The vision of the EU aquaculture industry is to grow substantially in the next decade and to provide annually 4.5 million tons of sustainable food products. To this aim, NewTechAqua intends to expand and diversify EU production of finfish, molluscs and microalgae by developing and validating technologically-advanced, resilient and sustainable new solutions. The organizational approach of NewTechAqua is to group the solutions in 6 different categories: feed, Industry 4.0, sustainable farming, genetics, new species and new products. They will be validated on conventional (Atlantic salmon, rainbow trout, seabass and seabream) and emerging (greater amberjack, meagre, Senegalese sole and grey mullet) finfish species, molluscs (Pacific oyster, mussel) and microalgae. NewTechAqua is structured in 9 WPs. WP1 will conceive, formulate, produce and demonstrate three innovative sets of aquafeeds (pro-health, organic, zero waste). WP2 will establish new AI epidemiological models for enhancing the control of parasite outbreaks in Norwegian and Mediterranean farms. Sustainable aquaculture will be also promoted by advanced model systems and technologies for mollusc and in-land fish farms ecointensification. WP3 will develop innovative breeding programmes to improve performance, robustness and quality of farmed fish, molluscs and microalgae, while WP4 will achieve significant advances in reproduction technology of three emerging fish species. High-quality seafood products and sustainable food processing techniques for valorisation of by-products will be validated. WP6 will develop a set of indicators to monitor and measure progress towards the expected impacts, while market uptake of NewTechAqua results and outputs will be ensured by a detailed exploitation strategy (WP7). Finally, NewTechAqua will achieve well-targeted communication, dissemination and maximum transfer of generated know-how and project new technologies (WP8).

Recent developments in genomics have advanced innovation in European aquaculture. However, despite the creation of reference quality genome sequences for the main species, our understanding of genome functions remains limited. AQUA-FAANG will deliver a step improvement in understanding of genome function and exploitation of genotype-to-phenotype prediction in the six most important European farmed fish species. The project brings together world-leading interdisciplinary expertise and industry partners providing direct pathways to commercial exploitation. AQUA-FAANG will functionally annotate the genomes of all six species, employing standardized experimental assays and analysis pipelines defined by the FAANG initiative. AQUA-FAANG datasets will be shared and coordinated with other FAANG initiatives via the FAANG data coordination centre, and made available through the Ensembl genome browser. As infectious disease is of paramount concern for sustainable aquaculture, the project focuses on understanding functional genomic regions in both healthy and immune-challenged fish. This will improve knowledge of the genomic basis for disease resistance and is complemented by novel approaches to increase understanding of immune cell heterogeneity. Standardized comparative analyses will provide essential insights into genome functions that cannot be gained from study of single species. Functional assays will be used to study intermediate phenotypes and prioritise causative genetic variants in trait-associated genomic regions to accelerate selection of disease-resistant stocks. Functionally-enriched marker panels will be developed to improve accuracy of genomic selection. An active programme of stakeholder engagement and dissemination will ensure uptake of project outputs by industry, academia, the public and in policy. The outputs will enhance precision breeding, drive competitiveness within the aquaculture sector, and enhance food and nutrition security in Europe.