Ambitious science programme will aid fishing industry and monitor effects of climate change on Europe’s shellfish

The supply of shellfish we buy at the supermarket faces an uncertain future as our oceans become warmer and more acidic due to changing climate.

A team of international scientists has launched an ambitious mission to understand how these changes in our oceans will affect several species vital to the European fishing economy and to marine biodiversity.

Currently scientists do not fully understand how shellfish, such as oysters, mussels, scallops and clams produce their shells, or how a change in environment will affect their populations. To address this the European Union is funding a €3.6 million programme called CACHE (Calcium in a Changing Environment).

Coordinated from the British Antarctic Survey (BAS) in Cambridge this multi-national programme, which aims to train a new generation of marine scientists, will look at every aspect of how the animals produce their shells and strive to identify populations which are resilient to climate change.

The shellfish industry is an important contributor to the European marine economy – the so-called “Blue economy” – which is currently worth €500 billion every year and provides an estimated 5.4 million jobs.

These relatively small animals play an important role in the oceans because they are a crucial part of marine biodiversity and, as they make their shells out of calcium carbonate, they have a role in absorbing the greenhouse gas CO2. While the fishery industry built around them provides jobs in rural communities the animals themselves are also seen as an important and healthy food.

Shellfish have been highlighted as being particularly at risk under future climate change scenarios.

The risk comes because their shells are made of calcium carbonate – a substance which dissolves under acidic conditions. As the oceans become warmer and more acidic their shells will either thin, or the animals will have to expend more energy on producing thicker shells. This will affect their population sizes and the quality of the meat they produce, directly affecting the fisheries economy and damaging consumer choice.

The way in which these creatures produce their shells is also of interest to the biotech industry which is interested in mimicking (in a process known as biomimicry) the way in which shellfish take a soluble compound like calcium to make solid, robust structures. Better understanding could also reduce the carbon footprint of producing construction materials and create the potential for “fixing” CO2 into the building process.

The species being looked at are the king scallop (Pecten maximus), the Pacific oyster, (Crassostrea gigas), the blue mussel (Mytilus edulis) and the soft shell clam (Mya arenaria). The group will also study the native oyster (Ostrea edulis) to help conservation plans as it is listed as a “priority species” in the UK.

Dr Melody Clark of BAS, who is the programme coordinator, says,
“We know very little about how marine animals regulate calcium to produce a shell and how these processes might be affected when the environmental conditions change. This is the major science challenge which our young scientists are going to tackle over the next four years.”
For more information on the programme and full details of the CACHE recruitment process go to: www.cache-itn.eu. Recruitment is now open, with a closing date of January 12, 2014.

Contact

To request an interview with Dr Melody Clark or for further information contact Paul B Holland, communications manager, at the British Antarctic Survey in Cambridge on +44 (0)1223 221226, +44 (0)7740 822229 or email paul.b.holland@bas.ac.uk.

At University of Gothenburg
Sam Dupont
Department of Biological and Environmental Sciences
Phone: +46 (0)31 786 95 31
Email: sam.dupont@bioenv.gu.se

Kristina “Snuttan” Sundell
Department of Biological and Environmental Sciences
Phone: +46 (0)31 786 3671
Email: kristina.sundell@bioenv.gu.se

About CACHE

CACHE is a €3.6 million Marie Curie Initial Training Network (ITN) funded by the People Programme (Marie Curie Actions) of the European Union’s Seventh Framework programme FP7/2007-2013/ under REA Grant No. [605051]13. It brings together 10 partners from 6 different European countries and includes three SMEs and a shellfish consultancy. It started in 2013 and will run for 4 years. It will train 10 young researchers to PhD level and enhance the training and careers of 4 early-stage post-doctoral researchers.

The CACHE network partners are: The British Antarctic Survey, University of Gothenburg, University of Edinburgh, Museum National d’Histoire Naturelle de Paris, University of Bielefeld, University of Cambridge, The Scottish Association of Marine Sciences (SAMS), Greenloop, Algarve Marine Sciences Centre, GEOMAR Helmholtz Centre for Ocean Research. Associated partners are Association of Scottish Shellfish Growers, Ostrea Sverige AB, CRM Coastal Research and Management.

A central aim of the programme is to help young scientists develop their careers through exposure to both research institutions and the business world, and to create a precedent for this kind of innovative mixing of academic and entrepreneurial environments. For more visit www.cache-itn.eu.

Tanja Thompson, University of Gothenburg News, 9 December 2013. Press release.

1 Response to “Ambitious science programme will aid fishing industry and monitor effects of climate change on Europe’s shellfish”


  1. 1 Jean-Pierre Gattuso 10 December 2013 at 21:44

    This press release states that “These relatively small animals play an important role in the oceans because they are a crucial part of marine biodiversity and, as they make their shells out of calcium carbonate, they have a role in absorbing the greenhouse gas CO2. “. This is incorrect. Calcification release CO2:

    Ca2+ + 2 HCO3- = CaCO3 + CO2 + H2O

    More information can be found in the following papers:

    Frankignoulle M., Canon C. & Gattuso J.-P., 1994. Marine calcification as a source of carbon dioxide- Positive feedback of increasing atmospheric CO2. Limnology and Oceanography 39:458-462.

    Gattuso J.-P., Frankignoulle M. & Smith S.V., 1999. Measurement of community metabolism and significance of coral reefs in the CO2 source-sink debate. Proceedings of the National Academy of Science U.S.A. 96:13017-13022.

    Smith S.V. & Gattuso J.-P., 2011. Balancing the oceanic calcium carbonate cycle: consequences of variable water column Ψ. Aquatic Geochemistry 17:327-337.

    Jean-Pierre Gattuso


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