Startseite A taxonomic review of hymenolepidids (Eucestoda, Hymenolepididae) from dormice (Rodentia, Gliridae), with descriptions of two new species
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A taxonomic review of hymenolepidids (Eucestoda, Hymenolepididae) from dormice (Rodentia, Gliridae), with descriptions of two new species

  • Arseny A. Makarikov EMAIL logo
Veröffentlicht/Copyright: 28. Dezember 2016
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Acta Parasitologica
Aus der Zeitschrift Acta Parasitologica Band 62 Heft 1

Abstract

In present study the systematic and taxonomic position of hymenolepidids parasitizing rodents of the family Gliridae from Europe and Central Asia is discussed. Hymenolepis myoxi is redescribed on the basis of the type material from the fat dormouse Glis glis deposited in the collection of the Museum für Naturkunde, Berlin, Germany. Significant corrections of morphologically distinctive characters attributable to H. myoxi include: (1) recognition of a rudimentary rostellar apparatus; (2) absence of rostellar hooks and spination on the suckers; and (3) tissues of the scolex and neck filled with numerous “firm elements”. Hymenolepis sulcata was recognised as a synonym of H. myoxi (sensu stricto). The generic allocation of true H. myoxi and validity of the genus Armadolepis is clarified. Specimens from Eliomys quercinus originally designated as H. myoxi by Baer (1932) are described as a new species, Armadolepis jeanbaeri n. sp. The taxonomy has potentially been confused as Spassky (1954) designated misidentified specimens of H. myoxi sensu Baer (1932) as the type species of the genus Armadolepis. In the current article, this error is corrected and A. jeanbaeri n. sp. is fixed as the type of the genus Armadolepis. An additional new species of Armadolepis, A. tenorai n. sp., is described from Dryomys nitedula from Almaty Province, Kazakhstan. The generic diagnosis of Armadolepis is amended. Armadolepis (sensu stricto) is subdivided into two subgenera; the nominotypical subgenus includes species having well developed rostellar apparatus armed by rostellar hooks and A. (Bremserilepis) n. subgen. includes species with rudimentary and unarmed rostellar apparatus.

Keywords: Hymenolepididae; Armadolepis diagnosis; Hymenolepis myoxi; Hymenolepis sulcata; Armadolepis jeanbaeri n. sp.; Armadolepis tenorai n. sp.; dormice; Gliridae; Europe; Central Asia

Funding statement: A substantial portion of the work was funded by the by the Russian Fund for Fundamental Research (Project No. 14-04-00871-a and 17-04-00238). Further support for AAM was provided by the Federal Fundamental Scientific Research Program for 2013-2020 (VI.51.1.7.). This study was funded in part by the US National Science Foundation grants DEB 0818696 and 0818823

Compliance with ethical standards

  1. Conflict of interest statement. The author declares that he has no conflict of interest.

    Ethical approval. The author carefully reviewed the ethical standards of the journal and hereby certifies that the procedures used with the investigated species comply fully with those standards. The methods used in the current study were approved by the ethics committee of the Institute of Systematics and Ecology of Animals, Novosibirsk, Russia (ISEA).

Acknowledgements

I wish to thank the curators of the helminthological collections, Dr. Birger Neuhaus (Museum für Naturkunde, Berlin, Germany) and Dr. Jean Mariaux (Natural History Museum, Geneva, Switzerland) for assistance in assembling cestode specimens for the current study. I also thank Dr. Helmut Sattmann (Naturhistorisches Museum, Vienna, Austria) for assistance in obtaining critical literature and for providing valuable comments on the biography of J. Bremser. Dr. Voitto Haukisalmi (Finnish Museum of Natural History, Helsinki, Finland) provided the information about voucher specimens from dormice. I am grateful to Dr. Anatoly V. Barkalov (ISEA) who kindly discussed issues of zoological nomenclature for the present study. Dr. Vasyl Tkach (University of North Dakota, Grand Forks, ND, USA) shared access to unpublished data on genetic diversity of Armadolepis. I sincerely thank Dr. Eric P. Hoberg (U.S. National Parasite Collection, Beltsville, MD, USA) and Dr. Boyko B. Georgiev (Institute of Biodiversity and Ecosystem Research Bulgarian Academy of Sciences, Sofia, Bulgaria) for their useful comments and checking the English in the manuscript. Helminths from rodents from southeastern Kazakhstan were collected within the framework of a comprehensive expedition which was organized in 2012 by Institute of Systematics and Ecology of Animals SB RAS. I am grateful to Dr. Victor V. Glupov and Dr. Anatoly V. Barkalov for their great contribution in organization of the comprehensive expedition.

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Received: 2016-3-31
Revised: 2016-8-23
Accepted: 2016-8-26
Published Online: 2016-12-28
Published in Print: 2017-3-1

© 2017 W. Stefański Institute of Parasitology, PAS

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https://doi.org/10.1515/ap-2017-0001
Schlagwörter für diesen Artikel
Hymenolepididae; Armadolepis diagnosis; Hymenolepis myoxi; Hymenolepis sulcata; Armadolepis jeanbaeri n. sp.; Armadolepis tenorai n. sp.; dormice; Gliridae; Europe; Central Asia

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  24. Occurrence of Naegleria species in therapeutic geothermal water sources, Northern Iran
  26. Spermatological characteristics of the enigmatic monogenean Dictyocotyle coeliaca Nybelin, 1941 (Monopisthocotylea: Monocotylidae) reveal possible adaptation to endoparasitism
  28. Occurrence of two novel actinospore types (Cnidaria: Myxosporea) in Brazilian fish farms, and the creation of a novel actinospore collective group, Seisactinomyxon
  30. Dictyocaulosis in dairy cows in Brazil: an epidemiological, clinical-pathological and therapeutic approach
  32. Intra and inter species genetic variability of transferrin receptor gene regions in Trypanosoma evansi isolates of different livestock and geographical regions of India
  34. Transcriptional immune response in mesenteric lymph nodes in pigs with different levels of resistance to Ascaris suum
  36. The first successful report of the in vitro life cycle of Chinese Leishmania: the in vitro conversion of Leishmania amastigotes has been raised to 94% by testing 216 culture medium compound
  38. Reduced [14C]-methionine uptake and fecundity in Schistosoma mansoni females treated with recombinant tumor necrosis factor α in vitro
  40. A new feather mite of the genus Neodectes Park and Atyeo 1971 (Acari: Proctophyllodidae) from New Zealand wrens (Passeriformes: Acanthisittidae)
  42. Exploring possibilities for an alternative approach in experimental schistosomiasis mansoni: the peritoneal cavity of mice
  44. Molecular diagnosis of Entamoeba spp. versus microscopy in the Great Cairo
  46. Genetic diversity among Babesia rossi detected in naturally infected dogs in Abeokuta, Nigeria, based on 18S rRNA gene sequences
  48. Morphological and molecular characterization of Cucullanus bourdini Petter et Le Bel, 1992 (Ascaridida: Cucullanidae) from the yellowback fusilier Caesio xanthonota Bleeker (Perciformes: Caesionidae)
  50. Prevalence and molecular characterization of Theileria equi and Babesia caballi in jereed horses in Erzurum, Turkey
  52. Report of fatal mixed infection with Cryptosporidium parvum and Giardia intestinalis in neonatal calves
  53. Case Report
  54. Lethal Angiostrongylus vasorum infection in a Hungarian dog
  55. Research Note
  56. Serosurvey of anti-Toxoplasma gondii antibodies in sport horses from Paraiba state, Northeastern Brazil
  57. Erratum to: Acta Parasitologica 2016, 61(4): Table of contents
  58. Erratum to: Acta Parasitologica 2016, 61(4): Table of contents
  59. Erratum to: Acta Parasitologica (2015), 60: 354
  60. Coccidiosis in European rabbit (Oryctolagus cuniculus algirus) populations in the Iberian Peninsula
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Heruntergeladen am 25.9.2025 von https://www.degruyterbrill.com/document/doi/10.1515/ap-2017-0001/html
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