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We report here on recent collections of freshwater crabs from Antsiranana Province, northern Madagascar. The specimens belong to three species, one of which is new to science and is described here. This raises the number of species of freshwater crabs found in Madagascar to 17. All are endemic to the island and all belong to the Afrotropical family Potamonautidae Bott, 1970. The new species, Foza manonae sp. nov., is compared to the other species in this genus, and an updated key is provided. It is distinguished from the other three congeners by characters of the male first gonopod, sternum, carapace, and cheliped. The conservation status of the Malagasy freshwater crab fauna is summarized and discussed in light of the new material reported on here belonging to two other species, Madagapotamon humberti Bott, 1965 and Foza ambohitra Cumberlidge & Meyer, 2009.
A new species of leaf insect, Phyllium (Phyllium) letiranti Cumming and Teemsma, new species (Phasmida: Phylliidae), is described from a series of males, females, and eggs from Peleng Island, Indonesia. This new species is the first record of the family Phylliidae on the island and is here differentiated from congeners. Keys to males, females, and eggs of the Phyllium species of Sulawesi and Peleng islands are included within.
First records for Vietnam of Fukienogomphus promineusChao, 1954 and Gomphidia abbotti Williamson, 1908 are documented with emphasis on morphological details. The previously published record of Sieboldius gigas(Martin, 1904) in Do et al. (2011) has to be corrected into Megalogomphus sommeri (Selys, 1854).
During three field trips in 2006 and 2010 to Cuc Phuong National Park in northern Vietnam, a total of 19 anisopteran taxa was recorded. The most interesting records are documented here with field photographs of living specimens or collection material. Observations on their biology and behaviour are also noted.
Streblopus Van Lansberge, 1874 has been one of the most mysterious dung beetle groups of the Neotropical fauna, having a rather peculiar morphology, very few known specimens in collections and a difficult placement among the scarabaeine lineages. In this work, based on the examination of a recently collected series of specimens and a synthesis of some scattered, but deeply valuable, information available in the literature, we readdress many of the questions posed by past authors. It is shown that Streblopus is a relict genus composed of two currently living species of widely disjunct distribution, namely S. opatroides Van Lansberge, 1874, from patches of Atlantic Forest in the Brazilian states of Bahia and Espírito Santo, and S. punctatus (Balthasar, 1938), known from a few localities across Sub-Andean humid forests in the Peruvian and Ecuadorian Amazon Forest. We redescribe both and present in detail the evidence pointing to their validity as two independent species; a discussion of their remarkable sexual dimorphism is also given. The biogeography of Streblopus in South America is addressed, and we conclude that the present disjunct distribution of the genus is a consequence of the retreat of the tropical forest corridors that once connected the Atlantic Forest to the Amazon Basin through the South American Dry Diagonal during several periods of the Neogene, particularly until the Middle Miocene. Finally, we propose an African origin for the genus based on its close phylogenetic relationship with a group of Old World taxa ‒ particularly Circellium Latreille, 1825 and Scarabaeini. Having diverged from those groups in the late Upper Cretaceous, we argue that the ancestor of Streblopus arrived in South America crossing the Atlantic Ocean by rafting. We present a synthesis of data from a wide variety of biological groups to support our ideas and contend that long-distance dispersal hypotheses should be taken more seriously by scarab beetle specialists.
Although extensively studied by different authors over the past 150 years, the taxonomy of Canthon Hoffmannsegg, 1817 and allied genera (which are here informally referred to as 'Canthon sensu lato') still remains problematic. With the aim of resolving some of the questions surrounding these taxa, the present work reviews the taxonomy of one of them, the genus Sylvicanthon Halffter & Martínez, 1977. As defined here, Sylvicanthon is distributed mainly throughout the vast areas of tropical rainforests in the Neotropical region and includes 15 species divided into two groups: the enkerlini group, with a single species, S. enkerlini (Martínez et al., 1964) comb. nov., and the candezei group, with five subgroups: the candezei subgroup, with S. candezei (Harold, 1869), S. genieri sp. nov. and S. foveiventris (Schmidt, 1920); the aequinoctialis subgroup, with S. aequinoctialis (Harold, 1868) comb. nov. and S. proseni (Martínez, 1949) stat. et comb. nov.; the bridarollii subgroup, with S. bridarollii (Martínez, 1949), S. seag sp. nov., S. edmondsi sp. nov. and S. attenboroughi sp. nov.; the furvus subgroup, with S. furvus (Schmidt, 1920), S. monnei sp. nov., S. mayri sp. nov. and S. obscurus (Schmidt, 1920); and the securus subgroup, with a single species, S. securus (Schmidt, 1920) comb. nov. Three species originally included in Sylvicanthon are here (re)transferred to Canthon: Canthon xanthopus Blanchard, 1846 and C. machadoi (Martínez & Pereira, 1967) comb. nov., as well as C. cobosi (Pereira & Martínez, 1960) stat. et comb. nov., which had been previously in synonymy under C. xanthopus. Descriptions, redescriptions, illustrations and comparative tables on the external morphology (including the genital capsule) of the genus and its species are presented, as well as a detailed discussion on their biogeography, comparative morphology, hypotheses on their phylogenetic relationships, data on natural history and a detailed historical revision of the classification of 'Canthon sensu lato'. Finally, we also discuss the socalled 'species problem' (i.e., the definition of the scientific term 'species') and its consequences to dung beetle taxonomy and favour the solution offered by the Biological Species Concept.
The National Collection of Arachnids, Instituto de Biología, Universidad Nacional Autónoma de México (México City) houses 476 chilopod samples, of which 197 are determined to genus and/or species. These are documented here and represent several new state records. Topotypes of eight species of centipedes described by R. V. Chamberlin also documented.
This addendum to “An annotated list of the centipedes (Chilopoda) in The National Collection of Arachnids (Colección Nacional de Arácnidos, CNAN), Instituto de Biología, Universidad Nacional Autónoma de México” (México City), is based on new samples deposited in the last three years. It updates the preliminary list of 197 samples determined to genus and/or species. In this paper a total of 132 samples were added: Scutigeromorpha, 27; and Scolopendromorpha, 105. It also provides new state distribution records for Dendrothereua linceci (Wood, 1867), Scolopendra morsitans Linnaeus, 1758, S. polymorpha Wood, 1861, Rhysida immarginata (Porat, 1876), Scolopocryptops melanostomus Newport, 1845, Newportia spinipes Pocock, 1896, and Ectonocryptoides quadrimeropus Shelley and Mercurio, 2005.
La Reserva de la Biosfera de Chamela-Cuixmala se localiza en la costa del Pacífico del estado mexicano de Jalisco. La Reserva fue fundada en 1993 y se extiende por 13142 hectáreas. Es una de las pocas reservas en México creada para la protección de la selva tropical caducifolia (seca) y sistemas asociados. Cinco especies de ciempiés han sido registradas previamente para la Reserva: Cormocephalus impressus Porat, 1876; Dendrothereua linceci (Wood, 1867); Ectonocryptoides quadrimeropus Shelley y Mercurio, 2005; Scolopendra polymorpha (Wood, 1861) y Scolopendra viridis Say, 1821. A partir de julio de 2010 se inició con el primer estudio formal de la fauna de ciempiés en la Reserva. Después de un año de muestreos, ocho morfoespecies de ciempiés se han determinado para la Reserva: Cryptops (Haplocryptops) cf. acapulcensis Verhoeff, 1934; Cryptops sp.; Rhysida immarginata (Porat, 1876); Scolopendra morsitans Linnaeus, 1758; Polycricus sp.; Sogona sp.; Orphnaeus sp.; y Straberax sp. Esta es la primera vez que Cryptops (Haplocryptops) cf. acapulcensis es encontrada en otra localidad distinta de su localidad tipo. Estudios previos han determinado el papel de los ciempiés como parte de la dieta de mamíferos y componente de la fauna del suelo.
Taxonomic revision of the genus Arsipoda Erichson, 1842 (Coleoptera, Chrysomelidae) in New Caledonia
(2016)
A taxonomic revision of the New Caledonian species of Arsipoda Erichson, 1842 is provided. This group includes 21 species, of which 14 are new to science: Arsipoda atra sp. nov., A. communis sp. nov., A. doboszi sp. nov., A. elongata sp. nov., A. gomezzuritai sp. nov., A. gressitti sp. nov., A. longifrons sp. nov., A. montana sp. nov., A. paniensis sp. nov., A. povilaensis sp. nov., A. punctata sp. nov., A. rutai sp. nov., A. transversa sp. nov. and A. wanati sp. nov. A key for the identification, with figures of habitus, main diagnostic characters, and genitalia is supplied. The range of host plants for these species is extraordinarily broad, and a significant number of them feed on pollen. Crepicnema Scherer, 1969, close to Arsipoda, is also investigated and maintained as a separate genus, and the following synonymies and combination are proposed: Crepicnema parvula (Jacoby, 1885) comb. nov. = Chaetocnema tenimberensis Jacoby, 1894 syn. nov., = Arsipoda salomonensis Bryant, 1941 syn. nov. The phylogenetic analysis, including also A. bifrons Erichson, 1842 and Crepicnema, confirms some trends in distribution patterns of the endemic New Caledonian fauna, and highlights the necessity of further studies to clarify the relationships between Arsipoda and related genera.
A new common deep-sea species of Halirages Boeck, 1871 closely related to H.qvadridentatus G.O. Sars, 1877, H.cainae sp. nov., is described after specimens collected in the Norwegian Sea during the MAREANO 2009-111 cruise. Examination of the syntypes of H. elegans Norman, 1882 demonstrates that Norman's species is a junior synonym of H.qvadridentatus G.O. Sars, 1877 and that the species usually named H.elegans in literature was actually undescribed. The name H.stappersi sp. nov. is proposed for that species. A key to and a checklist of Halirages species is given.
Epimeria of the Southern Ocean with notes on their relatives (Crustacea, Amphipoda, Eusiroidea)
(2017)
The present monograph includes general systematic considerations on the family Epimeriidae, a revision of the genus Epimeria Costa in Hope, 1851 in the Southern Ocean, and a shorter account on putatively related eusiroid taxa occurring in Antarctic and sub-Antarctic seas. The former epimeriid genera Actinacanthus Stebbing, 1888 and Paramphithoe Bruzelius, 1859 are transferred to other families, respectively to the Acanthonotozomellidae Coleman & J.L. Barnard, 1991 and the herein re-established Paramphithoidae G.O. Sars, 1883, so that only Epimeria and Uschakoviella Gurjanova, 1955 are retained within the Epimeriidae Boeck, 1871. The genera Apherusa Walker, 1891 and Halirages Boeck, 1891, which are phylogenetically close to Paramphithoe, are also transferred to the Paramphithoidae. The validity of the suborder Senticaudata Lowry & Myers, 2013, which conflicts with traditional and recent concepts of Eusiroidea Stebbing, 1888, is questioned. Eight subgenera are recognized for Antarctic and sub-Antarctic species of the genus Epimeria: Drakepimeria subgen. nov., Epimeriella K.H. Barnard, 1930, Hoplepimeria subgen. nov., Laevepimeria subgen. nov., Metepimeria Schellenberg, 1931, Pseudepimeria Chevreux, 1912, Subepimeria Bellan-Santini, 1972 and Urepimeria subgen. nov. The type subgenus Epimeria, as currently defined, does not occur in the Southern Ocean. Drakepimeria species are superficially similar to the type species of the genus Epimeria: E. cornigera (Fabricius, 1779), but they are phylogenetically unrelated and substantial morphological differences are obvious at a finer level. Twenty-seven new Antarctic Epimeria species are described herein: Epimeria (Drakepimeria) acanthochelon subgen. et sp. nov., E. (D.) anguloce subgen. et sp. nov., E. (D.) colemani subgen. et sp. nov., E. (D.) corbariae subgen. et sp. nov., E. (D.) cyrano subgen. et sp. nov., E. (D.) havermansiana subgen. et sp. nov., E. (D.) leukhoplites subgen. et sp. nov., E. (D.) loerzae subgen. et sp. nov., E. (D.) pandora subgen. et sp. nov., E. (D.) pyrodrakon subgen. et sp. nov., E. (D.) robertiana subgen. et sp. nov., Epimeria (Epimeriella) atalanta sp. nov., Epimeria (Hoplepimeria) cyphorachis subgen. et sp. nov., E. (H.) gargantua subgen. et sp. nov., E. (H.) linseae subgen. et sp. nov., E. (H.) quasimodo subgen. et sp. nov., E. (H.) xesta subgen. et sp. nov., Epimeria (Laevepimeria) anodon subgen. et sp. nov., E. (L.) cinderella subgen. et sp. nov., Epimeria (Pseudepimeria) amoenitas sp. nov., E. (P.) callista sp. nov., E. (P.) debroyeri sp. nov., E. (P.) kharieis sp. nov., Epimeria (Subepimeria) adeliae sp. nov., E. (S.) iota sp. nov., E. (S.) teres sp. nov. and E. (S.) urvillei sp. nov. The type specimens of E. (D.) macrodonta Walker, 1906, E. (D.) similis Chevreux, 1912, E. (H.) georgiana Schellenberg, 1931 and E. (H.) inermis Walker, 1903 are re-described and illustrated.
Historically the taxonomy of the genus Timarcha has been, and continues to be, quite confusing and largely erroneous. The confusion is mainly due to the absence of reliable traits that aid in precise identification; the lack of study of types at species-level has also contributed to the difficulty in the taxonomy. To improve this situation, we propose techniques for the dissection and study of three useful diagnostic characters such as the vestiture of the sole of female tarsi, and the morphology of the endophallus and its sclerites in males. These features combined are distinctive for each of the species and can help to resolve the taxonomy of the genus.
I would like to begin my presentation with the quotation of the first sentence of Shafii’s Trea-tise er-Risala, the first work which has been reached us until now, concerning foundation of Islamic jurisprudence. “Praise be to God gratitude for one of His favors can only be paid through another favor of him. And this favor generates favor to be bestowed, wherefore, one should feel obliged continuously to pay gratitude to God for each favor.” It is possible to conceive that Mercy (al-Rahma), the common expression of all favors granted by the Almighty Creature of human beings, has two salient characteristics: one is vertical that is with regard to the Creator and creatures, and the other is horizontal that is concerning hu-man relations among themselves as well as with other creatures. When the concept of Mercy is evaluated in perspective of God-human being relations in the existing world, it indicates that God’s favors, without discrimination, are granted to all human beings. ...
„Meine Herren – Es wackelt alles“. Mit diesen berühmten Worten hatte Ernst Troeltsch die kirchliche, die religiöse und die theologische Situation der Zeit vor gut 100 Jahren umrissen: Es war 1896, auf einem Kongreß der „Freunde der Christlichen Welt“, einer Gruppe liberal denkender Professoren aus allen Fakultäten. Troeltsch hatte dabei beides im Blick: den Zustand der Kirche und die Sache der Theologie. „Es wackelt alles.“ Genau diese Empfindung war es, die vielen von uns jüngeren Theologen in den sechziger Jahren des 20. Jahrhunderts zu schaffen machte. Was „wackelte“, war zunächst die Sache der Theologie selbst, die damals häufig, beispielsweise auf dem Stuttgarter Kirchentag von 1969, als „Streit um Kaisers Bart“ in Frage gestellt und lächerlich gemacht wurde. Und zwar keineswegs von Atheisten oder anderen Gegnern der Kirche, sondern von jungen Theologen, von Studenten und Vikaren. Verunsichert waren sie vor allem durch die Ergebnisse der historisch-kritischen Bibel-Exegese, die gar nicht mit den Ursprungsmotivationen für ihr Theologiestudium zusammenpassen wollten. Verunsichert waren sie zusätzlich durch die marxistische Religionskritik, die damals ihre große Renaissance erlebte. Und „es wackelte“ nicht nur die Theologie; sondern es begannen auch die nach 1945 so kräftig restaurierten Funktionen und Rollen der Kirche zu wackeln. Als verunsichernd wurde vor allem die ungewohnte und scharfe (dabei de facto unwissenschaftlich einseitige) sozialkritische Analyse des Handelns der Kirche und seiner Folgen in 2000 Jahren Christentumsgeschichte empfunden. „Vom Elend des Christentums“ hieß die polemische Kampfschrift des jungen Marburger Dr. theol. Joachim Kahl. Das kleine Rowohlt-Büchlein fand reißenden Absatz unter den theologischen und nichttheologischen Kritikern der Kirche. ...
A new species of the Afrotropical genus Genaemirum Heinrich, 1936 is described from a single female specimen from Guinea and compared to the closest species, G. rhinoceros Heinrich, 1967. Genaemirum filipazzii sp. nov. also provides the first record of the genus for West Africa. An updated key to the species is included.