change===
A rapid, climate change-induced [[Effects of climate change on the North Sea and Baltic Sea|northern migration of invasive marine species]] was one of many research results announced during the opening day of presentations. Investigators reported that invasive species of seaweed were spreading at a rate of 50km per decade, a distance far greater than that covered by invasive terrestrial plants, and that this difference may be due to the rapid dispersion of seaweed propagules (e.g., seeds) in the ocean.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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A rapid, climate change-induced [[Effect of Climate Change in the Baltic Sea Area|northern migration of invasive marine species]] was one of many research results announced during the opening day of presentations. Investigators reported that invasive species of seaweed were spreading at a rate of 50km per decade, a distance far greater than that covered by invasive terrestrial plants, and that this difference may be due to the rapid dispersion of seaweed propagules (e.g., seeds) in the ocean<ref name="ma"/>.
  
  
 
===Deep sea===
 
===Deep sea===
Rapid advances have been made in [[deep sea]] research capability, thanks to technical developments such as customised submarines, remotely operated vehicles (ROV) and autonomous vehicles (AUV). These have enabled study of [[Deep_sea_bottom#Hydrothermal_vents|hydrothermal vents]] or submarine volcanoes first discovered in 1977. Researchers have described more than 500 hydrothermic vent species, most of them [[endemic]], as well as 200 cold-water seep species and 400 morphological [[species]] of chemosynthethic ecosystems which form on the carcasses of whales. For instance, on the [[Deep_sea_bottom#Mud_volcanoes_and_seamounts|mud volcanoes]] in the Cadiz gulf, thirteen [[new species]] of polychaetes (marine worms) are described including a new genus, [http://www.marinespecies.org/aphia.php?p=taxdetails&id=380413 ''Bobmarleyana''], which owing to its characteristic appearance was named after Bob Marley. These submarine
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Rapid advances have been made in [[Deep sea habitat|deep sea]] research capability, thanks to technical developments such as customised submarines, remotely operated vehicles (ROV) and autonomous vehicles (AUV). These have enabled the study of [[Deep_sea_bottom#Hydrothermal_vents|hydrothermal vents]] or submarine volcanoes, which were first discovered in 1977. Researchers have described more than 500 hydrothermic vent species, most of them [[endemic]], as well as 200 cold-water seep species and 400 morphological [[species]] of chemosynthethic ecosystems which form on the carcasses of whales. For instance, on the [[Deep_sea_bottom#Mud_volcanoes_and_seamounts|mud volcanoes]] in the Cadiz gulf, thirteen [[new species]] of polychaetes (marine worms) are described including a new genus, [http://www.marinespecies.org/aphia.php?p=taxdetails&id=380413 ''Bobmarleyana''], which owing to its characteristic appearance was named after Bob Marley. These submarine
volcanoes sustain high densities of fauna which, with specific adaptations, live independently of solar energy.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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volcanoes sustain high densities of fauna which, with specific adaptations, live independently of solar energy<ref name="ma"/>.
 
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===WoRMS===
 
===WoRMS===
  
During the conference, the results of collaboration between more than 160 expert [[Taxonomy|taxonomists]] on the identification and description of marine species was presented. Their goal: to complete a database before 2010 which describes all known marine life – [http://www.marinespecies.org a world registry of marine species], or WoRMS.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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During the conference, the results of collaboration between more than 160 expert [[Taxonomy|taxonomists]] on the identification and description of marine species was presented. Their goal: to complete a database before 2010 which describes all known marine life – [http://www.marinespecies.org a world registry of marine species], or WoRMS<ref name="ma"/>.
 
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===Microbial diversity===
 
===Microbial diversity===
  
Researchers reported on how they are examining the [[Genetics|genetic composition]] of [[Microbial research|new species of bacteria]] in order to identify [[Future marine biotechnology research|potential genes]] that may be useful to the pharmaceutical industry, medicine, the production of biofuels, bioremediation, etc. There are an estimated 100 to 1,000 million species of bacteria, with only 6,000 of them having been described. Thanks to the availability of new, cheaper techniques, researchers have now begun to explore the largely undiscovered world of microbial diversity. What’s more, a greater understanding of this diversity of bacteria, hidden until now, will help us to improve our understanding of the [[evolution]] of life.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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Researchers reported on how they are examining the [[Genetic biodiversity|genetic composition]] of [[Microbial research|new species of bacteria]] in order to identify [[Future marine biotechnology research|potential genes]] that may be useful to the pharmaceutical industry, medicine, the production of biofuels, bioremediation, etc. There are an estimated 100 to 1.000 million species of bacteria, of which only 6.000 have been described. Thanks to the availability of new, cheaper techniques, researchers have now begun to explore the largely undiscovered world of microbial diversity. What’s more, a greater understanding of this diversity of bacteria, hidden until now, will help us to improve our understanding of the [[evolution]] of life<ref name="ma"/>.
 
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===Economic value of biodiversity===
 
===Economic value of biodiversity===
  
A [[Valuation'''price-tag on the benefits''']] derived from the protection of coastal ecosystems was presented. It was calculated that effective protection of 20-30% of coastal ecosystems costs between 5 and 19 billion dollars per year, but can generate benefits in terms of improving the associated fish stocks, exceeding the costs. As the actual expenses to maintain the currently unsustainable fishing industry are between 15 and 30 billion dollars per year, it was estimated that the creation of the network of Marine Protected Areas would be a more efficient way to boost the fishing industry than the direct financial assistance it now receive.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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A [[Economic_valuation_of_goods_and_services#Goods_and_services|price-tag on the benefits]] derived from the protection of coastal ecosystems was presented. It was calculated that effective protection of 20-30% of coastal ecosystems costs between 5 and 19 billion dollars per year, but can generate benefits in terms of improving the associated fish stocks, exceeding the costs. As the actual expenses to maintain the currently unsustainable fishing industry are between 15 and 30 billion dollars per year, it was estimated that the creation of the network of [[Marine Protected Areas (MPAs)|Marine Protected Areas]] would be a more efficient way to boost the fishing industry than the direct financial assistance it now receives<ref name="ma"/>.
 
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===Other highlights===
 
===Other highlights===
  
 
Some other exciting discoveries highlighted at the meeting were the [[Sea_ice_ecosystems#Arctic_vs_Antarctic|Antarctic]] ancestral origins of many species of [http://www.marinespecies.org/aphia.php?p=taxdetails&id=128687 ''octopi'']; hundreds of new
 
Some other exciting discoveries highlighted at the meeting were the [[Sea_ice_ecosystems#Arctic_vs_Antarctic|Antarctic]] ancestral origins of many species of [http://www.marinespecies.org/aphia.php?p=taxdetails&id=128687 ''octopi'']; hundreds of new
species found on the [[Deep_sea_bottom#Mid-oceanic_ridges|Mid-Atlantic Ridge]] at depths of 2,500 metres; the world’s deepest known active hot vent near the Mid-Atlantic Ridge at 4,100 metres; a “Brittle Star City” off the coast of New Zealand with tens of millions of [http://www.marinespecies.org/aphia.php?p=taxdetails&id=125064 brittle stars] living in close proximity, and a [http://www.marinespecies.org/aphia.php?p=taxdetails&id=106393 comb jelly] living more than 7,000 metres depth near the Ryukyu Trench near Japan.
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species found on the [[Deep_sea_bottom#Mid-oceanic_ridges|Mid-Atlantic Ridge]] at depths of 2.500 metres; the world’s deepest known active hot vent near the Mid-Atlantic Ridge at 4.100 metres; a “Brittle Star City” off the coast of New Zealand with tens of millions of [http://www.marinespecies.org/aphia.php?p=taxdetails&id=125064 brittle stars] living in close proximity, and a [http://www.marinespecies.org/aphia.php?p=taxdetails&id=106393 comb jelly] living more than 7.000 metres depth near the Ryukyu Trench near Japan.
  
Other developments highlighted discoveries in previously unexplored regions of oceans, new forms of life and completely unexpected finds such as a diverse group of [http://www.coml.org/discoveries/discoveries/new_species/sulphurbacteria.htm “giant, filamentous multi-cellular bacteria”] in the eastern South Pacific.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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Other developments highlighted discoveries in previously unexplored regions of oceans, new forms of life and completely unexpected finds such as a diverse group of [http://www.coml.org/discoveries/discoveries/new_species/sulphurbacteria.htm “giant, filamentous multi-cellular bacteria”] in the eastern South Pacific<ref name="ma"/>.
 
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== Outreach ==
 
== Outreach ==
  
On the occasion of the World Conference of Marine Biodiversity, the [http://www.cac.es/?languageId=1 City of Arts and Science] and [http://www.csic.es/index.do# CSIC] organized an outreach event, “The Living Sea: Marine Biodiversity Week”. This event encompassed a broad array of activities to inform the general public, from children to adults, of the benefits of marine biodiversity to society and human well-being. A wide range of activities were offered, from [http://www.imax.com/ IMAX movies] featuring marine life to music events and performances, exhibitions on the role of marine life as a source of well-being and artistic, scientific and gastronomic inspiration.<ref name="ma">[http://www.marbef.org/documents/glossybook/MarBEFbooklet.pdf Heip, C., Hummel, H., van Avesaath, P., Appeltans, W., Arvanitidis, C., Aspden, R., Austen, M., Boero, F., Bouma, TJ., Boxshall, G., Buchholz, F., Crowe, T., Delaney, A., Deprez, T., Emblow, C., Feral, JP., Gasol, JM., Gooday, A., Harder, J., Ianora, A., Kraberg, A., Mackenzie, B., Ojaveer, H., Paterson, D., Rumohr, H., Schiedek, D., Sokolowski, A., Somerfield, P., Sousa Pinto, I., Vincx, M., Węsławski, JM., Nash, R. (2009). Marine Biodiversity and Ecosystem Functioning. Printbase, Dublin, Ireland ISSN 2009-2539]</ref>
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On the occasion of the World Conference of Marine Biodiversity, the City of Arts and Science and CSIC organized an [[MarBEF_outreach|outreach]] event, “The Living Sea: Marine Biodiversity Week”. This event encompassed a broad array of activities to inform the general public, from children to adults, of the benefits of marine biodiversity to society and human well-being. A wide range of activities were offered, from IMAX movies featuring marine life to music events and performances, exhibitions on the role of marine life as a source of well-being and artistic, scientific and gastronomic inspiration<ref name="ma"/>.
 
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==References==
 
==References==
 
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[[Category: MarBEF Wiki]]

Latest revision as of 12:26, 21 February 2024

MarBEF organized the first World Conference on Marine Biodiversity where all of MarBEF scientists presented their latest research results in a five-day meeting that clearly demonstrated the enormous progress in the field of marine biodiversity and ecosystem functioning over the last few years and the contribution that MarBEF has made in this field. Nearly 600 scientists] from 42 countries were present at the world conference, giving 200 oral presentations and nearly as many posters. The participants also discussed and agreed upon the Valencia Declaration for the Protection of Marine Biodiversity.

Scientists at the conference reviewed the current extent of understanding of marine biodiversity and its role in marine ecosystem functioning. They assessed the current and future threats and the potential strategies for conservation and regulation of marine resources and defined the future research priorities[1].


The MarBEF World Conference venue, the City of Arts and Sciences in Valencia, Spain].


Some of the research highlights of the Conference

Climate change

A rapid, climate change-induced northern migration of invasive marine species was one of many research results announced during the opening day of presentations. Investigators reported that invasive species of seaweed were spreading at a rate of 50km per decade, a distance far greater than that covered by invasive terrestrial plants, and that this difference may be due to the rapid dispersion of seaweed propagules (e.g., seeds) in the ocean[1].


Deep sea

Rapid advances have been made in deep sea research capability, thanks to technical developments such as customised submarines, remotely operated vehicles (ROV) and autonomous vehicles (AUV). These have enabled the study of hydrothermal vents or submarine volcanoes, which were first discovered in 1977. Researchers have described more than 500 hydrothermic vent species, most of them endemic, as well as 200 cold-water seep species and 400 morphological species of chemosynthethic ecosystems which form on the carcasses of whales. For instance, on the mud volcanoes in the Cadiz gulf, thirteen new species of polychaetes (marine worms) are described including a new genus, Bobmarleyana, which owing to its characteristic appearance was named after Bob Marley. These submarine volcanoes sustain high densities of fauna which, with specific adaptations, live independently of solar energy[1].


WoRMS

During the conference, the results of collaboration between more than 160 expert taxonomists on the identification and description of marine species was presented. Their goal: to complete a database before 2010 which describes all known marine life – a world registry of marine species, or WoRMS[1].


Microbial diversity

Researchers reported on how they are examining the genetic composition of new species of bacteria in order to identify potential genes that may be useful to the pharmaceutical industry, medicine, the production of biofuels, bioremediation, etc. There are an estimated 100 to 1.000 million species of bacteria, of which only 6.000 have been described. Thanks to the availability of new, cheaper techniques, researchers have now begun to explore the largely undiscovered world of microbial diversity. What’s more, a greater understanding of this diversity of bacteria, hidden until now, will help us to improve our understanding of the evolution of life[1].


Economic value of biodiversity

A price-tag on the benefits derived from the protection of coastal ecosystems was presented. It was calculated that effective protection of 20-30% of coastal ecosystems costs between 5 and 19 billion dollars per year, but can generate benefits in terms of improving the associated fish stocks, exceeding the costs. As the actual expenses to maintain the currently unsustainable fishing industry are between 15 and 30 billion dollars per year, it was estimated that the creation of the network of Marine Protected Areas would be a more efficient way to boost the fishing industry than the direct financial assistance it now receives[1].


Other highlights

Some other exciting discoveries highlighted at the meeting were the Antarctic ancestral origins of many species of octopi; hundreds of new species found on the Mid-Atlantic Ridge at depths of 2.500 metres; the world’s deepest known active hot vent near the Mid-Atlantic Ridge at 4.100 metres; a “Brittle Star City” off the coast of New Zealand with tens of millions of brittle stars living in close proximity, and a comb jelly living more than 7.000 metres depth near the Ryukyu Trench near Japan.

Other developments highlighted discoveries in previously unexplored regions of oceans, new forms of life and completely unexpected finds such as a diverse group of “giant, filamentous multi-cellular bacteria” in the eastern South Pacific[1].


Outreach

On the occasion of the World Conference of Marine Biodiversity, the City of Arts and Science and CSIC organized an outreach event, “The Living Sea: Marine Biodiversity Week”. This event encompassed a broad array of activities to inform the general public, from children to adults, of the benefits of marine biodiversity to society and human well-being. A wide range of activities were offered, from IMAX movies featuring marine life to music events and performances, exhibitions on the role of marine life as a source of well-being and artistic, scientific and gastronomic inspiration[1].


References