Improving GreeN Innovation for the blue revoluTION: new tools and opportunities for a more sustainable animal farming

Food, Bioeconomy & Natural ResourcesHORIZON-RIAID: 101084651
EC Contribution
€50,774
Consortium Size
17 orgs
Start Year
2022
Summary

Animal health and welfare are issues of high research priority for European aquaculture. In particular, improving animal welfare whilst reducing the use of veterinary drugs are current research priorities in line with minimizing the environmental impact of the industry. Preventing, or reducing the impact of disease is of prime importance for producers, researchers and stakeholders. In addition, public awareness of aquatic animal health and welfare leads to the increased attention of policy-makers, scientific community and the consumers into new methods for disease prevention.The IGNITION project aims to unveil new knowledge regarding animal welfare in the context of climate change and propose new tools to mitigate the adverse effects of stress. An improvement in animal welfare will translate in higher-quality farmed animals thus improving farming productivity and sustainability performance. Through IGNITION it is expected to provide new knowledge through genotyping and molecular phenotyping techniques to develop future breeding strategies for fish and shellfish. New innovative tools regarding immunization in fish will also be provided, aiming at improving fish welfare and targeting early life stages. Animal feeds will be formulated to include bioactive compounds extracted from halophytes through a novel upstream cascade salt removal. Special emphasis will be given to the study and discovery of new non-invasive biomarkers of health and welfare, which will in turn allow the development of biosensors and disease prediction through machine learning approaches. The tools developed in IGNITION will be able to avoid the colonization and spread of pathogenic microorganisms, including multi-resistant microorganisms, among farmed animals and the subsequent spread to humans through the food chain.

Consortium (17)

Project Results (26)

Source: CORDIS, the EU research results database.

Publications (15)
Co-cultivation of lactic acid bacteria and fodder yeasts for probiotics and postbiotics production on halophyte-based hydrolysate
Bioresource Technology· 2025DOI
Stanislav Rudnyckyj, Oriol Varon Morales, Paula Ramirez Sanchez Aguilera, Sara Brandolini, Steinunn Leifsdóttir, Mette Hedegaard Thomsen
Complete chemical composition and bioactivity profiles of all extracts
· 2025
Machine Vision Applications for Welfare Monitoring in Aquaculture: Challenges and Opportunities
Aquaculture, Fish and Fisheries· 2025DOI
Amy Fitzgerald; Christos C. Ioannou; Sofia Consuegra; Andrew Dowsey; Carlos Garcia de Leaniz
Probiotics and Postbiotics Derived from Saline/Marine Plant-Based Feedstocks
Probiotics and Antimicrobial Proteins· 2025DOI
Stanislav Rudnyckyj; Mette Hedegaard Thomsen
Tenacibaculum maritimum pathogenesis: crosstalk between host and pathogen and beyond
· 2025DOI
Inês de Almeida Ferreira
Thermal priming mitigates the effects of lethal marine heatwaves on the Manila clam Ruditapes philippinarum
iScience· 2025DOI
Tucci, Carmen Federica; MILAN, MASSIMO; Dalla Rovere, Giulia; BERNARDINI, ILARIA; Ferraresso, Serena; Franch, Rafaella; BABBUCCI, MASSIMILIANO; Monticelli, Giovanna; Panin, Mattia; PATARNELLO, Tomaso;
Probiotics derived from circular feedstock via lactic acid bacteria and yeast cultivation
Rudnyckyj, S, Hulkko, L S S & Thomsen, M H 2024, 'Probiotics derived from circular feedstock via lactic acid bacteria and yeast cultivation', The Fermentation Based Biomanufacturing Symposium, Copenhagen, Denmark, 22/10/2024 - 22/10/2024.· 2024
Rudnyckyj, Stanislav; Hulkko, Laura Sini Sofia; Thomsen, Mette Hedegaard
Protein production from halophyte juice via lactic acid bacteria acidification and subsequent yeast fermentation
Rudnyckyj, S, Hulkko, L S S, Chaturvedi, T & Thomsen, M H 2024, 'Protein production from halophyte juice via lactic acid bacteria acidification and subsequent yeast fermentation', 8th Green & Sustainable Chemistry Conference, Dresden, Germany, 13/05/2024 - 15/05/2024.· 2024
Rudnyckyj, Stanislav; Hulkko, Laura Sini Sofia; Chaturvedi, Tanmay; Thomsen, Mette Hedegaard
Tenacibaculum maritimum can boost inflammation in Dicentrarchus labrax upon peritoneal injection but cannot trigger tenacibaculosis disease
Frontiers in Immunology· 2024DOI
Inês A. Ferreira, Paulo Santos, Javier Sanz Moxó, Carla Teixeira, Ana do Vale, Benjamin Costas
Characterization and Vaccine Potential of Outer Membrane Vesicles from Photobacterium damselae subsp. piscicida
International Journal of Molecular Sciences· 2023DOI
Alexandra Teixeira, Inês Loureiro, Johnny Lisboa, Pedro N. Oliveira, Jorge E. Azevedo, Nuno M.S. dos Sanos & Ana do Vale
Early innate immune responses in European sea bass (Dicentrarchus labrax L.) following Tenacibaculum maritimum infection
Frontiers in Immunology· 2023DOI
Inês A. Ferreira, Diogo Peixoto, Ana Paula Losada, María Isabel Quiroga, Ana do Vale and Benjamín Costas
Initial Clustering plan
· 2023
Data management plan (DMP)
Dissemination, Exploitation and Communication (DEC) Plan
Project website
Deliverables (10)
Other Results (1)
Periodic Reporting for period 1 - IGNITION (Improving GreeN Innovation for the blue revoluTION: new tools and opportunities for a more sustainable animal farming)