Bithyniid snails as hosts of Opisthorchiidae and Notocotylidae in the south of Western Siberia, Russia.

Abstract

Opisthorchiasis and related infections are persistent and substantial public health burdens from eastern Europe to southeastern and northern Asia. Snails of the family Bithyniidae act as first intermediate hosts not only for the trematodes of the family Opisthorchiidae but also for those of the family Notocotylidae. There are certain morphological similarities between the aforementioned trematode cercariae. In order to find natural local foci of opisthorchiasis, which are established primarily according to the presence of infected bithyniid snails at the area under examination, it is crucial to correctly identify the rediae and cercariae of the trematodes. The aim of our investigation was to evaluate the role of bithyniid snails in the transmission of Opisthorchiidae and Notocotylidae in ecosystems in the south of Western Siberia. We have been studying the process of bithyniid snail dissemination in Western Siberia and examining their infection by trematodes from 1994 until now. A total of 16,213 bithyniid snails in 23 water bodies (in 28 localities) of four major basins situated in the Novosibirsk region were inspected for trematode infestation. Long-term research has been conducted in the Kargat river estuary and the Ob river floodplain for 15 and 25years, respectively. In both water bodies, the prevalence of notocotylid and opisthorchiid trematodes was positively correlated with the global land-ocean temperature index. Trematode parthenitae were identified if there were mature cercariae capable of leaving the shell of the host snail on their own. Identification to the species of opisthorchiid cercariae was verified using molecular genetic analysis methods targeting ITS2 locus. Opisthorchis felineus and Metorchis bilis, two opisthorchiid species that are potentially perilous to human health, were found in bithyniids in the Novosibirsk region. The mean prevalence of infection with notocotylid trematodes in bithyniid snails was higher than the corresponding prevalence of infection with opisthorchiid trematodes. The results of this study can be used to identify and predict natural foci of epidemiologically and/or epizootically dangerous diseases.