A radiological study on the development of vertebral deformities in cultured Atlantic salmon (Salmo salar L.)

Abstract

This study investigated the development of skeletal deformities in individually tagged Atlantic salmon (n=805) from the parr stage (Sept 2001, 70 g mean±34 g S.D.) until 10 month after transfer to seawater (Feb 2003, 3040 g mean±1097 g S.D.). A subgroup of the total population (n=129) was radiographed as parr (Feb 2002) and again 10 months after transfer to seawater (Feb 2003). Eight percent of the males matured sexually during their first autumn in sea (jack), and were excluded from further analysis. Based on an external examination of each fish (n=773), 1.8% (n=14) developed skeletal deformities (0.1% operculum deformities (n=1), 0.4% jaw deformities (n=3), 1.3% vertebral deformities (n=10)) during the experiment. Based on evaluation of radiographs (n=129), the prevalence of vertebral deformities was 7.0% (n=9) at the parr stage, and 12.4% (n=16) 10 months after transfer to seawater. From radiographs, longitudinally compressed vertebral bodies without intervertebral spaces were classified as ankylosis and compression, longitudinally compressed vertebral bodies with intervertebral spaces were classified as compressions, and dislocated vertebral bodies with a normal morphology and without intervertebral spaces were classified as ankylosis and dislocation. Of the fish that developed deformities during the experiment, 8 had ankylosis and compressions, 7 had compressions and 1 had ankylosis and dislocation. Ankylosis and compression developed in the region between vertebrae number 1 and 16, whereas compressions developed in the region between vertebrae number 13 and 49. Most of the individuals with compression 10 months after transfer to seawater had normal vertebral columns as parr, whereas all individuals with compression and ankylosis 10 months after transfer to seawater had deformed vertebral columns as parr.