00425nas a2200109 4500008004100000245006000041210006000101300000900161490000700170100001900177856011900196 1938 eng d00aÉtude sur les araignées cavernicoles du genre Hadites0 aÉtude sur les araignées cavernicoles du genre Hadites a1-280 v111 aKratochvil, J. uhttps://agelenidsoftheworld.myspecies.info/content/%C3%A9tude-sur-les-araign%C3%A9es-cavernicoles-du-genre-hadites00467nas a2200121 4500008004100000245006300041210006200104300001200166490000700178100001600185700001900201856012500220 1933 eng d00aÜber höhlenbewohnende Arachniden. Vorläufige Mitteilung0 aÜber höhlenbewohnende Arachniden Vorläufige Mitteilung a595-6000 v291 aAbsolon, K.1 aKratochvil, J. uhttps://agelenidsoftheworld.myspecies.info/content/%C3%BCber-h%C3%B6hlenbewohnende-arachniden-vorl%C3%A4ufige-mitteilung00540nas a2200121 4500008004100000245009800041210007100139260001200210490000700222100001900229700001800248856015200266 1982 eng d00aÜber das Männchen von Histopona sinuata (Kulczynski, 1897) (Arachnida, Araneae, Agelenidae)0 aÜber das Männchen von Histopona sinuata Kulczynski 1897 Arachnid c12/19820 v201 aHeimer, Stefan1 aWeiss, Ingmar uhttps://agelenidsoftheworld.myspecies.info/content/%C3%BCber-das-m%C3%A4nnchen-von-histopona-sinuata-kulczynski-1897-arachnida-araneae-agelenidae-001371nas a2200241 4500008004100000022001400041024001400055245010700069210006900176260001400245300001000259490000900269520069500278653000900973653001400982653001700996653001801013653001301031100002001044700001901064700001701083856002901100 2013 eng d a1175-5326 a1175-533400aRevision of the Histopona italica group (Araneae: Agelenidae), with the description of two new species0 aRevision of the Histopona italica group Araneae Agelenidae with c16.4.2013 a23-410 v36403 a
During a large survey of agelenid spiders from different private and museum collections, a closer examination of material from all over Italy (including type material and fresh material) previously identified as Histopona italica Brignoli 1977, disclosed two new species for science, both belonging to the italica group. Based on the results of the present work, we describe Histopona leonardoi sp. n. and H. fioni sp. n. and revise the distribution pattern of H. italica group in Italy and Switzerland. Drawings and photographs of relevant structures and a table summary of the diagnostic characters allowing a fast separation of the species are provided.
10aAlps10aApennines10abiogeography10aendemic fauna10aTaxonomy1 aBolzern, Angelo1 aPantini, Paolo1 aIsaia, Marco uwww.mapress.com/zootaxa/01745nas a2200289 4500008004100000020001400041245011500055210006900170260000900239300001200248490000700260520078000267653003501047653001501082653002601097653004901123653002201172653003301194653001101227653001701238653002701255653002401282653003501306653005001341100002301391856004101414 1994 eng d a0001-727200aCopulatory mechanics in the funnel-web spiders Histopona torpida and Textrix denticulata (Agelenidae, Araneae)0 aCopulatory mechanics in the funnelweb spiders Histopona torpida c1994 a379-3840 v753 aThe functional morphology of the copulatory organs of Histopona torpida (C. L. Koch, 1834) and Textrix denticulata (Olivier, 1789), investigated by semi-thin serial sectioning after freezefixation of the animals in copula, is described. In H. torpida, the long embolus runs through a precisely defined course in the membraneous genital pouch of the female vulva. The patellar apophysis locks the pedipalp in the female epigastric furrow. In T. denticulata this is accomplished by the retrolateral tibial apophysis that gets hold at the female scape. In both species the conductor has a locking as well as a guiding function for the embolus. A comparison with previously investigated agelenids shows a surprising diversity in the function of the retrolateral tibial apophysis.10acomparative study] [Mating / /10aCopulation10afunctional morphology10afunctional morphology of copulatory organs].10aHistopona torpida10aHistopona torpida (Araneae).10aorgans10aReproduction10aReproductive behaviour10aReproductive system10aTextrix denticulata (Araneae).10aTextrix denticulata [Genitalia / / Copulatory1 aHuber, Bernhard, A uHistopona thaleri n. sp. is described on both sexes from the cave Megalo Spilio on Mount Serekas, above the village Monastiraki (Aitolo-Akarnania, Western Greece) and the related species H. hauseri (Brignoli, 1972) from Corfu (Ionian Islands) and H. myops (Simon, 1885) from Mt Ossa massif (Thessaly) are redescribed and figured. The new species is distinguished from the other species belonging to the myops group by the shape of male and female genitalia. A table to the identification of the Greek representatives of the group is given and notes on taxonomy, ecology and geographical distribution of the treated species are added.
10aDescription10aEcology10aEurasia10aEurope10aHistopona hauseri10aHistopona myops10aHistopona thaleri10aLand zones10aNew taxa10aNomenclature10aPalaearctic region10aSystematics1 aGasparo, Fulvio uhttps://agelenidsoftheworld.myspecies.info/content/notes-myops-group-histopona-thorell-1869-greece-description-new-cave-dwelling-species02185nas a2200145 4500008004100000020001400041245010400055210006900159260000900228300001200237490000700249520161600256100002701872856014001899 1983 eng d a0184-026600aThe genus Histopona Thorell (Araneae, Agelenidae) with description of two new cave-dwelling species0 agenus Histopona Thorell Araneae Agelenidae with description of t c1983 a325-3370 v103 aA diagnosis of the genus Histopona Thorell is presented. In the past, ambiguous definitions of the genus have been the origin of some taxonomic confusion. All species hitherto included in the genus Roeweriana Kratochvil are here transferred to Histopona. Male and female of H. egonpretneri n. sp. (cave in Mt. Velebit, Croatia) and isolata n.sp. (cave on Crete) are described and pictured. Histopona laeta (Kulczynski) and H. debilis Thorell are synonymized with H. torpida and H. laeta var. paganettii (Nosek) with H. conveniens Kulczynski. It is argued that differences between Roeweriana and Histopona were based mainly on reduction of eye size and pigmentation in the former. According to modern views loss of eye, in many spider species appears to be a minor, fairly easily accomplished adaptation with little phylogenetic weight and this character alone cannot be accepted as a ground for the separation of genera.
The genus Histopona here conceived comprises at present 16 species; 11 inhabit hypogean habitats in limited ranges in southeastern Europe; several are known from one cave only. Histopona torpida is a purely epigean species, distributed over most of Europe, the other epigean species occupy smaller, partly overlapping ranges. A group of closely related species in caves in the southwestern Balkan Peninsula (group myops) is troglobitic ; no eyeless species are known at present.