Acronym AquaIMPACT
Category
Aquaculture
Title Genomic and nutritional innovations for genetically superior farmed fish to improve efficiency in European aquaculture Programme H2020
Instrument (FP6)
Contact Type (FP7)
Strand (Interreg)
NA
Theme (FP7)
Activity Area (FP6)
Regional Area (Interreg)
Action (COST)
NA
Specific Programme (FP7)
NA
Funding source European
Coordinator institution
LUKE - Natural Resources Institute (Finland)
Institutions involved
NA - Akvaforsk Genetics Center AS (Norway) ,
NA - Benchmark Genetics Norway AS (Norway) ,
NA - Dorset Identification B.V. (Netherlands) ,
FMD - Ferme Marine du Douhet SAS (France) ,
INRA - French National Institute for Agricultural Research (France) ,
SYSAAF - French Poultry and Aquaculture Breeders Association (France) ,
IFREMER - French Research Institute for Exploitation of the Sea (France) ,
NA - GCE Blue Maritime Cluster (Norway) ,
INVE - Inve Technologies NV (Belgium) ,
NA - MOWI ASA (Norway) ,
NOFIMA - Norwegian Institute of Food, Fisheries and Aquaculture Research (Norway) ,
NA - Savon Taimen Oy (Finland) ,
SKRET - Skretting Aquaculture Research Centre AS (Norway) ,
CSIC - Spanish National Research Council (Spain) ,
NA - SPAROS Lda (Portugal) ,
NA - The Sources of the Advance (France) ,
NA - University of Edinburgh (United Kingdom) ,
UNINSUBRIA - University of Insubria (Italy) ,
ULPGC - University of Las Palmas de Gran Canaria (Spain) ,
UoS - University of Stirling (United Kingdom) ,
WUR - Wageningen University and Research (Netherlands) ,
Start year 2019 End year 2023 Funding (€) € 6,726,811 Website https://www.luke.fi/aquaimpact/ Summary AquaIMPACT will develop products and services based on genomic selection for the European aquaculture breeding industry, with focus on cost efficient trait recording and genotyping, and selection for traits that can only be recorded under commercial conditions. By incorporating emerging ingredients, essential nutrients and appropriate additives developed by companies, novel nutritional and feeding strategies will be up-scaled and tailor-made specifically for the genetically improved fish arising from breeding programmes.
The use of genomic technologies will be economically optimised and in combination with the nutritional and digital solutions demonstrated to produce more robust, healthy, nutritious and resource-efficient fish, promoting industrial practices of re-circular bioeconomy, zero-waste and more efficiency use of natural resources.
Keywords
Trout;
Selective breeding;
Bioprospecting;
Salmon;
Fish;
Seabass;
Bioactive compounds;
Feed composition;
Diets;
Engineering;
Genetic;
Seabream;
Animal feed;
Marine Region
0
NA
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