Project Details
Description
European aquaculture production provides direct employment to 80,000 people and a 3-billion € annual turnover. Parasites cause severe disease outbreaks and high economic losses in finfish aquaculture.
The overarching goal of ParaFishControl is to increase the sustainability and competitiveness of European Aquaculture by improving understanding of fish-parasite interactions and by developing innovative solutions and tools for the prevention, control and mitigation of the major parasites affecting Atlantic salmon, rainbow trout, common carp, European sea
bass, gilthead sea bream and turbot.
To achieve these objectives, ParaFishControl brings together a multidisciplinary consortium comprising 28 partners possessing world-leading, complementary, cross-cutting expertise and drawn from public and private research organisations, and the aquaculture industry. The consortium has access to excellent research facilities, diverse biological resources including host-parasite models, and state-of-the-art vaccinology, genomic, proteomic and transcriptomic technologies.
The project will:
1) generate new scientific knowledge on key fish parasites, including genomics, life-cycle, invasion strategy and host-parasite interaction data, with special emphasis on host immunity, pathogen virulence and immunomodulation, providing a scientific basis for improved prophylaxis.
2) determine the transfer of parasites between farmed and wild host populations.
3) develop a wide range of novel prophylactic measures, including vaccines and functional feeds.
4) provide a range of advanced or alternative treatments for parasitic diseases.
5) develop cost-effective, specific and sensitive diagnostic tools for key parasitic diseases.
6) assess the risk factors involved in the emergence, transmission and pathogenesis of parasitic diseases.
7) map the zoonotic risks due to fish helminths.
8) provide a catalogue of good husbandry practices to obtain safe and high-quality fish products.
Partners
National Institute of Aquatic Resources, DTU Aqua
CSIC, Spain (coordinator)
Biology Centre of the Academy of Sciences of the Czech Republic
Hellenic Centre for Marine Research, Greece
Institut za Oceanografiju i Ribarstvo, Croatia
INIA, Spain
University of Copenhagen, Denmark
Hungarian Academy of Sciences, Hungary
USC, Spain
University of Udine, Italy
University of Bologna, Italy
University of Bergen, Norway
University of Aberdeen, UK
University of Stirling, UK
Wageningen University, The Netherlands
AZTI, Spain
Skretting Aquaculture Research Centre A/S, Norway
Inra Transfert, France
AQUARK, Greece
Vertebrate Antibodies Limited, UK
Andromeda Group, Spain
Future Genomics Technologies BV, The Netherlands
W42 GmbH, Germany
INGENASA, Spain
IILAB, Norway
Netherlands Institute of Ecology, The Netherlands
AquaTT, Ireland
Funding
The project is funded by EU Horizon 2020.
Research area: Fish and Shellfish Diseases
The overarching goal of ParaFishControl is to increase the sustainability and competitiveness of European Aquaculture by improving understanding of fish-parasite interactions and by developing innovative solutions and tools for the prevention, control and mitigation of the major parasites affecting Atlantic salmon, rainbow trout, common carp, European sea
bass, gilthead sea bream and turbot.
To achieve these objectives, ParaFishControl brings together a multidisciplinary consortium comprising 28 partners possessing world-leading, complementary, cross-cutting expertise and drawn from public and private research organisations, and the aquaculture industry. The consortium has access to excellent research facilities, diverse biological resources including host-parasite models, and state-of-the-art vaccinology, genomic, proteomic and transcriptomic technologies.
The project will:
1) generate new scientific knowledge on key fish parasites, including genomics, life-cycle, invasion strategy and host-parasite interaction data, with special emphasis on host immunity, pathogen virulence and immunomodulation, providing a scientific basis for improved prophylaxis.
2) determine the transfer of parasites between farmed and wild host populations.
3) develop a wide range of novel prophylactic measures, including vaccines and functional feeds.
4) provide a range of advanced or alternative treatments for parasitic diseases.
5) develop cost-effective, specific and sensitive diagnostic tools for key parasitic diseases.
6) assess the risk factors involved in the emergence, transmission and pathogenesis of parasitic diseases.
7) map the zoonotic risks due to fish helminths.
8) provide a catalogue of good husbandry practices to obtain safe and high-quality fish products.
Partners
National Institute of Aquatic Resources, DTU Aqua
CSIC, Spain (coordinator)
Biology Centre of the Academy of Sciences of the Czech Republic
Hellenic Centre for Marine Research, Greece
Institut za Oceanografiju i Ribarstvo, Croatia
INIA, Spain
University of Copenhagen, Denmark
Hungarian Academy of Sciences, Hungary
USC, Spain
University of Udine, Italy
University of Bologna, Italy
University of Bergen, Norway
University of Aberdeen, UK
University of Stirling, UK
Wageningen University, The Netherlands
AZTI, Spain
Skretting Aquaculture Research Centre A/S, Norway
Inra Transfert, France
AQUARK, Greece
Vertebrate Antibodies Limited, UK
Andromeda Group, Spain
Future Genomics Technologies BV, The Netherlands
W42 GmbH, Germany
INGENASA, Spain
IILAB, Norway
Netherlands Institute of Ecology, The Netherlands
AquaTT, Ireland
Funding
The project is funded by EU Horizon 2020.
Research area: Fish and Shellfish Diseases
Status | Finished |
---|---|
Effective start/end date | 01/04/2015 → 30/03/2020 |
Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.