The available database comprises research projects in Fisheries, Aquaculture, Seafood Processing and Marine Biotechnology active in the time period 2003-2022.
BlueBio is an ERA-NET COFUND created to directly identify new and improve existing ways of bringing bio-based products and services to the market and find new ways of creating value from in the blue bioeconomy.

More information on the BlueBio project and participating funding organizations is available on the BlueBio website:

Last Update: 2019/11/26

Accelerated production of Atlantic halibut
Albert K. Imsland
UiB-BIO - University of Bergen; Department of Biology (Norway)
NA - Not available (Not available)
€ NA
This project aims at establishing optimal rearing conditions for maximal growth in the land-based phase of Atlantic halibut production. Environmental parameters (temperature, photoperiod and their interaction) will be manipulated to enhance faster growth in juveniles. Water quality experiments will focus on the effects of ammonia on growth in fish. This project will aim at identifying critical threshold limits of unionised ammonia that will reduce growth in different size classes of fish, thus providing farmers with a protocol for sustained control of this parameter in the land based phase. A sustainable production of Atlantic halibut will be dependent on a year-round supply of juveniles reared in intensive land-based systems at high densities. To effectively exploit such systems it is necessary to obtain detailed knowledge on the impact of key rearing on growth performance, food conversion efficiency and fish welfare. The current proposal will, through a series of large- and laboratory-scale experiments, provide the halibut aquaculture industry with a strategy that will significantly improve growth, reduce maturation, improve fish welfare and define the impact of a critical water quality parameter. The project will investigate the:- Optimal temperatures for growth throughout the land-based phase - Production advantages of step-wise temperature regulation as compared to a constant temperature regime- Potential benefits on growth from using extended photoperiods- Potential effects of environmental manipulations in the early juvenile phase on subsequent growth and maturation in the commercial ongrowing phase in sea cages- Water quality requirements of juvenile halibut reared at high densities.- Eye status (cataract and cornea damages) and histidine in fish muscle and lens will be analysed under critical rearing conditions and experimental setup linked to culture conditions
Fish; Growth rate; Sustainability; Halibut; Land-based aquaculture;
Not associated to marine areas
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