Abstract
Trichinosis is a dangerous anthropozoonotic disease caused by a nematode of the genus Trichinella. Being polyhostal, Trichinella is recorded in more than 150 species of animals, including marine mammals. While the circulation mechanism in terrestrial animal species is well-studied and has a logical explanation, the ways of infection of marine mammals remain unexplored in many respects up to the present. Among marine mammals, trichinosis is most common in walruses with the prevalence of 1.5% (Bukina L.A., 2015). The main sources of trichinosis infection for benthophagous walruses are probably their most important prey items, amphipods and bivalve mollusks. The purpose of the present paper was to study the role of bivalves in the transmission of infective material to a potential host. In the experimental infection, decapsulated trichinella larvae isolated from the muscle tissue of cage-kept arctic foxes were used. Trichinella larvae were isolated by the method of trichinelloscopy and digestion of muscle tissue in artificial gastric juice. It was found that the filter feeding structure of mussels does not let trichinella pass into the intestine. However, larvae trapped in the mantle cavity are filtered out and removed as pseudofaeces through the excurrent siphon to the environment. At the same time, they remain viable for 113 hours. The most invasive and viable were trichinella isolated from pseudofaeces and wash off from the mantle cavity (mantle complex) within 30 to 70 hours. The bio-assays performed on white outbred mice were positive. Therefore, mussels can be direct or indirect sources of the invasion. Taking into account that walruses can eat more than 3,000 mollusks in one feeding, the probability of infection increases significantly.
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