Acronym RASbiome
Category
Marine Biotechnology
Title Microbial management in RAS for sustainable aquaculture production Programme International Cooperation
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 National-European Coordinator Ingrid Bakke Coordinator email ingrid.bakke@ntnu.no
Coordinator institution
NMBU - Norwegian University of Life Sciences (Norway)
Institutions involved
NA - Assentoft Aqua ApS (Denmark) ,
UGent - Ghent University (Belgium) ,
NA - Krüger Kaldnes AS (Norway) ,
NA - Lerøy ASA (Norway) ,
DTU - Technical University of Denmark (Denmark) ,
Start year 2020 End year 2022 Funding (€) € 1,087,284 Website https://bluebioeconomy.eu/microbial-management-in-ras-for-sustainable-aquaculture-production/ Summary In the RASbiome project, we aim at improving the sustainability of fish production in freshwater recirculating aquaculture systems (RAS) by introducing new and innovative approaches for microbiological water treatment. We will implement two fundamentally distinct biological water treatment strategies, new to RAS, to improve the management of nitrogen compounds. The first strategy involves anaerobic ammonia-oxidizing (anammox) bacteria, and results in almost complete removal of nitrogen from the water. Compared to current treatment methods for nitrogen removal in RAS, this strategy excludes the need for external organic carbon; it entails reduced energy consumption, and reduced CO2 production. The second strategy takes advantage of bioflocs formed by heterotrophic bacteria, assimilating nitrogen. This approach allows for harvesting nutrient rich microbial biomass, and is therefore compatible with recovery and recycling of nitrogen from in
RAS water. These new biological water treatment approaches will be implemented in well-considered treatment designs for optimized microbial and chemical water quality. The project is highly multidisciplinary, involving experts from Belgium, Denmark, and Norway in fields of environmental engineering, biotechnology, microbiology, microbial ecology, and aquaculture. Industry partners, including two large commercial producers of salmon smolt and rainbow trout, play a crucial role in the project. We expect the proposed project to promote sustainable fish production by improving fish welfare and productivity due to stable and optimized chemical and microbiological water quality, by reducing environmental impact through nitrogen removal from discharged water, and finally, by reducing operational costs.
Thus, the project contributes in developing European aquaculture in a direction characterized by the 3R principle: reducing, reusing and recycling of waste material.
Keywords
Land-based aquaculture;
Water quality;
Waste valorization;
Trout;
Waste management;
Water management;
Fish;
Salmon;
Recirculating systems;
Wastes;
Marine Region
76
Not associated to marine areas
0
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