Revue Suisse de Zoologie, Genève, 10, 31–164. (1902b) Myriapodes du Valais (Vallée du Rhone et Vallées Latérales). (1902a) Quelques nouveaux Myriopodes du Valais. (Ed.), Treatise on zoology-anatomy, taxonomy, biology. Įnghoff, H., Golovatch, S., Short, M., Stoev, P. Molecular Phylogenetics and Evolution, 141, 106615. (2019b) Fifteen shades of green: The evolution of Bufotes toads revisited. Bulletin de la Socieìteì impeìriale des naturalistes de Moscou, 6, 194–209.ĭufresnes, C., Mazepa, G., Jablonski, D., Oliveira, R.C., Wenseleers, T., Shabanov, D.A., Auer, M., Ernst, R., Koch, C., Ramírez-Chaves, H.E., Mulder, K.P., Simonov, E., Tiutenko, A., Kryvokhyzha, D., Wennekes, P.L., Zinenko, O.I., Korshunov, O.V., Al-Johany, A.M., Peregontsev, E.A., Masroor, R., Betto-Colliard, C., Denoël, M., Borkin, L.J., Skorinov, D.V., Pasynkova, R.A., Mazanaeva, L.F., Rosanov, J.M., Dubey, S. (1833) Tentaminum quorundam monographicorum Insecta Myriapoda Chilognatha Latreillii spectantium Prodromus. Proceedings of the Royal Society B: Biological Sciences, 273, 3101–3109. (2006) Recurrent replacement of mtDNA and cryptic hybridization between two sibling bat species Myotis myotis and Myotis blythii. (2008) High-altitude Isopoda, Arachnida and Myriapoda in the Old World. Abhandlungen der Senckenbergischen naturforschenden Gesellschaft, 39 (3), 233–289.īeron, P. Nebst Beiträgen zur Kenntnis der Lithobiiden, Glomeriden sowie der Gattungen Brachydesmus und Archiulus. (1927) Myriopoden aus den nördlichen und östlichen Spanien, gesammelt von Dr. (2008) Phylogeny in cryptic weevils: molecules, morphology and new genera of western Palaearctic Cryptorhynchinae (Coleoptera: Curculionidae). (2021) Macedomeris, a new monotypic doderiinine genus (Diplopoda, Glomerida) from a cave in North Macedonia, Balkan Peninsula. to be just that, and all three are formally synonymized under S. Genetic barcoding data confirm the three colour varieties of S. Genetically, Simplomeris belongs to the Glomeris klugii Brandt, 1833 species-group and is particularly close to high-altitude endemics from the southwestern and Bergamasque Alps, especially G. Morphologically, the telopods of Simplomeris resemble those of Haploglomeris Verhoeff, 1906 from the eastern Alps and confirm the present position in the Haploglomerinae. Aside from the first photograph of a living specimen, scanning electron microscopy and genetic barcoding of the COI gene have been conducted. Fresh material, which was encountered by the author 10 years ago from both known localities, allows here a redescription of this rarely encountered genus. Being one of only a handful of genera in the subfamily Haploglomerinae, distributed in Europe and SE Asia, its morphology is of greater interest in a future phylogenetic sorting of the Glomerida. montivaga (Faës, 1902), a high-altitude endemic only known from <5 collection events in the Simplon Valley and the Aletsch Glacier, southern Switzerland. One of these genera is Simplomeris Verhoeff, 1936 with its single species S. The European pill millipedes (Glomerida) are especially rich in species and genera of enigmatic status, which have been neither reviewed nor revised since more than 70 years. Myriapoda, Aletsch, alpine endemism, barcoding, high-altitude, introgression Abstract Zoological Research Museum Alexander Koenig, Leibniz Institute for Biodiversity Change, Adenauerallee 160, D-53113 Bonn, Germany.
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