Kumanan, K.; Carson, J.; Hunter, R. B. J.; Rolton, A.; von Ammon, U.; Bandaranayake, C.; Angelucci, C.; Morrison, R. N.; Walker, S. P.; Symonds, J. E.; Hutson, K. S.

The bacterial skin disease tenacibaculosis, caused by Tenacibaculum species, can compromise numerous species of economically important marine fish, including salmonids. While tenacibaculosis is a known threat to Atlantic salmon (Salmo salar) aquaculture, the pathogenesis of Tenacibaculum maritimum and Tenacibaculum dicentrarchi on Chinook salmon (Oncorhynchus tshawytscha) has not yet been investigated. In this study, three molecular O-AGC types of T. maritimum (O-AGC Type 3-0, Type 2-1 and Type 3-2) and T. dicentrarchi isolated during a disease outbreak of farmed Chinook salmon in Aotearoa New Zealand were assessed for their ability to induce tenacibaculosis in salmon smolts under controlled conditions. Naive Chinook salmon were exposed to T. maritimum or T.dicentrarchi by immersion. Clinical signs of tenacibaculosis were apparent post-exposure and observed in 100% of all three molecular O-AGC types of T.maritimum-challenged fish, with 100% morbidity in O-AGC Type 2-1 and Type 3-2 and 60% in O-AGC Type 3-0. Chinook salmon exposed to T. dicentrarchi showed characteristic clinical signs of disease in 51% of the challenged population, with 28% morbidity. Common gross pathological signs observed for both Tenacibaculum species were congruent with observations on farmed fish in the field, including scale loss, erythematous skin lesion, skin ulcers, fin necrosis, mouth erosion and gill ulceration. Exophthalmia was observed only in T. maritimum-challenged fish, while skin ulcers appeared grossly more severe with exposed musculature in T. dicentrarchi-challenged fish. Pure T. maritimum and T. dicentrarchi cultures were reisolated from the skin and gills of the challenged fish and their identity was confirmed by species-specific PCR and molecular O-AGC typing. Challenge experiments and associated field surveillance (for T. maritimum) did not show the presence of culturable T. maritimum cells in the anterior kidney. This provides compelling evidence that tenacibaculosis in farmed Chinook salmon is an external infectious disease, and that Tenacibaculum is a marine obligate organism that is unable to survive in fish body fluids and does not cause septicaemia. This has repercussions for approaches to experimental challenges with Tenacibaculum species, which must occur by immersion rather than intraperitoneal or intramuscular inoculation, to replicate the natural transmission pathway and to ensure a successful challenge model. This study fulfilled modernised Koch\'s postulates for the three molecular O-AGC types of T. maritimum and single strain of T. dicentrarchi as aetiological agents of tenacibaculosis in Chinook salmon that cause mortalities with considerable external abnormalities.