Academic literature on the topic '1833-1893'
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Journal articles on the topic "1833-1893"
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ASTAFUROVA, YULIA V., and MAXIM YU PROSHCHALYKIN. "The type specimens of bees (Hymenoptera, Apoidea) deposited in the Zoological Institute of the Russian Academy of Sciences, St. Petersburg. Contribution I. Family Halictidae, genus Lasioglossum Curtis, 1833." Zootaxa 4408, no. 1 (April 13, 2018): 1. http://dx.doi.org/10.11646/zootaxa.4408.1.1.
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The type specimens of Lasioglossum Curtis, 1833 deposited in the Zoological Institute, Russian Academy of Sciences (St. Petersburg) are reviewed. Primary types of 69 taxa are illustrated and detailed information is provided (taxa include 33 described by F. Morawitz; 16 by P. Blüthgen; 15 by Yu. Pesenko (one of them with N. Davydova); four by E. Eversmann; and one by T.D.A. Cockerell). Lectotypes are designated here for the following eleven nominal taxa: Halictus anguliceps Morawitz, 1893, H. corvinus Morawitz, 1877, H. debilis Morawitz, 1893, H. glabriusculus Morawitz, 1872, H. gussakovskii Blüthgen, 1929, H. hyalinipennis Morawitz, 1876, H. morbillosus orientis Cockerell, 1924, H. popovi Blüthgen, 1931, H. porcus Morawitz, 1872, H. puncticollis Morawitz, 1872, and H. truncaticollis Morawitz, 1877.
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MWABVU, TAROMBERA, MICHELLE HAMER, ROBERT SLOTOW, and DAVID BARRACLOUGH. "A revision of the taxonomy and distribution of Spirostreptus Brandt 1833 (Diplopoda, Spirostreptida, Spirostreptidae) with descriptions of a new species and a new genus of spirostreptid millipede." Zootaxa 2211, no. 1 (August 27, 2009): 36–56. http://dx.doi.org/10.11646/zootaxa.2211.1.2.
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The giant millipede genus Spirostreptus Brandt 1833 is revised to include six species from Africa, south of the Congo River. The six species formerly included in the genus were S. heros Porat 1872, S. kruegeri Attems 1928, S. sebae Brandt 1833, S. tripartitus (Cook & Collins 1893), S. unciger Attems 1928 and S. kymatorhabdus Attems 1914. Spirostreptus kymatorhabdus is here removed from Spirostreptus and accommodated in the new genus Namibostreptus. A new species, S. batokensis Mwabvu from Zimbabwe, is described. A key to the species of Spirostreptus species based on gonopod morphology is presented. Despite the remarkable similarity between the gonopods of S. heros and S. kruegeri, the two species are distinct. Spirostreptus has strict fidelity to the savanna biome, with overlapping distributions of species, thus making conservation of many species in one biome possible.
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Kment, Petr, and Dávid Rédei. "A revision of the types of Heteroptera species described by Géza Horváth based on specimens from collections of Ladislav Duda and Emil Holub." Acta Entomologica Musei Nationalis Pragae 58, no. 1 (2018): 275–95. http://dx.doi.org/10.2478/aemnp-2018-0025.
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A recent cataloguing of the Heteroptera (Hemiptera) types held in the collection of National Museum, Prague (NMPC), revealed several specimens originating from the collection of Czech collectors Emil Holub and Ladislav Duda, being part of the same series as types described by Géza Horváth in his paper ‘Hemiptera nova africana’ and until now believed to be deposited exclusively in the Hungarian Natural History Museum, Budapest (HNHM). The publication date of that paper is fixed as March 20, 1893, affecting these taxa: Reduviidae: Coranopsis Horváth, 1893, Coranopsis vittata Horváth, 1893, Cosmolestes fulvus Horváth, 1893, Edocla albipennis Horváth, 1893, Harpactor (Diphymus) dudae Horváth, 1893, Oncocephalus angustatus Horváth, 1893, Phonoctonus validus Horváth, 1893, Reduvius reuteri Horváth, 1893, Staccia inermis Horváth, 1893; Blissidae: Ischnocoridea Horváth, 1893, Ischnocoridea elegans Horváth, 1893; Rhyparochromidae: Aphanus (Graptopeltus) dilutus Horváth, 1893 [= Naphiellus dilutus (Horváth, 1893)], Pamera bergrothi Horváth, 1893 [= Horridipamera bergrothi (Horváth, 1893)]; Coreidae: Homoeocerus fuscicornis Horváth, 1893, Hypselonotus balteatus Horváth, 1893 [= Hypselonotus interruptus Hahn, 1833]; Plataspidae: Niamia Horváth, 1893, Niamia angulosa Horváth, 1893; Scutelleridae: Cantao africanus Horváth, 1893, Cryptacrus princeps Horváth, 1893 [= Cryptacrus comes comes (Fabricius, 1803)], Polytodes Horváth, 1893 [= Polytes Stål, 1867], Polytodes ochraceus Horváth, 1893 [= Polytes tigrinus (Vollenhoven, 1868)]; Dinidoridae: Dinidor vicarius Horváth, 1893; Pentatomidae: Caura modesta Horváth, 1893, Diploxys (Paracoponia) holubi Horváth, 1893 [= Coponia holubi (Horváth, 1893)], Paracoponia Horváth, 1893 [= Coponia Stål, 1865], Mecosoma spinosum Horváth, 1893 [= Macrorhaphis acuta Dallas, 1851], Menida distanti Horváth, 1893 [= Menida transversa transversa (Signoret, 1861)], and Stollia crucifera Horváth, 1893. Only the following type specimens bearing Horváth’s original type label and deposited in HNHM are recognized and their status elucidated: Coranopsis vittata (1 syntype), Cosmolestes fulvus (holotype), Edocla albipennis (holotype), Harpactor (Diphymus) dudae (1 syntype), Oncocephalus angustatus (1 syntype), Reduvius reuteri (1 syntype), Homoeocerus fuscicornis (1 syntype), Hypselonotus balteatus (1 syntype), Niamia angulosa (1 syntype), Cryptacrus princeps (1 syntype), Polytodes ochraceus (holotype), Dinidor vicarius (holotype), Caura modesta (lectotype), Diploxys (Paracoponia) holubi (lectotype), and Menida distanti (1 syntype). The syntype(s) of Cantao africanus and holotype of Stollia crucifera could not be located; a specimen in NMPC presumably from the same series is designated here as neotype of Stollia crucifera. Based on the examination of the type material the following subjective synonymies are proposed: Neotrichedocla quadrisignata (Stål, 1855) = Reduvius reuteri Horváth, 1893, confirmed synonymy; Dinidor impicticollis Stål, 1870 = D. vicarius Horváth, 1893, syn. nov.; Parantestia (Chromantestia) cincticollis (Schaum, 1853) = Parantestia (Chromantestia) modesta (Horváth, 1893), syn. nov. = Parantestia (Chromantestia) cincticollis var. bergrothiana Kirkaldy, 1909, syn. nov.; Cosmopepla cruciaria Stål, 1872 = Stollia crucifera Horváth, 1893, syn. nov. Rhynocoris katangensis Schouteden, 1929 (Reduviidae), erroneously considered as junior synonym of Rhynocoris dudae by MALDONADO CAPRILES (1990), must be considered valid species. Type locality of the species described based on material collected by Emil Holub is discussed. New records are provided for Edocla albipennis (Namibia), Homoeocerus fuscicornis (Angola) and Parantestia cincticollis (Republic of the Congo).
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Framenau, Volker W. "Generic and family transfers, and numina dubia for orb-weaving spiders (Araneae, Araneidae) in the Australasian, Oriental and Pacific regions." Evolutionary Systematics 3 (April 16, 2019): 1–27. http://dx.doi.org/10.3897/evolsyst.3.33454.
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As part of a current revision of the Australasian and Pacific orb-weaving spider fauna (family Araneidae Clerck, 1757), a number new combinations are proposed in the generaAcroaspisKarsch, 1878 (3 species),CarepalxisL. Koch, 1872 (1 species),CyclosaMenge, 1866 (5 species), andNeosconaSimon, 1864 (7 species):Acroaspislancearia(Keyserling, 1887),comb. n.,A.mamillana(Keyserling, 1887),comb. n.,A.scutifer(Keyserling, 1886),comb. n.,Carepalxisfurcifera(Keyserling, 1886),comb. n.;Cyclosaanatipes(Keyserling, 1887),comb. n.;Cyclosaapoblepta(Rainbow, 1916),comb. n.;Cyclosaargentaria(Rainbow, 1916),comb. n.;Cyclosalichensis(Rainbow, 1916),comb. n.;Cyclosapoweri(Rainbow, 1916),comb. n.;Neosconadecolor(L. Koch, 1871),comb. n.;Neosconaenucleata(Karsch, 1879),comb. n.;Neosconaflavopunctata(L. Koch, 1871),comb. n.;Neosconafloriata(Hogg, 1914),comb. n.;Neosconagranti(Hogg, 1914),comb. n.;Neosconainusta(L. Koch, 1871),comb. n.; andNeosconanotanda(Rainbow, 1912),comb. n.The following two Australian species, currently placed inAraneus, are not Araneidae but comb-footed spiders (family Theridiidae Sundevall, 1833):Anelosimusdianiphus(Rainbow, 1916),comb. n.andTheridionxanthostichus(Rainbow, 1916),stat. and comb. n.The following six species are considerednumina dubiaas their type material is immature or otherwise unidentifiable (e.g. partly destroyed):AraneusacachmenusRainbow, 1916;AraneusagastusRainbow, 1916;AraneusexsertusRainbow, 1904;AraneussuavisRainbow, 1899;Carepalxiscoronata(Rainbow, 1896); andHeurodesturritusKeyserling, 1886.Heurodesfratellus(Chamberlin, 1924) is considered anomen dubiumandHeurodesporcula(Simon, 1877) is returned toEriovixiaArcher, 1951,Eriovixiaporcula(Simon, 1877).Type material of predominantly Australian species described by E. v. Keyserling (1 species), W. J. Rainbow (10 species), A. T. Urquhart (8 species), and C. A. Walckenaer (2 species) is here considered destroyed or otherwise lost. As it is impossible to identify these species from their original descriptions and considering the known spider fauna from their respective type localities, they are all considerednumina dubia:AnepsiacrinitaRainbow, 1893;Epeiradiabrosis(Walckenaer, 1841);EpeiradiversicolorRainbow, 1893;EpeirafictaRainbow, 1896;EpeirahamiltoniRainbow, 1893;Epeiralacrymosa(Walckenaer, 1841);EpeiraleaiRainbow, 1894;EpeiramortoniUrquhart, 1891;EpeiranotacephalaUrquhart, 1891;EpeiraobscurtaUrquhart, 1893;EpeiraphalerataUrquhart, 1893;EpeirapronubaRainbow, 1894;EpeirararaKeyserling, 1887;EpeirasingularaUrquhart, 1891;Epeirasub-flavidaUrquhart, 1893;EpeirasimilarisRainbow, 1896 (=AraneusurquhartiRoewer, 1942 replacement name);EpeiraventriosaUrquhart, 1891; andEpeiraviridulaUrquhart, 1891.
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CARAPEZZA, ATTILIO, and PETR KMENT. "Review of the Newly Established amictus-Subgroup of the Genus Leptocoris (Hemiptera: Heteroptera: Rhopalidae), with the Description of a New Species from the Arabian Peninsula." Journal of the International Heteropterists' Society 1, no. 2 (April 30, 2024): 79–106. http://dx.doi.org/10.11646/jihs.1.2.1.
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Leptocoris arabicus new species (Hemiptera: Heteroptera: Rhopalidae: Serinethinae) is described based on 55 specimens of both sexes collected in various localities of southern Oman and southeastern Yemen; a hypothesis is proposed as to its host plant. The new species is close to Leptocoris amictus Germar, 1838 and to Leptocoris ruber Göllner-Scheiding, 1980, new status, due to the presence of a produced horned process along the posterior ventral margin of the genital capsule. It is distinguished from both by differences in colour pattern and morphology. An informal L. amictus species-subgroup is proposed to accommodate these three species within the Leptocoris hexophthalmus species-group sensu Göllner-Scheiding (1980). The following new faunistic records are also provided: L. amictus from Ethiopia, Mozambique and Zambia; L. ruber from Central African Republic. The occurrence of L. chevreuxi (Noualhier, 1893) in Oman is confirmed. The list of all available species-group names assigned to Leptocoris Hahn, 1833 (gender masculine) and their synonyms is compiled and the gender agreement is corrected in the species names when appropriate. The nomenclatural problem concerning Leptocoris living on Marshall Islands discovered by Kerzhner (2003) is discussed and the following corrections are provided: Leptocoris rufus rufus Hahn, 1833, new status = Leptocoris lariversi Usinger, 1952, new synonymy, and Leptocoris rufus isolatus (Distant, 1914) new status.
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Framenau, Volker W., and Barbara C. Baehr. "The wolf spider genus Artoria in New South Wales and the Australian Capital Territory, Australia (Araneae, Lycosidae, Artoriinae)." Evolutionary Systematics 2, no. 2 (December 31, 2018): 169–241. http://dx.doi.org/10.3897/evolsyst.2.30778.
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The wolf spider (Lycosidae Sundevall, 1833) genusArtoriaThorell, 1877 is revised for New South Wales and the Australian Capital Territory, Australia, to include 34 species, 21 of which are new to science:A.albopilata(Urquhart, 1893),A.altaFramenau 2004,A.beaurysp. n.,A.barringtonensissp. n.,A.belfordensissp. n.,A.berenice(L. Koch, 1877),A.bondisp. n.,A.boodereesp. n.,A.comleroisp. n.,A.corowasp. n.,A.equipalussp. n.,A.extraordinariasp. n.,A.flavimanaSimon, 1909,A.gloriosa(Rainbow, 1920),A.grahammilledgeisp. n.,A.helensmithaesp. n.,A.howquaensisFramenau, 2002,A.kanangrasp. n.,A.kerewongsp. n.,A.lineata(L. Koch, 1877),A.marootasp. n.,A.mckayiFramenau, 2002,A.mungosp. n.,A.munmorahsp. n.,A.myallensissp. n.,A.quadrataFramenau, 2002,A.slatyerisp. n.,A.streperasp. n.,A.taeniiferaSimon, 1909,A.teraniasp. n.,A.triangularisFramenau, 2002,A.ulrichiFramenau, 2002,A.victoriensisFramenau, Gotch & Austin, 2006, andA.wilkieisp. n.LycosapruinosaL. Koch, 1877, currently listed inArtoria, is considered a nomen dubium.Artoriaare largely forest dwellers, although some species have preferences for more open areas such as riparian or coastal environments or grasslands. Consequently, the genus mainly occurs east and west along the Great Dividing Range, although some species can be found into the Riverina, Cobar Peneplain and Darling Riverine Plains IBRA regions to the west.
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Kocs, Irén, Jiří Krátký, Attila Podlussány, and Lucian Alexandru Teodor. "Contribution to the knowledge of the Curculionoidea fauna of the Danube Delta and the Dobruja Region (Romania)." Entomologica Romanica 25 (December 31, 2021): 35–111. http://dx.doi.org/10.24193/entomolrom.25.5.
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Presently 724 species are known from the Danube Delta and Dobruja. From these, 270 in the Danube Delta and Dobruja, 50 to Romania and 2 to science are new (the description of the species is in progress). The species new to Romania are the following: Noxius curtirostris (Mulsant & Rey, 1861); Bruchela cana (Küster, 1848); B. concolor (Fåhraeus, 1839); B. parvula (Motschulsky, 1875); Perapion (Perapion) connexum (Schilsky, 1902); Ceratapion (Echinostroma) scalptum caviceps (Desbrochers des Loges, 1870); Metapion ermischi (Voss, 1969); Protapion angusticolle (Gyllenhal, 1833); Allomalia quadrivirgata (Costa, 1863); Corimalia fausti fausti (Reitter, 1890); Bagous (Macropelmus) claudicans Boheman, 1845; B. (Macropelmus) dieckmanni Gratshev, 1993; B. (Macropelmus) lothari Caldara & O'Brien, 1998; Brachycerus lutosus Gyllenhal, 1833; Stenopelmus rufinasus Gyllenhal, 1835; Tanysphyrus ater Blatchley, 1928; Aulacobaris kiesenwetteri (Faust, 1890); Labiaticola despicatus Faust, 1889; L. melas (Boheman, 1836); Ceutorhynchus levantinus Schultze, 1898; C. merkli Korotyaev, 2001; C. scrobicollis Neresheimer & H. Wagner, 1924; C. talickyi Korotyaev, 1980; C. varius Rey, 1895; Microplontus millefolii (Schultze, 1897); Ranunculiphilus (Austroceutorhynchus) italicus (C. N. F. Brisout de Barneville, 1869); Thamiocolus roubali Dieckmann, 1973; T. sinapis (Desbrochers des Loges, 1893); Gymnetron tibiellum Desbrochers des Loges, 1900; Miarus hellenicus Dieckmann 1978; M. solarii Smreczyński, 1957; Philernus ponticus Korotyaev, 1979; Sibinia (Sibinia) femoralis Germar, 1823; S. (Sibinia) variata Gyllenhal, 1835; Tychius (Tychius) ochraceus Tournier, 1873; T. (Tychius) subsulcatus Tournier, 1874; Ptochus (Ptochus) porcellus Boheman, 1834; Omias murinus (Boheman, 1842); Otiorhynchus (Pseudocryphiphorus) zebei Stierlin, 1861; Argoptochus (Argoptochus) markovensis Angelov, 1987; Polydrusus (Conocetus) baudii (Faust, 1889); Sitona ophthalmicus Desbrochers des Loges, 1869; Chlorophanus viridis balcanicus Behne, 1989; Rhabdorrhynchus echii Brahm, 1790; Bangasternus planifrons (Brullé, 1832); Larinus (Larinomesius) atomarius Capiomont, 1874; L. (Larinomesius) canescens Gyllenhal, 1835; L. (Larinomesius) syriacus Gyllenhal, 1835; L. (Phyllonomeus) filiformis Petri, 1907; Lixus (Epimeces) scolopax Boheman, 1835.
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Temreshev, Izbasar I., and Vladimir L. Kazenas. "Callosobruchus phaseoli (Gyllenhal, 1833) (Coleoptera, Chrysomelidae, Bruchinae): a new invasive species in Kazakhstan." Acta Biologica Sibirica 6 (July 23, 2020): 87–92. http://dx.doi.org/10.3897/abs.6.e53070.
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An invasive seed-beetle species cowpea weevil Callosobruchus phaseoli (Gyllenhal, 1833), was found in the south-eastern Kazakhstan (Almaty city) for the first time. Its areal includes India (species origin), South and Central America, Europe, Middle East (Israel), North Africa, Arabian Peninsula, Far East, China, Japan, Sri Lanka, Indonesia, Burma, Philippines, Hawaiian Islands, Australia, and Oceania. Damaged plants are adzuki bean Vigna angularis (Willd.) Ohwi & H. Ohashi (1969), mung bean Vigna radiata (L.) R. Wilczek, broad bean Vicia faba Linnaeus, 1753, pea Pisum sativum Linnaeus, 1753, pigeon pea Cajanus cajan (L.) Huth, 1893, hyacinth bean Lablab purpureus (L.) Sweet, 1826, Wisteria sp., lima bean Phaseolus lunatus Linnaeus, 1753, common bean Phaseolus vulgaris Linnaeus, 1753 and other species of beans, chickpea Cicer arietinum Linnaeus, 1753, Sesbania sp., rattlepod Crotalaria spectabilis Roth., lupine Lupinus sp. Emerged beetles immediately mate and begin to lay eggs on the same day. Beetle damage both in field and in storage. We were not able to find the species during the monitoring of agriculture lands and natural landscapes near the city. We assumed that the invasion occurred recently and the species did not have time to spread outside Almaty. Since C. phaseoli was discovered in Almaty, which is a transit crossroad for many trade routes, further species distribution should be predicted. The most probable corridor for further invasion of cowpea weevil in Kazakhstan is the south and southeast parts of the country, namely Almaty, Zhambyl, Turkestan, and Kyzylorda oblast's.
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ENGHOFF, HENRIK. "A new distinct, disjunct giant millipede of the genus Spirostreptus Brandt, 1833, from Tanzania, and a solution for orphaned Spirostreptus species (Diplopoda, Spirostreptida, Spirostreptidae)." Zootaxa 5389, no. 2 (December 19, 2023): 275–87. http://dx.doi.org/10.11646/zootaxa.5389.2.9.
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Spirostreptus digitus sp. nov. is described based on specimens from Tanzania, and the genus Spirostreptus Brandt, 1833 is discussed, as is the higher classification of the family Spirostreptidae. Gonopod illustrations of S. heros Porat, 1872, and S. tripartitus Cook & Collins, 1893, are provided for comparison with the new, morphologically very distinct species. Analocostreptus Silvestri, 1910, is suggested as the valid genus name for the species currently being placed in Spirostreptus sensu auctorum, nec Brandt, 1833, and 32 nominal species of Spirostreptus are placed in new combinations with Analocostreptus, viz., Analocostreptus amandus (Attems, 1914), comb. nov., Analocostreptus biconus (Attems, 1934), comb. nov., Analocostreptus bonifatius (Attems, 1914), comb. nov., Analocostreptus castaneus (Attems, 1934), comb. nov., Analocostreptus cornutus (Attems, 1934), comb. nov., Analocostreptus damasus (Attems, 1953), comb. nov., Analocostreptus dartevellei (Attems, 1953), comb. nov., Analocostreptus dentiger (Attems, 1953), comb. nov., Analocostreptus garambanus (Chamberlin, 1927), comb. nov., Analocostreptus gregorius (Attems, 1914), comb. nov., Analocostreptus ineptus (Kraus, 1958), comb. nov., Analocostreptus informis (Attems, 1938), comb. nov., Analocostreptus makarius (Attems, 1914), comb. nov., Analocostreptus manyemanus (Attems, 1927), comb. nov., Analocostreptus manyemanus biserialis (Attems, 1938), comb. nov., Analocostreptus medjensis (Chamberlin, 1927), comb. nov., Analocostreptus micromelas (Saussure & Zehntner, 1902), comb. nov., Analocostreptus missionarius (Attems, 1953), comb. nov., Analocostreptus montivagus (Karsch, 1881), comb. nov., Analocostreptus multisulcatus (Demange, 1957), comb. nov., Analocostreptus pancratius (Attems, 1914), comb. nov., Analocostreptus pavani (Demange, 1981), comb. nov., Analocostreptus phthisicus (Saussure & Zehntner, 1902), comb. nov., Analocostreptus pictus (Saussure & Zehntner, 1902), comb. nov., Analocostreptus rolini (Silvestri, 1897), comb. nov., Analocostreptus sculptus (Saussure & Zehntner, 1902), comb. nov., Analocostreptus semilunaris (Peters, 1855), comb. nov., Analocostreptus servatius (Attems, 1914), comb. nov., Analocostreptus tetricus (Attems, 1934), comb. nov., Analocostreptus tiburtius (Attems, 1953), comb. nov., Analocostreptus triangulicollis (Attems, 1934), comb. nov., Analocostreptus versicolor (Saussure & Zehntner, 1902), comb. nov. and Analocostreptus yambatanus (Attems, 1934), comb. nov. Illustrations of the gonopods of A. ibanda (Silvestri, 1907), type-species of Analocostreptus, are provided, and the species is recorded as new for Kenya.
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CIANFERONI, FABIO. "Review of the aquatic Hemiptera from Cephalonia, with a checklist for the Ionian Islands, Greece (Heteroptera: Gerromorpha, Nepomorpha, Leptopodomorpha)." Zootaxa 4576, no. 1 (April 1, 2019): 46. http://dx.doi.org/10.11646/zootaxa.4576.1.2.
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Eleven species of aquatic true bugs (Hemiptera: Heteroptera) are newly recorded for Cephalonia Island (Greece)—Gerromorpha: Hydrometra stagnorum (Linnaeus, 1758), Microvelia pygmaea (Dufour, 1833), Velia mariae Tamanini, 1971, Gerris argentatus Schummel, 1832, G. costae (Herrich-Schäffer, 1850), G. lacustris (Linnaeus, 1758); Nepomorpha: Corixa affinis Leach, 1817, Anisops crinitus Brooks, 1951, A. sardeus Herrich-Schäffer, 1849, Notonecta maculata Fabricius, 1794, Plea minutissima Leach, 1817—where only a few species have been recorded. The most notable records are: Anisops crinitus, which in Europe was known only from the island of Corfu (Greece) and Spain (until recently under the name A. marazanofi Poisson, 1966), and Velia mariae, whose distribution is still poorly known. Velia rivulorum (Fabricius, 1775), V. currens (Fabricius, 1794), and Anisops canariensis Nouahlier, 1893 (currently A. debilis canariensis), from old literature records, are excluded from the fauna of the Ionian Islands. Similarly, N. glauca glauca Linnaeus, 1758 is excluded from the fauna of Cephalonia and Corfu. The first record of Hydrometra gracilenta Horváth, 1899 from Corfu and for the Ionian Islands is provided. Microvelia pygmaea and Gerris maculatus Tamanini, 1946 are newly recorded for Lefkada Island. An annotated list of the Gerromorpha, Nepomorpha, and Leptopodomorpha of the Ionian Islands also is given.
Dissertations / Theses on the topic "1833-1893"
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Overton, Julia Lynne. "Morphometric, genetic and reproductive characteristics of mud crabs (genus Scylla de Haan, 1833) from Southeast Asia." Thesis, University of Stirling, 2000. http://hdl.handle.net/1893/2599.
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The edible mud crab, genus Scylla, is important to fisheries and aquaculture throughout the Indo Pacific region, but its taxonomic status has been confused for decades and a new classification has only recently been proposed. This project was undertaken to investigate the species status of mud crabs in Southeast Asia, with a view to deciding whether two sympatric morphs of Scylla found in Ban Don Bay, Surat Thani Province, Thailand, are two separate species. A further aim was to elucidate any possible pre-zygotic reproductive isolating mechanisms (RIMs) and ecological features that maintain the apparent sympatry between these two morphs. Mud crabs were collected from a primary site (Surat Thani, Thailand) as well as from six other locations in Thailand, Vietnam, Malaysia and Bangladesh. Crab samples from the latter sites were used selectively to provide a comparison to the primary study site. Descriptive taxonomy, multivariate morphometrics and allozyme electrophoresis were used to a) determine the number of species present within the crab samples collected; b) to ascertain which species they represent; c) to discover any geographical variation between locations sampled; d) to produce a possible phylogeny that summaries the relationship between Scylla species; and e) to look for pre-zygotic RIMs to explain the sympatry of the two morphs in Surat Thani. Findings from the present study reinforce the recent revision of the taxonomy of the genus Scylla into four species, S. serrata, S. olivacea, S. tranquebarica and S. paramamosain and provides new information on two of the four species which are dominant within Southeast Asia, including Ban Don Bay, Surat Thani Province, S. paramamosain and S. olivacea. Population studies showed both genetic and morphological differentiation between conspecific populations of S. paramamosain and S. olivacea, indicating stock structure for each species, although there is some disparity between morphological and genetic distances for S. paramamosain. This is discussed in relation to the effects of larval dispersal mechanisms and the subsequent recruitment of juvenile crabs. Phylogenetic interpretation of both genetic and morphological characters revealed that both S. serrata and S. olivacea are the most diverged of the four Scylla species; however, the direction of evolution is open to interpretation and the evidence for either S. olivacea or S. serrata as the more primitive species are discussed. Reproductive studies on the two mud crab species found in Surat Thani revealed no physical barrier to hybridization. Both species have a protracted breeding season which continues throughout the year. However, the size at first sexual maturity was significantly smaller for S. olivacea when compared to S. paramamosain. This and other potential mechanisms that may maintain these two species sympatrically are discussed. The clarification of four Scylla species, and the establishment of diagnostic genetic and morphological characters that can be used to identify them, means that research can now focus on both the ecology and life history of these closely related species. Such information is needed urgently with respect to fisheries management as well as to understanding the environmental requirements of each species in order to develop their potential for aquaculture.
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Echouaibi, Mohamed-Amine. "Contribution à l'histoire de l'Etat et de la société sous le règne d'Ahmad al-Kabīr al-Madanī (1864-1893) d'après les sources arabes." Paris 1, 1997. http://www.theses.fr/1997PA010530.
Full textAbstract:
En 1864, al-Haj Umar disparait en pleine campagne avant que son ambitieux projet ne soit réalisé dans son ensemble. Le grand état islamique d'obédience Tijaniyya auquel il aspirait resta inachevé. Il légua néanmoins a son successeur un territoire très vaste allant du Sénégal oriental jusqu'à Tombouctou. Au lendemain de son avènement, Ahmad al-Kabîr al-Madani dut affronter de nombreuses difficultés de natures diverses. Le problème de la succession fut le principal puisqu'il resta irrésolu jusqu'à la fin. Il divisa le centre de commandement entre Ahmadou et ses frères, ce qui porta profondément atteinte à l'unité de l'état. De même, les soulèvements de la population contre l'autorité d'Ahmadou se sont succédés à des intervalles de temps très proches les uns des autres. Par conséquent, l'état s'affaiblit et devint incapable de parer aux dangers venant de l'extérieur. Ce travail tente de reconstituer les différentes phases de cette histoire méconnue encore, faute d'exploitation des textes relatifs à cette période, et essaie d'analyser a la lumière des manuscrits inédits qu'il publie (122 manuscrits) les différentes causes de l'effondrement de l'empire toucouleur sous le règne d'Ahmadou (1864-1893), et son incapacité à résister face à l'impérialisme colonialIn 1864, al-haj umar disappears in full campaign before his ambitious project is not realized in its totality. The great islamic tijaniyya state to which he aspired remained unfinished. He bequeathed nevertheless to his successor a very vast territory going from oriental senegal until tumbuktu. Immediately after his advent, ahmad al-kabir al-madani had to confront many difficulties, with various nature. The problem of the succession was the principal since it remained irresolute until the end. It divided the center of commandment between ahmadu and his brothers, what provoke deeply reached to the unit of the state. Similarly, uprisings of the population against the authority of ahmadu have succeeded to intervals of very close time of each other. Consequently, the state weakens and become incapable to dress to dangers coming from exterior. This work tempts to stroller the different phases of this misunderstood history, because of the lack of research relative at this period, and tries to analyze trough original manuscripts (122 manuscripts) the different cause of collapse of the toucouleur empire under the reign of ahmadu (1864-1893), and its incapacity to resist at colonial imperialism
Books on the topic "1833-1893"
1
Booth, Mary Devlin. The letters and notebooks of Mary Devlin Booth. New York: Greenwood Press, 1987.
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2
L'Assomption, Collège de, ed. Fondateurs supérieurs, professeurs et élèves du Collège de l'Assomption 1833-1893. Montréal: C.O. Beauchemin, 1986.
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3
Liebenau-Meyer, Claudia. "Der Unterricht war gut, tauglich für's ganze Leben.": Die Geschichte des Härlin'schen Töchter-Instituts in Göppingen und Eckwälden. Göppingen: Stadt Göppingen, 2010.
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5
Titone, Nora. My thoughts be bloody: The bitter rivalry between Edwin and John Wilkes Booth that led to an American tragedy. New York: Free Press, 2010.
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6
1929-, Brown David, ed. Russian masters 1: Glinka, Borodin, Balakirev, Musorgsky, Tchaikovsky. New York: Norton, 1986.
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8
Saminsky, Lazare. Darling of Misfortune Edwin Booth 1833-1893. Franklin Classics Trade Press, 2018.
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9
Saminsky, Lazare. Darling of Misfortune Edwin Booth 1833-1893. Creative Media Partners, LLC, 2018.
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10
SAMINSKY, LAZARE. Darling Of Misfortune Edwin Booth 1833-1893. Andesite Press, 2017.
Find full textBook chapters on the topic "1833-1893"
1
Adamets, Serguei. "Famine in Nineteenth- and Twentieth-Century Russia: Mortality by Age, Cause, and Gender." In Famine Demography, 158–80. Oxford University PressOxford, 2002. http://dx.doi.org/10.1093/oso/9780199251919.003.0008.
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Abstract During the nineteenth century, famines seemed to strike Russia in a more or less regular pattern. A volume published by the Central Statistics Committee (CSK) in 1871 referred to poor harvests in 1820-1, 1833-4, 1839-40, 1843-6, 1848-51, and 1854. The Report of the Council of Ministers drafted in 1842 implies that food shortages recurred every 6-7 years (Brokgauz and Efron 1893). During the 1860s the worst years were between 1867 and 1869. In the last quarter of the century, there were famines in 1872-3, in 1882-4, and in 1892. At the beginning of the twentieth century, local scarcities affected one or other region of Russia almost annually, and they were particularly serious in 1906 and 1911 (Buxman 1923).
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Hayward, P. J. "Introduction." In Antarctic Cheilostomatous Bryozoa, 1–5. Oxford University PressOxford, 1995. http://dx.doi.org/10.1093/oso/9780198548911.003.0001.
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Abstract Systematic research on the Antarctic Bryozoa has a comparatively short history. The first marine invertebrates to be described from Antarctica were a few molluscs and crustaceans collected from strand line debris on the South Shetland Islands by James Eights, surgeon and naturalist with the U.S. Antarctic Exploring Expedition (Eights 1833). It is probable that Eights encountered bryozoan colonies among the beach debris, but he neither collected nor recorded them (Winston and Hayward 1994). James Clark Ross made the first dredge hauls in Antarctic coastal waters in 1841, in the course of the Erebus and Terror Antarctic expeditions. It is known that he and Joseph Dalton Hooker made extensive collections of Antarctic marine invertebrates. Hooker prepared illustrations of many of the specimens they collected, including some collected while en route to Antarctica, and the surviving drawings, conserved at the Natural History Museum, London, apparently include a number of bryozoans (Davenport and Fogg 1989), but Ross’s collections were not worked up and were eventually destroyed. Antarctic bryozoans were not collected again until Michaelsen’s visit to South Georgia in 1892-1893.