Melanised focal changes (black spots) are common findings in the white skeletal muscle of seawater-farmed Atlantic salmon (Salmo salar). Fillets with melanised focal changes are considered as lower quality and cause large economic losses. It has been suggested that red focal changes (red spots) precede the melanised focal changes. In the present work, we examined different populations of captive and wild salmon for the occurrence of both types of changes, which were investigated for the presence of different viruses by immunohistochemistry and RT-qPCR. The occurrence of red or melanised foci varied significantly between the populations, from none in wild fish control group, low prevalence of small foci in fish kept in in-house tanks, to high prevalence of large foci in farm-raised salmon. Large amounts of Piscine orthoreovirus (PRV) antigen were detected in all foci. No other viruses were detected. Red focal changes contained significantly higher levels of PRV RNA than apparently non-affected areas in white muscle of the same individuals. Some changes displayed a transient form between a red and melanised pathotype, indicating a progression from an acute to a chronic manifestation. We conclude that PRV is associated with the focal pathological changes in the white muscle of farmed Atlantic salmon and is a premise for the development of focal melanised changes.
Aims To evaluate ATP bioluminescence‐based hygiene monitoring systems under conditions relevant to fish processing environments. Methods and Results The ATP bioluminescence of fish fractions that are potentially present after insufficient cleaning of fish processing environments was determined. Different fractions and interfering substances representing the stages from slaughtering to smoking were prepared and measured using two different commercial systems (SystemSURE Plus and Clean‐Trace). ATP bioluminescence was quenched by acidic liquid smoke and by sodium chloride even at concentrations as low as 0·9% NaCl. Large variations were observed between different types of trout homogenates: the ATP bioluminescence from raw belly fat homogenate was 100–1000 times lower than for trout blood. There were about a 1000‐fold lower ATP bioluminescence in raw compared to heat‐treated fractions from trout, with the exception of blood. The bioluminescence from Listeria monocytogenes was very low. Results from fish processing plants supported the laboratory findings. Conclusions The output from ATP‐monitoring instruments depends on the nature of fish soil present, as well as the presence of sodium chloride and low pH. This may lead to considerable under‐ or overestimation of the level of organic soil. Significance and Impact of the Study ATP bioluminescence instruments are widely used by the fish industry for monitoring hygiene. The monitoring method will only give valuable information about the hygiene if critical limits are set after a validation period, distinguishing between areas with different types of soil and between different hygiene zones.
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