@booklet {15752, title = {Analytical catalogue of Westpalearctic Cryptorhynchinae. Part 1: Kyklioacalles, Onyxacalles, Dichromacalles, Calacalles, Echinodera (Col.: Curculionidae: Cryptorhynchinae)}, volume = {2}, year = {2001}, pages = {59-119}, type = {Article}, keywords = {Calacalles, Dichromacalles, Echinodera, Echinodera (Dieckmannia) brisouti, Echinodera (Echinodera) variegata, Echinodera capiomonti, Echinodera Dieckmannia costata, Echinodera Dieckmannia fusca, Echinodera Dieckmannia globula, Kyklioacalles, Onyxacalles, Onyxacalles pyrenaeus, Onyxacalles pyrenaeus var. germanicus}, isbn = {1439-4650}, author = {Stueben, Peter E.}, editor = {Behne, Lutz} } @booklet {15751, title = {Analytical catalogue of Westpalearctic Cryptorhynchinae. Part 1: Kyklioacalles, Onyxacalles, Dichromacalles, Calacalles, Echinodera (Col.: Curculionidae: Cryptorhynchinae)}, howpublished = {Snudebiller}, volume = {2}, year = {2001}, pages = {59-119}, type = {Article}, keywords = {Calacalles, Dichromacalles, Echinodera, Echinodera (Dieckmannia) brisouti, Echinodera (Echinodera) variegata, Echinodera capiomonti, Echinodera Dieckmannia costata, Echinodera Dieckmannia fusca, Echinodera Dieckmannia globula, Kyklioacalles, Onyxacalles, Onyxacalles pyrenaeus, Onyxacalles pyrenaeus var. germanicus}, isbn = {1439-4650}, author = {Stueben, Peter E.}, editor = {Behne, Lutz} } @article {13913, title = {Neotype designation of Onyxacalles pyrenaeus and description of its sibling species Onyxacalles boehmei sp. nov. from Central Europe (Coleoptera: Curculionidae)}, journal = {Entomological Problems}, volume = {32}, number = {1}, year = {2001}, month = {June}, pages = {73-78}, type = {Article}, abstract = {A new species, Onyxacalles boehmei, as a sibling species to Onyxacalles pyrenaeus (Boheman, 1844) is described. A neotype of Onyxacalles pyrenaeus (Boheman, 1844) is designated. Differential diagnosis and geographical distribution of both sibling species, illustrations and key to all four Central European Onyxacalles species are given. Moreover, the practical quideline to differential diagnosis of Onyxacalles pyrenaeus-group is included.}, keywords = {Acalles roboris, Onyxacalles, Onyxacalles boehmei, Onyxacalles pyrenaeus}, isbn = {1335-5899}, author = {Kostal, Michael and Holecova, Milada} } @article {11236, title = {Descriptions of two new species of the genus Onycalles [Onyxacalles] of the Mediterranean region with notes to the synonymies of some species of Onyxacalles Stueben 1999 (Coleoptera: Curculionidae: Cryptorhynchinae)}, journal = {Snudebiller}, volume = {5}, year = {2004}, note = {Beschreibung neuer Onyxacalles-Arten aus dem mediterranen Raum und Anmerkungen zur Synonymie einiger Arten der Gattung Onyxacalles Stueben 1999 (Coleoptera: Curculionidae: Cryptorhynchinae).}, pages = {116-131}, type = {Article}, abstract = {Onyxacalles hannibali Germann sp.n. (Tunisia: Dorsale) and Onyxacalles maginaensis Stueben sp.n. (Spain: Jaen) are described and distinguished from the 13 known species of the genus Onyxacalles Stueben 1999. Relevant external characters and the male genitalia of all discussed taxa are illustrated. A new diagnostic key allows the identification of all species of the genus Onyxacalles. Moreover, new scientific findings of the species are presented. A lectotype and paralectotypes are designated for Acalles pyrenaeus Boheman 1844. The neotype designation of this species by Kostal \& Holecova (2001) falls away (ICZN 2000: 75.8). Following synonymies are established: Acalles pyrenaeus Boheman 1844 (= Acalles pyrenaeus germanicus Letzner 1882 = Onyxacalles boehmei Kostal \& Holecova 2001 n. syn.).}, keywords = {Acalles pyrenaeus, Onyxacalles, Onyxacalles hannibali, Onyxacalles maginaensis}, isbn = {1439-4650}, author = {Germann, Christoph and Stueben, Peter E.} } @booklet {9159, title = {Revision of the genus Ruteria Roudier, 1954 (Coleoptera: Curculionidae: Cryptorhynchinae)}, howpublished = {Snudebiller}, volume = {8}, year = {2007}, note = {Revision des Genus Ruteria Roudier, 1954 (Coleoptera: Curculionidae: Cryptorhynchinae).}, pages = {127-153}, type = {Article}, abstract = {The 15 species of the genus Ruteria are redescribed and for all species differential diagnoses are presented. A lectotype of Acalles porcheti Hoffmann, 1935 is designated. This species doesn{\textquoteright}t belong to the genus Ruteria as hitherto accepted [Stueben 1998c][Wolf 2001], but is really a species of the genus Onyxacalles Stueben 1999 and must be ranked among the Onyxacalles pyrenaeus group. The taxa Ruteria tyrrhenica (Caldara, 1978) and Ruteria bellieri epirica Wolf, 2001 could be synonyms of Ruteria bellieri bellieri (Reiche, 1860) and Ruteria kakhetica Savitsky, 1997 could be a synonym of Ruteria hyrcanica Savitsky, 1997. But a clear allocation of one of these species is, however, still impossible only by using {\textquoteright}morphological{\textquoteright} characters. Here any differential diagnosis is reliant on an integrative taxonomy combining DNA taxonomy, morphology and cross-breedings, which will be done over the next years. Relevant external characters and the male genitalia of all discussed taxa are illustrated. Moreover, a new diagnostic key allows the identification of all species of the genus Ruteria}, keywords = {Onyxacalles porcheti, Ruteria, Ruteria anatolica, Ruteria bellieri bellieri, Ruteria bellieri epirica, Ruteria graeca, Ruteria hypocrita, Ruteria hyrcanica, Ruteria kakhetica, Ruteria meskhetica, Ruteria montissacris, Ruteria normandi, Ruteria paganettii, Ruteria pelionis, Ruteria porcheti, Ruteria teplovi, Ruteria tyrrhenica, Ruteria zerchei}, isbn = {1439-4650}, author = {Bahr, Friedhelm and Stueben, Peter E.} } @booklet {9158, title = {Digital Weevil Determination for Curculionoidea of West Palaearctic. Transalpina: Cryptorhynchinae}, howpublished = {Snudebiller}, volume = {3}, year = {2002}, pages = {14-87}, type = {Article}, abstract = {Torneuma [Palaearctic region / West, northern / ]. Cryptorhynchinae [Identification guides / / ] [Palaearctic region / West, northern / ] [ / / Distribution mapping systematics \& identification]. Acalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 25. Cryptorhynchinae (Curculionidae): Key to genera, Key to species, Palaearctic region, West, northern, P. 15, Palaearctic region, West, northern, P. 15. Dichromacalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 22. Echinodera (Curculionidae): Key to species, Palaearctic region, West, northern, P. 19. Kyklioacalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 23. Onyxacalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 21. Torneuma (Curculionidae): Key to species, Palaearctic region, West, northern, P. 18.}, keywords = {Acalles, Cryptorhynchinae, Dichromacalles, Echinodera, Kyklioacalles, Onyxacalles, Torneuma}, isbn = {1439-4650}, author = {Bahr, F. and Stueben, P. E.} } @article {7479, title = {{\textquoteleft}Die musikalischen Acallen:{\textquoteright}Beobachtungen zur Stridulation bei den Cryptorhynchinae von den Kanaren - Cryptorhynchinae-Studie 13.}, journal = {Snudebiller}, volume = {1}, year = {2000}, note = {ORIG-Title-Journal-Volume-Combination: {\textquoteleft}Die musikalischen Acallen:{\textquoteright}Beobachtungen zur Stridulation bei den Cryptorhynchinae von den Kanaren - Cryptorhynchinae-Studie 13. Snudebiller 1}, pages = {307-317}, abstract = {This study describes songs, morphology of the stridulatory apparatus and mechanisms of sound production for 12 species of the weevil genera Acalles, Dichromacalles and Onyxacalles (Curculionidae: Cryptorhynchinae) from the Canary Islands. SEM studies reveal a pronounced stridulatory sector consisting of 30-40 parallel ridges and a subreticulated portion at the inner surface of both the elytra. Cuticular emergences on the 8th abdominal tergit function as plectrum. Video-sequences clearly reveal movements of the plectrum against the elytral stridulatory sector, illustrating the mechanism already proposed by Wollaston [Wollaston 1860a]. These movements generate a rattling noise of species-specific intensity. A thorough acoustic analysis reveals a broad frequency spectrum between 1,5 and 12 kHz for all species, with a species-specific lower limit, shifted towards deeper frequencies for species with powerful stridulation. Songs consist of elements [Lautelemente] between 10 and 50 ms duration, separated by longer pauses between 30 and 200 ms. Elements consist of needle-shaped pulses of only 0.2 ms duration, which generate the broad frequency spectrum [Fig. 9]. Duration of elements and pauses are species-specific, in spite of considerable variation. Elements and pauses are shortest for Acalles lepidus (15 and 36 ms, respectively), while Acalles muelleri with 30 and 180 ms, and Acalles sonchi with 37 and 60 ms exhibit the highest values. In addition, these two species show the loudest stridulation, while sounds produced by species such as Onyxacalles ringeli can barely be heard. Stridulation is elicited by touch, and therefore is probably a defense reaction.}, keywords = {Acalles, Cryptorhynchinae, Dichromacalles, Onyxacalles}, author = {Riede, K. and St{\"u}ben, P.E.} } @booklet {6775, title = {Analytical catalogue of Westpalearctic Cryptorhynchinae. Part 1: Kyklioacalles, Onyxacalles, Dichromacalles, Calacalles, Echinodera (Col.: Curculionidae: Cryptorhynchinae)}, howpublished = {Snudebiller}, volume = {2}, year = {2001}, pages = {59-119}, type = {Article}, keywords = {Calacalles, Dichromacalles, Echinodera, Echinodera (Dieckmannia) brisouti, Echinodera (Echinodera) variegata, Echinodera capiomonti, Echinodera Dieckmannia costata, Echinodera Dieckmannia fusca, Echinodera Dieckmannia globula, Kyklioacalles, Onyxacalles, Onyxacalles pyrenaeus, Onyxacalles pyrenaeus var. germanicus}, isbn = {1439-4650}, author = {Stueben, Peter E. and Behne, Lutz and Bahr, Friedhelm} } @booklet {2160, title = {Digital Weevil Determination for Curculionoidea of West Palaearctic. Transalpina: Cryptorhynchinae}, howpublished = {Snudebiller}, volume = {3}, year = {2002}, pages = {14-87}, type = {Article}, abstract = {Torneuma [Palaearctic region / West, northern / ]. Cryptorhynchinae [Identification guides / / ] [Palaearctic region / West, northern / ] [ / / Distribution mapping systematics \& identification]. Acalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 25. Cryptorhynchinae (Curculionidae): Key to genera, Key to species, Palaearctic region, West, northern, P. 15, Palaearctic region, West, northern, P. 15. Dichromacalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 22. Echinodera (Curculionidae): Key to species, Palaearctic region, West, northern, P. 19. Kyklioacalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 23. Onyxacalles (Curculionidae): Key to species, Palaearctic region, West, northern, P. 21. Torneuma (Curculionidae): Key to species, Palaearctic region, West, northern, P. 18.}, keywords = {Cryptorhynchinae, Dichromacalles, Echinodera, Kyklioacalles, Onyxacalles, Torneuma}, isbn = {1439-4650}, author = {Bahr, F. and Stueben, P. E.} } @booklet {2161, title = {Revision of the genus Ruteria Roudier, 1954 (Coleoptera: Curculionidae: Cryptorhynchinae)}, howpublished = {Snudebiller}, volume = {8}, year = {2007}, note = {Revision des Genus Ruteria Roudier, 1954 (Coleoptera: Curculionidae: Cryptorhynchinae).}, pages = {127-153}, type = {Article}, abstract = {The 15 species of the genus Ruteria are redescribed and for all species differential diagnoses are presented. A lectotype of Acalles porcheti Hoffmann, 1935 is designated. This species doesn{\textquoteright}t belong to the genus Ruteria as hitherto accepted [Stueben 1998c][Wolf 2001], but is really a species of the genus Onyxacalles Stueben 1999 and must be ranked among the Onyxacalles pyrenaeus group. The taxa Ruteria tyrrhenica (Caldara, 1978) and Ruteria bellieri epirica Wolf, 2001 could be synonyms of Ruteria bellieri bellieri (Reiche, 1860) and Ruteria kakhetica Savitsky, 1997 could be a synonym of Ruteria hyrcanica Savitsky, 1997. But a clear allocation of one of these species is, however, still impossible only by using {\textquoteright}morphological{\textquoteright} characters. Here any differential diagnosis is reliant on an integrative taxonomy combining DNA taxonomy, morphology and cross-breedings, which will be done over the next years. Relevant external characters and the male genitalia of all discussed taxa are illustrated. Moreover, a new diagnostic key allows the identification of all species of the genus Ruteria}, keywords = {Onyxacalles porcheti, Ruteria, Ruteria anatolica, Ruteria bellieri bellieri, Ruteria bellieri epirica, Ruteria graeca, Ruteria hypocrita, Ruteria hyrcanica, Ruteria kakhetica, Ruteria meskhetica, Ruteria montissacris, Ruteria normandi, Ruteria paganettii, Ruteria pelionis, Ruteria porcheti, Ruteria teplovi, Ruteria tyrrhenica, Ruteria zerchei}, isbn = {1439-4650}, author = {Bahr, Friedhelm and Stueben, Peter E.} } @article {2067, title = {Addenda and corrigenda to {\textquoteright}A world catalogue of families and genera of Curculionoidea (Insecta: Coleoptera){\textquoteright}}, journal = {Zootaxa}, volume = {63}, year = {2002}, month = {22}, pages = {1-37}, type = {Article}, abstract = {Omissions from and corrections to Alonso Zarazaga \& Lyal (1999) are given. The following 19 valid taxa described before 2000 were absent and are now included: Brarus Kuschel, 1997 in Nemonychidae, Brachycorynus, Habroxenus, Neoxenus, Sicanthus and Trigonorhinini (all of Valentine, 1999 in Anthribidae), Gobicar Gratshev \& Zherikhin, 1999 in Eccoptarthridae, Neoicaris Hoffmann, 1968 in Erirhinidae, Baezia Alonso-Zarazaga \& Garcia, 1999, Ecezius Thompson, 1982, Hirtegrius Colonnelli, 1999, Kyklioacalles Stueben, 1999, Neasphalmus Nakane, 1963, Neomroczkowskiella Kania, 1999, Notegrius Colonnelli, 1999, Onyxacalles Stueben, 1999, Oreochorus Zaslavskij \& Korotyaev, 1998, Perigasteromimus Colonnelli, 1999, Pseudoglyptobaris Thompson, 1982 and Strophocodes Pelletier, 1999 in Curculionidae. A new replacement name is proposed in Attelabidae: Riedeliops Alonso-Zarazaga \& Lyal (subgenus of Euops Schoenherr, 1839) nom. nov. for Charops Riedel, 1998 (non Holmgren, 1858). New synonymies are: Basitropini Lacordaire, 1866 (= Eugonini Lacordaire, 1866, syn. nov.) in Anthribidae; Haplorhynchites (Haplorhynchites) Voss, 1924 (= Aphlorhynchites Sawada, 1993, syn. nov., removed from synonymy with Teretriorhynchites) in Rhynchitidae; Belorhynchus Berthold, 1827 (= Belopherus Schoenherr, 1833, syn. nov.) and Arrhenodini Lacordaire, 1866 (= Belorhynchini Lacordaire, 1866, syn. nov.) in Brentidae; Otiorhynchus (Dorymerus) Seidlitz, 1890 (= Otiorhynchus (Normotionus) Reitter, 1912, syn. nov.), Pseudomeira Stierlin, 1881 (= Neoperitelinus O{\textquoteright}Brien \& Wibmer, 1982, syn. nov.), Polydrusini Schoenherr, 1823 (= Liophloeidae Gistel, 1848, syn. nov.), Leptomias (Leptomias) Faust, 1886 (= Formanekia Fleischer, 1923, syn. nov.) and Trachodini Gistel, 1848 (= Acicnemidini Lacordaire, 1866, syn. nov.) in Curculionidae. New type species designations are: Hypera arvernica Capiomont, 1868 for Pachypera Capiomont, 1868 (Curculionidae) and Orthosinus velatus Motschulsky, 1863 for Orthosinus Motschulsky, 1863 (Dryophthoridae). Two taxa are described as new in Curculionidae: Otiorhynchus (Magnanotius) Alonso-Zarazaga \& Lyal, subgen. nov. (type species Otiorhynchus kollari Gyllenhal, 1834, in Entiminae Otiorhynchini), and Pajnisoodes Alonso-Zarazaga \& Lyal gen. nov. (type species: Dirodes flavomaculatus Pajni \& Sood, 1982 in Lixinae Cleonini). New combinations are: Pajnisoodes flavomaculatus (Pajni \& Sood, 1982) and P. chandigarhensis (Pajni \& Sood, 1982), both from Dirodes. New placements are: Teretriorhynchites Voss, 1938 to subgenus of Haplorhynchites (from Involvulus) (Rhynchiddae). HypodeporausVoss, 1922 to subgenus of Deporaus (from synonymy under Caenorhinus) (Rhynchiddae). Belorhynchus Berthold, 1827 to genus in Arrhenodini (from synonymy under Nemorhinus) (Brenddae). Tychaeini Schonfeldt, 1910 to tribe in Trachelizinae (from synonymy under Belorhynchini) (Brentidae). Afghanocryptus Voss, 1961 to Erirhininae Arthiostenini (Erirhinidae) from Ocladiinae (Brachyceridae). Myocalandra Faust, 1894 to Diocalandrini (from Litosomini) (Dryophthoridae). Hydronomidius Faust, 1898 to Erirhininae Erirhinini (Erirhinidae) from Bagoinae (Curculionidae). Picia Toumier, 1895 to Erirhinini from Stenopelmini (Erirhinidae). Hypsomus Schoenherr, 1836, Sidomenia Laporte, 1840 and Stenotypus Marshall, 1957 to Curculioninae i. sed. (Curculionidae) from Erirhinini (Erirhinidae). Meripherellus Lea, 1915 to Tychiini i. sed. (Curculionidae) from Erirhinini (Erirhinidae). Opsittis Pascoe, 1870 to Molytinae i. sed. (Curculionidae) from Erirhinini (Erirhinidae). Praolepra Broun, 1880 to Storeini (Curculionidae) from Erirhinim (Erirhinidae). Herpes Bedel, 1874 to Hyperinae Hyperini (from Endminae Thecesternini) (Curculionidae). Oropterus White, 1846 to Eugnomini from Anthonomini (Curculionidae). Pachytrichus Schoenherr, 1836 to Curculioninae ;. sed. from Rhythirrhinini (Curculionidae). Oreoscotus Aurivilhus, 1910 to Aminyopini from Molytinae ;. sed. (Curculionidae). Dirodes Pascoe, 1887 to Stemechini from Cleonini (Curculionidae). Rhinospineus Hoffmann, 1961 to genus in Cyphicerina (from synonymy under Taurostomus) (Curculionidae). Epicthonius Schoenherr, 1823 to genus in Cyclomini (from synonymy under Cyclomus) (Curculionidae). Caulostrophilus Desbrochers, 1905 to genus in Brachyderini (from subgenus of Caulostrophus) and Pellerierius Alonso-Zarazaga \& Lyal, 1999 to genus in Brachyderini (from subgenus of Strophosoma) (Curculionidae). Meconemus Labram \& Imhoff, [1838] is reinstated as the valid name for lschnocerus Schoenherr, 1839 (Anthribidae).}, keywords = {Afghanocryptus, Arrhenodini, Basitropini, Belorhynchini, Caulostrophilus, Curculionoidea, Cyclomus, Deporaus (Caenorhinus), Dirodes, Dorymerus, Epichthonius, Haplorhynchites, Herpes, Hydronomidius, Hypodeporaus, Hypsomus, Ischnocerus, Leptomias, Magnanotius, Meconemus, Meripherellus, Myocalandra, Nemorhinus, Opsittis, Oreoscotus, Oropterus, Orthosinus, Orthosinus velatus, Otiorhynchus kollari, Pachypera, Pachypera arvernica, Pachytrichus, Pajnisoodes, Pajnisoodes chandigarhensis, Pajnisoodes flavomaculatus, Pelletierius, Picia, Polydrusini, Praolepra, Premnotrypini, Pseudomeira, Rhinospineus, Riedelops, Sidomenia, Stenotypus, Taurostomus, Teretriorhynchites, Trachodini, Tychaeini}, isbn = {1175-5326}, url = {://ZOOREC:ZOOR13900019274}, author = {Miguel Angel Alonso-Zarazaga and Lyal, Christopher H. C.} }