Reports

Effect of different raw materials on diet attractiveness for the whiteleg shrimp

Published:

31/08/2023

Authors:

Simon Herrig, David Sutter, Wolfgang Koppe, Sven-Ole Meiske & Georges Lamborelle

Supported by:

Calanus A/S

Contact

Georges Lamborelle

Station manager of Matís Aquaculture Research Station

georges@matis.is

This report is closed.

Reports

Whiteleg shrimp (Penaeus vannamei) growth trial in saltwater

Published:

29/08/2023

Authors:

David Sutter, Wolfgang Koppe, Sven-Ole Meiske & Georges Lamborelle

Supported by:

Berg & Schmidt GmbH & Co. KG

Contact

Georges Lamborelle

Station manager of Matís Aquaculture Research Station

georges@matis.is

This report is closed.

Reports

Phosphorus uptake and requirement from feed and water by Atlantic salmon (Salmo salar, Linnaeus, 1758) juveniles in freshwater Recirculating Aquaculture System

Published:

20/07/2023

Authors:

Helda Kizhakkuden Sajeev, David Sutter, Wolfgang Koppe, Sven-Ole Meiske & Georges Lamborelle

Supported by:

Mowi feed AS

Contact

Georges Lamborelle

Station manager of Matís Aquaculture Research Station

georges@matis.is

This report is closed

Reports

Whiteleg shrimp (Litopenaeus vannamei) growth trials

Published:

21/04/2023

Authors:

Wolfgang Koppe, David Sutter, Sven-Ole Meisk & Georges Lamborelle

Supported by:

BioMar

Contact

Georges Lamborelle

Station manager of Matís Aquaculture Research Station

georges@matis.is

This report is closed

Reports

Holding of Sea Urchins and Scallops in a RAS Transport System

Published:

23/12/2019

Authors:

Guðmundur Stefánsson, Aðalheiður Ólafsdóttir

Supported by:

EIT Food

Contact

Guðmundur Stefánsson

Director of Research Groups

gudmundur.stefansson@matis.is

Holding of Sea Urchins and Scallops in a RAS Transport System

Trials were carried out at Matís on holding live sea urchins and scallops in a RAS system developed by Technion, Israel, which not only recirculates the water, but additionally controls the pH and removes toxic ammonia. The aim of the trials was to test the feasibility of holding sea urchins and scallops alive in the RAS system for 10 days at 4 ° C, with at least 90% survival. The project was funded by EIT food, and the participants were Technion and Matís. 

The survival of sea urchins held in the RAS system at 4 ° C was high during the first five days. Eight days from catch the survival was only 80%, after 12 days about 50% and after 15 days, 10%. Sea urchins, packed in the standard way of transporting live urchins (in polystyrene boxes at 4 ° C) were at similar quality as the RAS stored sea urchins, five days from catch and the roe was still edible at eight days from catch. All the urchins in the polystyrene boxes were dead after 12 days storage and the roe inedible.

Scallops had a high survival when held in the RAS system or about 89% after 24-days at 4 ° C.  

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Reports

Holding of Arctic char in a RAS transport system

Published:

16/12/2019

Authors:

Guðmundur Stefánsson, Aðalheiður Ólafsdóttir

Supported by:

EIT Food

Contact

Guðmundur Stefánsson

Director of Research Groups

gudmundur.stefansson@matis.is

Holding of Arctic char in a RAS transport system

In September 2019 two live holding trials with Arctic char (Salvelinus alpinus) were carried out at Matís where the fish was kept for up to eight days in a RAS holding and transport system developed by Technion, Israel Institute of Technology. The RAS system, which recirculated the water, controlled the pH and removed accumulated ammonia, was set up in a 40 feet reefer tank to control the temperature at 4 ° C. The project was funded by EIT food and the participants were Technion and Matís.

The results show that Arctic char could be held at a density of 80 kg / m3 at 4 ° C for 8 days in the RAS system, without adverse effects on mortality. Moreover, no differences were found in the sensory quality (flavor, odor, appearance and texture) of the stored fish compared to fish before it was placed in the RAS system. The stored fish had however more gaping, higher cooking yield and marginally lighter color than fish before placing in the system. 

However, a bio-load of 135-145 kg / m3 Arctic char in the RAS storage and holding system led to a high mortality. Moreover, on slaughter the surviving fish had adverse sensory quality as indicated by loss of characteristic flavor and odor as well as firmer, drier and tougher texture. The fish had a high incidence of gaping, a high cooking yield and showed evidence of deformation on cooking.

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