4.4 Article

Echinostoma chankensis nom. nov., other Echinostoma spp. and Isthmiophora hortensis in East Asia: morphology, molecular data and phylogeny within Echinostomatidae

Journal

PARASITOLOGY
Volume 148, Issue 11, Pages 1366-1382

Publisher

CAMBRIDGE UNIV PRESS
DOI: 10.1017/S0031182021000950

Keywords

Echinostoma chankensis nom. nov; Echinostomatidae; life cycle; morphological description; phylogenetic relationships

Categories

Funding

  1. Government basic research program [0267-2019-0018]

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This study obtained life cycle, morphological and genetic data for four species of trematodes from East Asia, revealing differences in their identities based on various data characteristics. The research also highlighted distinct populations of trematodes in Europe and East Asia based on biological, morphological and genetic traits.
Life cycles, and morphological and molecular data were obtained for Echinostoma chankensis nom. nov., Echinostoma cinetorchis, Echinostoma miyagawai and Isthmiophora hortensis from East Asia. It was established that, based on both life cycle and morphology data, one of the trematodes is identical to the worms designated as Euparyphium amurensis. Genetic data showed that this trematode belongs to Echinostoma. The complex data on biological, morphological and genetic characterizations establish that the distribution of the morphologically similar species, I. hortensis and Isthmiophora melis, in the Old World are limited by the East Asian and European regions, respectively. Data on mature worms of East Asian E. miyagawai revealed morphological and genetic identity with E. miyagawai from Europe. However, E. miyagawai from Europe differs from E. miyagawai from the type locality (East Asia) in terms of reaching maturity and the morphology of cercariae. These data indicate that the European worm, designated E. miyagawai, does not belong to this species. An analysis of the phylogenetic relationships of Echinostomatidae was conducted based on the 28S, ITS2 and nad1 markers. Analysis using the nad1 gene for the known representatives of Echinostomatidae is carried out for the first time, showing that nuclear markers are ineffective separate from mitochondrial ones.

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