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Establishing traceability for cod (Gadus morhua): determining location of spawning and harvest Cod is one of the EU's most economically important fish species, yet lack of traceability leads to problems with stock management and consumer confidence. This project is developing legally defensible methods to establish the location of spawning and of harvest of individual cod. Objectives will be achieved through the use of multiple tracing techniques followed by multivariate statistics. Partners Ireland:University College Dublin Department of Zoology Department of Industrial Microbiology Germany: University of Karlsruhe Molecular Ecology Group Discriminant Function (Root) 1 4 2 0 Tracking origin of cod based on otolith composition Baltic Sea -2 Sweden: University of Goteborg Celtic Sea Iceland Kristineberg Marine Research Station Irish Sea North Sea Iceland: Marine Research Institute -4 Farmed - Scotland -8 Population Genetic Laboratory Spain: University of Valencia Cavanilles Institute of Biodiversity and Evolutionary Biology Norway: University of Bergen Department of Fisheries and Marine Biology* UK: University of Essex Farmed - Iceland -4 0 4 Discriminant Function (Root) 1 To establish a traceability method, wild and farmed cod were sampled in 2002 and 2003 from the Atlantic (Irish Shelf), the Baltic Sea, Iceland waters, the Irish Sea, the North Sea, and from fish farms in Iceland and Scotland. Department of Law DNA PROTEINS BACTERIA For The Future* Supporting Consumer Confidence in aquaculture and capture fisheries We plan to develop a Marie Curie Research and Training Network under the EU Framework 6 programme to continue to study traceability. Activities within this future network will include methods of inducing traceability to promote consumer confidence, for example by bar-coding otoliths by using fluctuating temperature to mark the products of individual hatcheries or farms. Cod Otolith 148 Cut to produce section revealing “daily” rings 146 144 142 140 138 136 The widths of the rings can be altered by manipulation of water temperature OTOLITHS MORPHOMETRICS PARASITES Each fish is analysed by a combination of techniques, including body morphometery, otolith morphometery, otolith chemistry, genetic analysis of fish tissue (allozyme, mtDNA, Syp I and microsatellite), fish parasite and bacterial assemblages, and molecular markers for specific fish bacteria. 134 1 51 101 151 201 251 Light and dark zones can be read directly as a bar code This project is funded by the EU Commission, within the 5th framework program, Quality of Life and Management of Living Resources (Key Action 5.4.3 Common Fisheries Policy) http://www.ucd.ie/codtrace/index.htm © EU Project CODTRACE 2002 *A.J. Geffen [email protected] Department of Fisheries and Marine Biology University of Bergen Postbox 7800, 5020 Bergen NORWAY Tel: (+47) 55 58 44 35, Fax (+47) 55 58 44 50