Zeitschriftenartikel zum Thema „1802-1881“

Twelve species of philodromid crab or running crab spiders (Philodromidae) have been recorded in Armenia. Nine species are new to the spider fauna of this country: Philodromus cespitum (Walckenaer, 1802); Philodromus emarginatus (Schrank, 1803), Philodromus rufus Walckenaer, 1826; Rhysodromus histrio (Latreille, 1819), Thanatus atratus Simon, 1875; Thanatus formicinus (Clerck, 1757); Thanatus imbecillus L. Koch, 1878; Thanatus vulgaris Simon, 1870 and Thanatus pictus L. Koch, 1881.

A manuscript memoir of Hugh Miller (1802–1856), geologist, writer and newspaper editor, is attributed to his son Hugh Miller FGS (1850–1896). It is published here, apparently for the first time. It was written sometime in 1881–1896, more probably 1882–1895. Its intended place of publication is discussed. It is an interesting contribution to Miller biography, written by a family member and providing some new information and anecdotes.

En este trabajo se analiza la evolución de la ciudad de Barahona, desde su fundación en 1801 hasta 1899. Se trató de un pueblo fundado en un primer momento, para garantizar el funcionamiento del comercio marítimo tras la apertura al comercio de la zona de Neiba y, además, como zona estratégica para la defensa del territorio. Destruido en 1802, su evolución fue a la par del comercio maderero, pero con un desarrollo urbano y poblacional poco constatable en documentos, aunque visible a partir de su actividad productiva. Su crecimiento inició en 1844, impulsado por el Estado, sus habitantes y los comerciantes, con altas y bajas. Tuvo, sin embargo, un notable decaimiento entre 1864 y 1881. Su desarrollo definitivo inició en este último año, con el apoyo dado por el gobierno y el empeño de sus pobladores. Entre 1881 y 1899 adquirió la fisonomía urbana que le caracteriza en el siglo XXI, principalmente en la zona alrededor de su centro administrativo.

The article is dedicated to the study of data on the history of relationships between the Kazakhs and the Central Asian Khanates in the 18th – the 19th centuries, which are contained in the poetry of national oral tradition of that time. The article analysis historical facts, which are contained in the works of Qozhabergen zhyrau Tolibayuly (1663-1763), Zhankisi zhyrau (the beginning of the 19th century), Dulat Babatayuly (1802-1871), Shortanbay Kanayuly (1818-1881) and Kerdery Aubakir Shokanuly (1861-1905). Based on the source study analysis of Kazakh authors’ works, such as Aktaban shubyryndy, Alkakol sulama, Reflections of Zhanqozha Batyr, Auelgi qazaq degen zhurt, Otken imanshylyq zamandi zhoqtap aytkany, the several stages of relationships between Kazakh Steppe and Khiva, Bukhara and Kokand are reconstructed.

The cicada genus Procollina Metcalf, 1952 is redescribed. Procollina minima n. sp., P. parva n. sp., P. ustulata n. sp. and P. webbi n. sp. are described from Costa Rica, P. guatemalensis n. sp., P. mayaensis n. sp. and P. nigrapilosa n. sp. are described from Guatemala, P. hondurensis n. sp. is described from Honduras, P. convexa n. sp. and P. mesomaculata n. sp. are described from Guatemala and Honduras, P. ulnamaculata n. sp. is described from Guatemala and Mexico, P. nuevoleonensis n. sp. and P. tamaulipasensis n. sp. are described from Mexico, and P. nicaraguaensis n. sp. is described from Nicaragua. The current eighteen species of Procollina are listed along with their synonymies and known distribution of each species. The tribe Dazini Kato, 1932 is moved from the Cicadettinae Buckton, 1889 to the Cicadinae Latreille, 1802, synonymized with the Zammarini Distant, 1905, and revised to the subtribe Dazina rev. stat. based on the morphological characters of the representative genera. A key to the species of the Dazina rev. stat. is provided. Aragualnini n. tribe is erected for the genus Aragualna Champanhet, Boulard & Gaiani, 2000 as it exhibits morphological characteristics of the Cicadettinae Buckton, 1889 rather than the Cicadinae as do the rest of the genera previously assigned to the Dazini. Finally, Cicada pennata (Distant, 1881) is reassigned to Neocicada Kato, 1932 to become Neocicada pennata (Distant, 1881) n. comb..

We present an updated list of introduced ants to continental Ecuador, and compile records of occurrence, as well as map the distribution of 15 exotic species. We analyzed specimens in entomological collections and data from AntWeb, GBIF and iNaturalist. Among these, we add two new records for the country: Cardiocondyla mauritanica Forel, 1980 and Pheidole megacephala (Fabricius, 1793). The former is also the first record for South America, while the finding of the latter shows how little we know about introduced tramp ants. In addition, we add site records for nine species: Cardiocondyla emeryi Forel, 1881, Cardiocondyla minutior Forel, 1899, Cardiocon­dyla wroughtonii (Forel, 1890), Linepithema humile (Mayr, 1868), Monomorium floricola (Jerdon, 1851), Monomo­rium pharaonis (Linnaeus, 1758), Paratrechina longicornis (Latreille, 1802), Tapinoma melanocephalum (Fabricius, 1793), and Tetramorium bicarinatum (Nylander, 1846). Based on our previous fieldwork observations, it appears that our understanding of exotic species richness is still in its early stages.

Planktonic larvae of spionid polychaetes are among the most common and abundant group in coastal meroplankton worldwide. The present study reports the morphology of spionid larvae collected mainly from coastal waters of northeastern Japan that were identified by the comparison of adult and larval 18S and 16S rRNA gene sequences. The molecular analysis effectively discriminated the species. Adult sequences of 48 species from 14 genera (Aonides Claparède, 1864; Boccardia Carazzi, 1893; Boccardiella Blake & Kudenov, 1978; Dipolydora Verrill, 1881; Laonice Malmgren, 1867; Malacoceros Quatrefages, 1843; Paraprionospio Caullery, 1914; Polydora Bosc, 1802; Prionospio Malmgren, 1867; Pseudopolydora Czerniavsky, 1881; Rhynchospio Hartman, 1936; Scolelepis Blainville, 1828; Spio Fabricius, 1785; Spiophanes Grube, 1860) and larval sequences of 41 species from 14 genera (Aonides; Boccardia; Boccardiella; Dipolydora; Laonice; Paraprionospio; Poecilochaetus Claparède in Ehlers, 1875; Polydora; Prionospio; Pseudopolydora; Rhynchospio; Scolelepis; Spio; Spiophanes) of spionid polychaetes were obtained; sequences of 27 of these species matched between adults and larvae. Morphology of the larvae was generally species‐specific, and larvae from the same genus mostly shared morphological features, with some exceptions. Color and number of eyes, overall body shape, and type and arrangement of pigmentation are the most obvious differences between genera or species. The morphological information on spionid larvae provided in this study contributes to species or genus level larval identification of this taxon in the studied area. Identification keys to genera and species of planktonic spionid larvae in northeastern Japan are provided. The preliminary results of the molecular phylogeny of the family Spionidae using 18S and 16S rRNA gene regions are also provided.

A total of 35 alien arthropod species from 21 families, 6 orders and 2 classes were identified in the area of the Karadag mountain range. It is found that the main donor regions of invasive species are the non-tropical regions of Asia, North America and the Mediterranean, typical for the Eastern Black Sea region. Corythucha arcuata (Say, 1832) is a threat to the natural ecosystems of the Karadag Nature Reserve. Scaphoideus titanus Ball, 1932, Eriosoma lanigerum (Hausmann, 1802), Halyomorpha halys Stål, 1855, Nezara viridula (Linnaeus, 1758) and Tuta absoluta (Meyrick, 1917) are considered dangerous pests to agriculture while Corythucha ciliata (Say, 1832), Phyllonorycter platani (Staudinger, 1870), Acizzia jamatonica (Kuwayama, 1908), Cacopsylla pulchella (Löw, 1877), Prociphilus fraxinifolii (Riley, 1879), Dasineura gleditchiae Osten Sacken, 1866, Cameraria ohridella Deschka & Dimic, 1986, Cydalima perspectalis (Walker, 1859), Pulvinaria floccifera (Westwood, 1870) and Unaspis euonymi (Comstock, 1881) pose threats to gardens and parklands. Moreover, C. ohridella, C. ciliata, C. perspectalis and Harmonia axyridis Pallas, 1773 are listed among the 100 most dangerous invasive species in Russia. The Unified List of Quarantine Items of the Eurasian Economic Union includes C. ciliata, H. halys, C. arcuata and T. absoluta. Monitoring the alien component of biota and studying the consequences of biological pollution of natural ecosystems should become a new urgent focus of scientific, organizational and educational activities at the Karadag Nature Reserve.

Forty-two species of hydroids, excluding stylasterids, are reported in the present collection from the Northwestern Hawaiian Islands. Of these, four are anthoathecates and 38 are leptothecates. Among the latter, Sertularella affinicostata and Monotheca gibbosa are described as new species. The binomen Halopteris longibrachia is proposed as a new replacement name for Plumularia polymorpha var. sibogae Billard, 1913, an invalid junior primary homonym of P. sibogae Billard, 1911. Based largely on evidence from earlier molecular phylogenies, the genus Disertasia Neppi, 1917 is resurrected to accommodate species including Dynamena crisioides Lamouroux, 1824, Sertularia disticha Bosc, 1802, and Sia. moluccana Pictet, 1893. Sertularella robusta Coughtrey, 1876 is an invalid junior primary homonym of Sla. gayi var. robusta Allman, 1874a, and has been replaced here by the binomen Sla. quasiplana Trebilcock, 1928, originally described as Sla. robusta var. quasiplana Trebilcock, 1928. Clytia hummelincki (Leloup, 1935) is referred to the synonymy of its senior subjective synonym, C. brevithecata (Thornely, 1900). Following Reversal of Precedence provisions in the International Code of Zoological Nomenclature to preserve prevailing usage of binomena, the familiar names Sia. disticha Bosc, 1802 (also known as Dynamena disticha) and Lytocarpia phyteuma (Stechow, 1919b) are designated nomena protecta and assigned precedence over their virtually unknown senior synonyms Hydra quinternana Bosc, 1797 and Aglaophenia clavicula Whitelegge, 1899, respectively, names now reduced to the status of nomena oblita. Twenty species are reported for the first time from Hawaii [Eudendrium merulum Watson, 1985, Phialellidae (undetermined), Hebella sp., Hebellopsis scandens (Bale, 1888), H. sibogae Billard, 1942, Clytia brevithecata, C. linearis (Thornely, 1900), C. cf. noliformis (McCrady, 1859), Halecium sp., Sla. affinicostata, Sla. angulosa Bale, 1894, Pasya heterodonta (Jarvis, 1922), Tridentata orthogonalis (Gibbons & Ryland, 1989), Pycnotheca producta (Bale, 1881), Monotheca gibbosa, H. longibrachia, A. postdentata Billard, 1913, A. suensonii Jäderholm, 1896, A. whiteleggei Bale, 1888, and L. flexuosa (Lamouroux, 1816)]. Sertularia orthogonalis, reported for only the third time worldwide, is assigned to the genus Tridentata Stechow, 1920. Hydroids of the NOWRAMP 2002 collection consisted largely of presumptive widespread species, with over 75% of them having been reported elsewhere in the tropical Indo-west Pacific region.

La Mezquita-Catedral de Córdoba cuenta con un rico legado de imágenes hasta la llegada de la fotografía a mediados del XIX que constituyen una destacada fuente documental para la investigación. Tras una amplia labor de rastreo y localización de dichas imágenes, se aportan referencias sobre sus autores, contexto y técnicas, valorando su fiabilidad o precisión gráfica. Las primeras conocidas corresponden a tiempos cristianos, destacando dos panorámicas urbanas de la segunda mitad del XVI, una de ellas objeto de plagios con una notable difusión en Europa. Los primeros planos a escala del monumento conservados son del XVIII y las primeras vistas interiores de finales de ese siglo. En la primera mitad del XIX se produjeron abundantes imágenes de viajeros y artistas, algunas muy bellas y publicadas con gran éxito editorial. Los documentos gráficos reseñados se presentan agrupados según su autoría y orden cronológico: primeras imágenes simbólicas (desde 1360), Wyngaerde (1567), Civitatis (h. 1585-1617), copias del Civitatis (s. XVII-XVIII), Baldi (1668), óleo anónimo (1741), imágenes esquemáticas (s. XVIII), dibujo colección Vázquez Venegas (1752), planos Académicos (1767-1804), Swinburne (1775-1779), Karwinsky y Rillo (1811), Laborde (h. 1800-1812), Murphy (1802-1813), Bacler d’Able (h. 1820), Taylor (h. 1826-1832), Ford (1831), Lewis (1832-1836), Prangey (1832-1837), Gail (h. 1832-37), Roberts (1833-1839), Dauzats (h. 1836-1838), Chapuy (h. 1838-1842), Villaamil (h. 1838-1844), Bossuet (h. 1841-1855), Gerhardt (h. 1849-1851), Guesdon (1853), Parcerisa (1855) y Los Monumentos Arquitectónicos (h. 1852-1881).

Fourteen new species of chewing lice in the Brueelia-complex are described, from hosts in the Campephagidae. In addition, Malardifax a new subgenus of Guimaraesiella Eichler, 1949 is described for the species occurring on minivets (Campephagidae: Pericrocotus). The new species and their hosts are: Guimaraesiella (Guimaraesiella) nouankaoensis n. sp. from Coracina caledonica seiuncta Mayr & Ripley, 1941 and C. caledonica thilenii (Neumann, 1915); Guimaraesiella (Guimaraesiella) sphagmotica n. sp. from Coracina caeruleogrisea strenua (Schlegel, 1871) and C. caeruleogrisea adamsoni Mayr & Rand, 1936; Indoceoplanetes (Capnodella) kamphaengphetensis n. sp. from Lalage melaschistos avensis (Blyth, 1852); Indoceoplanetes (Capnodella) saucia n. sp. from Edolisoma montanum montanum (Meyer, 1874); Indoceoplanetes (Capnodella) subarcens n. sp. from Edolisoma melas melas (Lesson, 1828); Indoceoplanetes (Indoceoplanetes) cinitemnina n. sp. from Edolisoma melas melas (Lesson, 1828); Indoceoplanetes (Indoceoplanetes) ephippiformis n. sp. from Edolisoma montanum montanum (Meyer, 1874); Indoceoplanetes (Indoceoplanetes) fodincana n. sp. from Coracina papuensis oriomo Mayr & Rand, 1936, C. papuensis angustifrons (Salvadori, 1876), and C. papuensis elegans (Ramsay, 1881); Indoceoplanetes (Indoceoplanetes) incisoma n. sp. from Coracina macei siamensis (Baker, 1918) and C. macei rexpineti (Swinhoe, 1863); Indoceoplanetes (Indoceoplanetes) microgenitalis n. sp. from Coracina caeruleogrisea strenua (Schlegel, 1871); Indoceoplanetes (Indoceoplanetes) pterophora n. sp. from Coracina macei nipalensis (Hodgson, 1836); Indoceoplanetes (Indoceoplanetes) saburrata n. sp. from Coracina lineata ombriosa (Rothschild & Hartert, 1905); Indoceoplanetes (Indoceoplanetes) wandoensis n. sp. from Coracina novaehollandiae melanops (Latham, 1802); and Indoceoplanetes (Indoceoplanetes) zambica n. sp. from Coracina pectoralis (Jardine & Selby, 1828). Checklists and keys to the louse species of the Brueelia-complex parasitic on campephagid hosts are provided.

AbstractThe palaeoproterozoic Svecofennian orogen in southern Finland contains a number of orogenic gold occurrences. The Jokisivu gold deposit, comprising auriferous quartz veins, is hosted by syn-tectonic quartz diorites to gabbros. Mineralization occurs in approximately WNW–ESE- and WSW–ENE-trending shear zones, which probably branch from regional-scale NW–SE-trending shears. Ore zone fabrics post-date regional-scale folding and the metamorphic peak, and can be correlated with late Svecofennian regional shear tectonics (D6; 1.83–1.78 Ga), indicating that mineralization formed during the late stages of orogenic evolution. SIMS and TIMS U–Pb dating of three samples place tight constraints on the age of gold mineralization. Zircons from both unaltered and altered quartz diorites have ages of 1884±4 Ma and 1881±3 Ma, respectively. These are interpreted as the crystallization age of the rock and as providing the maximum age for mineralization. Zircon rims from an altered quartz diorite from the ore zone give ages of c. 1802±15 Ma, which overlap with the 1801±18 Ma titanite (mean Pb–Pb) age from the ore zone. The ages are similar to the age of the pegmatite dyke that cuts the ore zone and whose zircon age of 1807±3 Ma is approximately the same as the 1791±2 Ma monazite age (TIMS) giving the minimum age of the gold mineralization. The mineralization and its structural framework can be correlated with coeval late Svecofennian shear tectonics related to WNW–ESE-oriented shortening in southern Finland. Extensive c. 1.8 Ga granite magmatism, shear zone development and associated gold mineralization are of regional importance also in the northern and western Fennoscandian Shield (Finnish Lapand and Sweden). A Cordilleran-type setting can explain the widespread distribution of magmatism and gold mineralization associated with shortening, as well as the required heat source triggering hydrothermal fluid flow along shear zones.

Abstract. Evaporation from open water is among the most rigorously studied problems in hydrology. Robert E. Horton, unbeknownst to most investigators on the subject, studied it in great detail by conducting experiments and heuristically relating his observations to physical laws. His work furthered known theories of lake evaporation, but it appears that it was dismissed as simply empirical. This is unfortunate because Horton's century-old insights on the topic, which we summarize here, seem relevant for contemporary climate-change-era problems. In rediscovering his overlooked lake evaporation works, in this paper we (1) examine several of his publications in the period 1915–1944 and identify his theory sources for evaporation physics among scientists of the late 1800s, (2) illustrate his lake evaporation formulae, which require several equations, tables, thresholds, and conditions based on physical factors and assumptions, and (3) assess his evaporation results over the continental U.S. and analyze the performance of his formula in a subarctic Canadian catchment by comparing it with five other calibrated (aerodynamic and mass transfer) evaporation formulae of varying complexity. We find that Horton's method, due to its unique variable vapor pressure deficit (VVPD) term, outperforms all other methods by ∼3 %–15 % of R2 consistently across timescales (days to months) and at an order of magnitude higher at subdaily scales (we assessed up to 30 min). Surprisingly, when his method uses input vapor pressure disaggregated from reanalysis data, it still outperforms other methods which use local measurements. This indicates that the vapor pressure deficit (VPD) term currently used in all other evaporation methods is not as good an independent control for lake evaporation as Horton's VVPD. Therefore, Horton's evaporation formula is held to be a major improvement in lake evaporation theory which, in part, may (A) supplant or improve existing evaporation formulae, including the aerodynamic part of the combination (Penman) method, (B) point to new directions in lake evaporation physics, as it leads to a “constant” and a nondimensional ratio (the former is due to Horton, John Dalton (1802), and Gustav Schübler (1831) and the latter to Jožef Štefan (1881) and Horton), and (C) offer better insights behind the physics of the evaporation paradox (i.e., globally, decreasing trends in pan evaporation are unanimously observed, while the opposite is expected due to global warming). Curiously, Horton's rare observations of convective vapor plumes from lakes may also help to explain the mythical origins of the Greek deity Venus and the dancing Nereids.

<p><strong>Abstract.</strong> Modern nautical charts, the result of scientific coastal research and survey, had been made from late 18th century, and at the end of 19th century almost of the world had been charted. Different to the neighbouring countries such as China and Japan, Korean peninsula had not been accurately charted until the end of 19th century. Moreover, during the 19th century, the shape of Korean peninsula had been changed several times in the Western nautical charts. However, in the academic circle of the history of cartography, this case was scantly examined. In this presentation, this author, firstly, analyse the changes in the shape of the Korean Peninsula on the British Charts in the 19th Century and, secondly, identifies factors that influence the changes. For this research, British nautical charts, which are the representative and finest charts during the 19th century in the world, are selected. Examined charts are ‘Map of the Islands of Japan Kurile &amp; C.’ (Year of 1811, 1818) of Aaron Arrowsmith (1750&amp;ndash;1823), the hydrographer to his majesty, ‘The Peninsula of Korea (No.1258)’ (year of 1840, 1849) and ‘(Preliminary Chart of) Japan, Nipon Kiusiu and Sikok and a part of the coast of Korea (No. 2347)’ (Year of 1855, 1862, 1873, 1876, 1892, 1898, 1902, 1914) of the British hydrographic office. According to the analysis, major shape changes of the Korean Peninsula were occurred in 1818, 1840, 1849, 1855, 1862, 1873, 1876, 1892, and the shape of the Peninsula became perfect in the chart of the year 1914.</p><p>Meanwhile, the factors of the shape changes of the Korean peninsula in these nautical charts were various voyages, expeditions, and military surveys to Korea. For example, the change in the map of 1818 was initiated by the voyage of the captain Basil Hall in 1816 to the west coast of Korea, and the change in the map of 1840 was made by the map of Korea of A.J. von Krusenstern (1770&amp;ndash;1846) and the voyage of H.H.Lindsay (1802&amp;ndash;1881) to the west coast of Korea in 1832. Moreover, the modification of 1849 was made by the outcome of E. Belcher’s scientific survey around Jeju Island and other southern islands of Korea. In 1852, French admiral G. de Roquemaurel (1804&amp;ndash;1878) surveyed eastern coast of Korea and drew nautical chart and this chart became the source of the British chart of the year 1855. A Russian admiral, Yevfimy Putyatin (1803&amp;ndash;1883), also surveyed east side of the peninsula and triggered the change of nautical chart of eastern part of Korea. During French campaign against Korea in 1866 and United States expedition to Korea in 1871, French and American navy surveyed west-middle part of the peninsula and added detailed coastline of it and British chart also reflected these changes. The Japan-Korea treaty of 1876 enabled coastal survey of the Korean peninsula by the Japanese navy by the article 7, which permitted any Japanese mariner to conduct surveys and mapping operations at will in the seas off the Korean Peninsula's coastline. By virtue of the treaty, Japan could directly surveyed coastline of Korea and could make updated nautical charts of Korea. These Japanese charts were circulated to the Western countries and British hydrographers made the best use of them. Thanks to this situation, the British admiralty could update the chart of Korean peninsula and the perfect one published in 1914.</p><p>This analysis contribute not only to understand how and why the shape of Korean peninsula changed in British nautical charts during the 19th century, but also to add the historical case of the map trade and geographical knowledge circulation in East Asia.</p>

The Diptera genus-group names of Camillo Rondani are reviewed and annotated. A total of 601 nomenclaturally available genus-group names in 82 families of Diptera are listed alphabetically. For each name the following are given: author, year and page of original publication, originally included species [and first included species if none were originally included], type species and method of fixation, current status of the name, family placement, and a list of any emendations of it that have been found in the literature. Remarks are given to clarify nomenclatural or taxonomic information. In addition, an index is provided to all the species-group names of Diptera proposed by Rondani (1,236, of which 1,183 are available) with bibliographic reference to each original citation. Appended to this study is a full bibliography of Rondani’s works and a list with explanations for all new synonymies arising from revised emendations. Corrected or clarified type-species and/or corrected or clarified type-species designations are given for the following genus-group names: Anoplomerus Rondani, 1856 [Dolichopodidae]; Biomya Rondani, 1856 [Tachinidae]; Bremia Rondani, 1861 [Cecidomyiidae]; Deximorpha Rondani, 1856 [Tachinidae]; Elasmocera Rondani, 1845 [Asilidae]; Enteromyza Rondani, 1857 [Oestridae]; Exogaster Rondani, 1856 [Tachinidae]; Istocheta Rondani, 1859 [Tachinidae]; Istoglossa Rondani, 1856 [Tachinidae]; Lejogaster Rondani, 1857 [Syrphidae]; Lignodesia Rondani, 1868 [Phaeomyiidae]; Medorilla Rondani, 1856 [Tachinidae]; Meroplius Rondani, 1874 [Sepsidae]; Nodicornis Rondani, 1843 [Dolichopodidae]; Omalostoma Rondani, 1862 [Tachinidae]; Opegiocera Rondani, 1845 [Asilidae]; Petagnia Rondani, 1856 [Tachinidae]; Phaniosoma Rondani, 1856 [Tachinidae]; Proboscina Rondani, 1856 [Tachinidae]; Pyragrura Rondani, 1861 [Tachinidae]; Stemonocera Rondani, 1870 [Tephritidae]; Telejoneura Rondani, 1863 [Asilidae]; Tricoliga Rondani, 1856 [Tachinidae]. The following genus-group names previously treated as available were found to be unavailable: Bombyliosoma Verrall, 1882, n. stat. [Bombyliidae]; Bombylosoma Marschall, 1873, n. stat. [Bombyliidae]; Brachynevra Agassiz, 1846, n. stat. [Cecidomyiidae]; Calliprobola Rondani, 1856, n. stat. [Syrphidae]; Camponeura Verrall, 1882, n. stat. [Syrphidae]; Chlorosoma Verrall, 1882, n. stat. [Stratiomyidae]; Engyzops Verrall, 1882, n. stat. [Calliphoridae]; Exodonta Verrall, 1882, n. stat. [Stratiomyidae]; Histochaeta Verrall, 1882, n. stat. [Tachinidae]; Histoglossa Verrall, 1882, n. stat. [Tachinidae]; Homalostoma Verrall, 1882, n. stat. [Tachinidae]; Hoplacantha Verrall, 1882, n. stat. [Stratiomyidae]; Hoplodonta Verrall, 1882, n. stat. [Stratiomyidae]; Liota Verrall, 1882, n. stat. [Syrphidae]; Lomatacantha Verrall, 1882, n. stat. [Tachinidae]; Machaera Mik, 1890, n. stat. [Tachinidae]; Machaira Brauer & Bergenstamm, 1889, n. stat. [Tachinidae]; Myiatropa Verrall, 1882, n. stat. [Syrphidae]; Oplacantha Verrall, 1882, n. stat. [Stratiomyidae]. Previous First Reviser actions for multiple original spellings missed by previous authors include: Genus-group names—Achanthipodus Rondani, 1856 [Dolichopodidae]; Argyrospila Rondani, 1856 [Bombyliidae]; Botria Rondani, 1856 [Tachinidae]; Chetoliga Rondani, 1856 [Tachinidae]; Chrysoclamys Rondani, 1856 [Syrphidae]; Cyrtophloeba Rondani, 1856 [Tachinidae]; Istocheta Rondani, 1859 [Tachinidae]; Macherea Rondani, 1859 [Tachinidae]; Macronychia Rondani, 1859 [Sarcophagidae]; Pachylomera Rondani, 1856 [Psilidae]; Peratochetus Rondani, 1856 [Clusiidae]; Phytophaga Rondani, 1840 [Cecidomyiidae]; Spylosia Rondani, 1856 [Tachinidae]; Thlipsogaster Rondani, 1863 [Bombyliidae]; Tricogena Rondani, 1856 [Rhinophoridae]; Tricoliga Rondani, 1856 [Tachinidae]; Viviania Rondani, 1861 [Tachinidae]. Species-group name—Sphixapata albifrons Rondani, 1859 [Sarcophagidae]. Acting as First Reviser, the following correct original spellings for multiple original spellings are selected by us: Bellardia Rondani, 1863 [Tabanidae]; Chetoptilia Rondani, 1862 [Tachinidae]; Chetylia Rondani, 1861 [Tachinidae]; Clytiomyia Rondani, 1862 [Tachinidae]; Cryptopalpus Rondani, 1850 [Tachinidae]; Diatomineura Rondani, 1863 [Tabanidae]; Enteromyza Rondani, 1857 [Oestridae]; Esenbeckia Rondani, 1863 [Tabanidae]; Hammomyia Rondani, 1877 [Anthomyiidae]; Hydrothaea Rondani, 1856 [Muscidae]; Hyrmophlaeba Rondani, 1863 [Nemestrinidae]; Limnomya Rondani, 1861 [Limoniidae]; Lyoneura Rondani, 1856 [Psychodidae]; Micetoica Rondani, 1861 [Anisopodidae]; Miennis Rondani, 1869 [Ulidiidae]; Mycetomiza Rondani, 1861 [Mycetophilidae]; Mycosia Rondani, 1861 [Mycetophilidae]; Mycozetaea Rondani, 1861 [Mycetophilidae]; Piotepalpus Rondani, 1856 [Mycetophilidae]; Prothechus Rondani, 1856 [Pipunculidae]; Spyloptera Rondani, 1856 [Limoniidae]; Teremya Rondani, 1875 [Lonchaeidae]; Thricogena Rondani, 1859 [Tachinidae]; Trichopalpus Rondani, 1856 [Scathophagidae]; Trichopeza Rondani, 1856 [Brachystomatidae]; Tricophthicus Rondani, 1861 [Muscidae]; Triphleba Rondani, 1856 [Phoridae]; Xiloteja Rondani, 1863 [Syrphidae]. The following names are new synonymies of their respective senior synonyms: Genus-group names—Acanthipodus Bigot, 1890 of Poecilobothrus Mik, 1878, n. syn. [Dolichopodidae]; Acanthiptera Rondani, 1877 of Achanthiptera Rondani, 1856, n. syn. [Muscidae]; Achantiptera Schiner, 1864 of Achanthiptera Rondani, 1856, n. syn. [Muscidae]; Acydia Rondani, 1870 of Acidia Robineau-Desvoidy, 1830, n. syn. [Tephritidae]; Acyura Rondani, 1863 of Aciura Robineau-Desvoidy, 1830, n. syn. [Tephritidae]; Agaromyia Marschall, 1873 of Agaromya Rondani, 1861, n. syn. [Mycetophilidae]; Ammomyia Mik, 1883 of Leucophora Robineau-Desvoidy, 1830, n. syn. [Anthomyiidae]; Anomoja Rondani, 1871 of Anomoia Walker, 1835, n. syn. [Tephritidae]; Anthracomyia Rondani, 1868 of Morinia Robineau-Desvoidy, 1830, n. syn. [Calliphoridae]; Antracomya Lioy, 1864 of Morinia Robineau-Desvoidy, 1830, n. syn. [Calliphoridae]; Anthoeca Bezzi, 1906 of Solieria Robineau-Desvoidy, 1849, n. syn. [Tachinidae]; Antomyza Rondani, 1866 of Anthomyza Fallén, 1810, n. syn. [Anthomyzidae]; Antracia Rondani, 1862 of Nyctia Robineau-Desvoidy, 1830, n. syn. [Sarcophagidae]; Aporomyia Schiner, 1861 of Lypha Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Asphondilia Rondani, 1861 of Asphondylia Loew, 1850, n. syn. [Cecidomyiidae]; Asteja Rondani, 1856 of Asteia Meigen, 1830, n. syn. [Asteiidae]; Astenia Rondani, 1856 of Blepharicera Macquart, 1843, n. syn. [Blephariceridae]; Astilium Costa, 1866 of Senobasis Macquart, 1838, n. syn. [Asilidae]; Ateleneura Agassiz, 1846 of Atelenevra Macquart, 1834, n. syn. [Pipunculidae]; Athomogaster Rondani, 1866 of Azelia Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Axista Rondani, 1856 of Axysta Haliday, 1839, n. syn. [Ephydridae]; Bigonichaeta Schiner, 1864 of Triarthria Stephens, 1829, n. syn. [Tachinidae]; Billea Rondani, 1862 of Billaea Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Biomyia Schiner, 1868 of Biomya Rondani, 1856, n. syn. [Tachinidae]; Bombilius Dufour, 1833 of Bombylius Linnaeus, 1758, n. syn. [Bombyliidae]; Bombylosoma Loew, 1862 of Bombylisoma Rondani, 1856, n. syn. [Bombyliidae]; Brachipalpus Rondani, 1845 of Brachypalpus Macquart, 1834, n. syn. [Syrphidae]; Brachipalpus Rondani, 1863 of Palpibracus Rondani, 1863, n. syn. [Muscidae]; Brachistoma Rondani, 1856 of Brachystoma Meigen, 1822, n. syn. [Brachystomatidae]; Brachychaeta Brauer & Bergenstamm, 1889 of Brachicheta Rondani, 1861, n. syn. [Tachinidae]; Brachyglossum Bigot, 1858 of Leopoldius Rondani, 1843, n. syn. [Conopidae]; Brachyneura Oken, 1844 of Brachineura Rondani, 1840, n. syn. [Cecidomyiidae]; Caelomya Rondani, 1866 of Fannia Robineau-Desvoidy, 1830, n. syn. [Fanniidae]; Caelomyia Rondani, 1877 of Fannia Robineau-Desvoidy, 1830, n. syn. [Fanniidae]; Caenosia Westwood, 1840 of Coenosia Meigen, 1826, n. syn. [Muscidae]; Campilomiza Rondani, 1840 of Campylomyza Meigen, 1818, n. syn. [Cecidomyiidae]; Campylochaeta Bezzi & Stein, 1907 of Campylocheta Rondani, 1859, n. syn. [Tachinidae]; Caricoea Rondani, 1856 of Coenosia Meigen, 1826, n. syn. [Muscidae]; Carpomyia Loew, 1862 of Carpomya Rondani, 1856, n. syn. [Tephritidae]; Cassidemya Rondani, 1861 of Cassidaemyia Macquart, 1835, n. syn. [Rhinophoridae]; Ceratoxia Costa, 1866 of Otites Latreille, 1804, n. syn. [Ulidiidae]; Ceratoxys Rondani, 1861 of Otites Latreille, 1804, n. syn. [Ulidiidae]; Chaetogena Bezzi & Stein, 1907 of Chetogena Rondani, 1856, n. syn. [Tachinidae]; Chamemyia Rondani, 1875 of Chamaemyia Meigen, 1803, n. syn. [Chamaemyiidae]; Chaetoptilia Bezzi & Stein, 1907 of Chetoptilia Rondani, 1862, n. syn. [Tachinidae]; Chatolyga Bigot, 1892 of Carcelia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Chersodromya Rondani, 1856 of Chersodromia Haliday, 1851, n. syn. [Hybotidae]; Chetilya Rondani, 1861 of Chetina Rondani, 1856, n. syn. [Tachinidae]; Chilopogon Bezzi, 1902 of Dasypogon Meigen, 1803, n. syn. [Asilidae]; Chiromya Agassiz, 1846 of Chyromya Robineau-Desvoidy, 1830, n. syn. [Chyromyidae]; Chlorisoma Rondani, 1861 of Microchrysa Loew, 1855, n. syn. [Stratiomyidae]; Chorthophila Rondani, 1856 of Phorbia Robineau-Desvoidy, 1830, n. syn. [Anthomyiidae]; Chortofila Rondani, 1843 of Phorbia Robineau-Desvoidy, 1830, n. syn. [Anthomyiidae]; Chriorhyna Rondani, 1845 of Criorhina Meigen, 1822, n. syn. [Syrphidae]; Chrisogaster Rondani, 1868 of Chrysogaster Meigen, 1803, n. syn. [Syrphidae]; Chryorhina Rondani, 1856 of Criorhina Meigen, 1822, n. syn. [Syrphidae]; Chryorhyna Rondani, 1857 of Criorhina Meigen, 1822, n. syn. [Syrphidae]; Chrysoclamys Rondani, 1856 of Ferdinandea Rondani, 1844, n. syn. [Syrphidae]; Chrysomya Rondani, 1856 of Microchrysa Loew, 1855, n. syn. [Stratiomyidae]; Chrysopila Rondani, 1844 of Chrysopilus Macquart, 1826, n. syn. [Rhagionidae]; Chyrosia Rondani, 1866 of Chirosia Rondani, 1856, n. syn. [Anthomyiidae]; Clytiomyia Rondani, 1862 of Clytiomya Rondani, 1861, n. syn. [Tachinidae]; Conopoejus Bigot, 1892 of Conops Linnaeus, 1758, n. syn. [Conopidae]; Criorhyna Rondani, 1865 of Criorhina Meigen, 1822, n. syn. [Syrphidae]; Criptopalpus Rondani, 1863 of Cryptopalpus Rondani, 1850, n. syn. [Tachinidae]; Crysogaster Rondani, 1865 of Chrysogaster Meigen, 1803, n. syn. [Syrphidae]; Crysops Rondani, 1844 of Chrysops Meigen, 1803, n. syn. [Tabanidae]; Cyrthoneura Rondani, 1863 of Graphomya Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Cyrthoplaeba Rondani, 1857 of Cyrtophloeba Rondani, 1856, n. syn. [Tachinidae]; Cyrthosia Rondani, 1863 of Cyrtosia Perris, 1839, n. syn. [Mythicomyiidae]; Cystogaster Walker, 1856 of Cistogaster Latreille, 1829, n. syn. [Tachinidae]; Cyterea Rondani, 1856 of Cytherea Fabricius, 1794, n. syn. [Bombyliidae]; Dactyliscus Bigot, 1857 of Habropogon Loew, 1847, n. syn. [Asilidae]; Dasiphora Rondani, 1856 of Dasyphora Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Dasipogon Dufour, 1833 of Dasypogon Meigen, 1803, n. syn. [Asilidae]; Dasyneura Oken, 1844 of Dasineura Rondani, 1840, n. syn. [Cecidomyiidae]; Dexiomorpha Mik, 1887 of Estheria Robineau-Desvoidy, n. syn. [Tachinidae]; Dichaetophora Becker, 1905 of Dichetophora Rondani, 1868, n. syn. [Sciomyzidae]; Dicheta Rondani, 1856 of Dichaeta Meigen, 1830, n. syn. [Ephydridae]; Dictia Rondani, 1856 of Dictya Meigen, 1803, n. syn. [Sciomyzidae]; Dionea Rondani, 1861 of Dionaea Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Ditricha Rondani, 1871 of Dithryca Rondani, 1856, n. syn. [Tephritidae]; Dolicopeza Rondani, 1856 of Dolichopeza Meigen, 1830, n. syn. [Tipulidae]; Doricera Rondani, 1856 of Dorycera Meigen, 1830, n. syn. [Ulidiidae]; Drimeia Rondani, 1877 of Drymeia Meigen, 1826, n. syn. [Muscidae]; Drimeja Rondani, 1856 of Drymeia Meigen, 1826, n. syn. [Muscidae]; Driomyza Rondani, 1844 of Dryomyza Fallén, 1820, n. syn. [Dryomyzidae]; Driope Rondani, 1868 of Dryope Robineau-Desvoidy, 1830, n. syn. [Dryomyzidae]; Dryomiza Rondani, 1869 of Dryomyza Fallén, 1820, n. syn. [Dryomyzidae]; Dynera Rondani, 1861 of Dinera Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Dytricha Rondani, 1870 of Dithryca Rondani, 1856, n. syn. [Tephritidae]; Elachysoma Rye, 1881 of Elachisoma Rondani, 1880, n. syn. [Sphaeroceridae]; Elaeophila Marschall, 1873 of Eloeophila Rondani, 1856, n. syn. [Limoniidae]; Emerodromya Rondani, 1856 of Hemerodromia Meigen, 1822, n. syn. [Empididae]; Engyzops Bezzi & Stein, 1907 of Eggisops Rondani, 1862, n. syn. [Calliphoridae]; Entomybia Rondani, 1879 of Braula Nitzsch, 1818, n. syn. [Braulidae]; Epidesmya Rondani, 1861 of Acidia Robineau-Desvoidy, 1830, n. syn. [Tephritidae]; Erinnia Rondani, 1856 of Erynnia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Eristalomyia Kittel & Kreichbaumer, 1872 of Eristalomya Rondani, 1857, n. syn. [Syrphidae]; Esteria Rondani, 1862 of Estheria Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Exatoma Rondani, 1856 of Hexatoma Meigen, 1803, n. syn. [Tabanidae]; Exochila Mik, 1885 of Hammerschmidtia Schummel, 1834, n. syn. [Syrphidae]; Fisceria Rondani, 1856 of Fischeria Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Gedia Rondani, 1856 of Gaedia Meigen, 1838, n. syn. [Tachinidae]; Gimnocheta Rondani, 1859 of Gymnocheta Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Gimnosoma Rondani, 1862 of Gymnosoma Meigen, 1803, n. syn. [Tachinidae]; Gonirhinchus Lioy, 1864 of Myopa Fabricius, 1775, n. syn. [Conopidae]; Gonirhynchus Marschall, 1873 of Myopa Fabricius, 1775, n. syn. [Conopidae]; Gononeura Oldenberg, 1904 of Gonioneura Rondani, 1880, n. syn. [Sphaeroceridae]; Graphomia Rondani, 1862 of Graphomya Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Gymnopha Rondani, 1856 of Mosillus Latreille, 1804, n. syn. [Ephydridae]; Hammobates Rondani, 1857 of Tachytrechus Haliday, 1851, n. syn. [Dolichopodidae]; Harrysia Rondani, 1865 of Lydina Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Hemathobia Rondani, 1862 of Haematobia Le Peletier & Serville, 1828, n. syn. [Muscidae]; Hemerodromya Rondani, 1856 of Hemerodromia Meigen, 1822, n. syn. [Empididae]; Heryngia Rondani, 1857 of Heringia Rondani, 1856, n. syn. [Syrphidae]; Hidropota Lioy, 1864 of Hydrellia Robineau-Desvoidy, 1830, n. syn. [Ephydridae]; Hipostena Rondani, 1861 of Phyllomya Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Hirmophloeba Marschall, 1873 of Hyrmophlaeba Rondani, 1863, n. syn. [Nemestrinidae]; Histricia Rondani, 1863 of Hystricia Macquart, 1843, n. syn. [Tachinidae]; Hoemotobia Rondani, 1856 of Haematobia Le Peletier & Serville, 1828, n. syn. [Muscidae]; Homalomya Rondani, 1866 of Fannia Robineau-Desvoidy, 1830, n. syn. [Fanniidae]; Homalostoma Bezzi & Stein, 1907 of Billaea Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Hoplisa Brauer & Bergenstamm, 1889 of Oplisa Rondani, 1862, n. syn. [Rhinophoridae]; Hydrothaea Rondani, 1856 of Hydrotaea Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Hylara Rondani, 1856 of Hilara Meigen, 1822, n. syn. [Empididae]; Hyrmoneura Rondani, 1863 of Hirmoneura Meigen, 1820, n. syn. [Nemestrinidae]; Ilisomyia Osten Sacken, 1869 of Ormosia Rondani, 1856, n. syn. [Limoniidae]; Istochaeta Marschall, 1873 of Istocheta Rondani, 1859, n. syn. [Tachinidae]; Lamnea Rondani, 1861 of Erioptera Meigen, 1803, n. syn. [Limoniidae]; Lasiophthicus Rondani, 1856 of Scaeva Fabricius, 1805, n. syn. [Syrphidae]; Lestremya Rondani, 1856 of Lestremia Macquart, 1826, n. syn. [Cecidomyiidae]; Lidella De Galdo, 1856 of Lydella Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Lomacantha Lioy, 1864 of Lomachantha Rondani, 1859, n. syn. [Tachinidae]; Lomachanta Schiner, 1864 of Lomachantha Rondani, 1859, n. syn. [Tachinidae]; Loncoptera Rondani, 1856 of Lonchoptera Meigen, 1803, n. syn. [Lonchopteridae]; Lymnophora Blanchard, 1845 of Limnophora Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Macherium Rondani, 1856 of Machaerium Haliday, 1832, n. syn. [Dolichopodidae]; Macrochaetum Bezzi, 1894 of Elachiptera Macquart, 1825, n. syn. [Chloropidae]; Macrochoetum Bezzi, 1892 of Elachiptera Macquart, 1825, n. syn. [Chloropidae]; Macroneura Rondani, 1856 of Diadocidia Ruthe, 1831, n. syn. [Diadocidiidae]; Marshamya Rondani, 1850 of Linnaemya Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Marsilia Bezzi & Stein, 1907 of Tricoliga Rondani, 1859, n. syn. [Tachinidae]; Megachetum Rondani, 1856 of Dasyna Robineau-Desvoidy, 1830, n. syn. [Psilidae]; Megaloglossa Bezzi, 1907 of Platystoma Meigen, 1803, n. syn. [Platystomatidae]; Megera Rondani, 1859 of Senotainia Macquart, 1846, n. syn. [Sarcophagidae]; Melanomyia Rondani, 1868 of Melanomya Rondani, 1856, n. syn. [Calliphoridae]; Melizoneura Bezzi & Stein, 1907 of Melisoneura Rondani, 1861, n. syn. [Tachinidae]; Mesomelaena Bezzi & Stein, 1907 of Mesomelena Rondani, 1859, n. syn. [Sarcophagidae]; Micetina Rondani, 1861 of Mycetophila Meigen, 1803, n. syn. [Mycetophilidae]; Micetobia Rondani, 1861 of Mycetobia Meigen, 1818, n. syn. [Anisopodidae]; Micromyia Oken, 1844 of Micromya Rondani, 1840, n. syn. [Cecidomyiidae]; Miennis Rondani, 1869 of Myennis Robineau-Desvoidy, 1830, n. syn. [Ulidiidae]; Miopina Rondani, 1866 of Myopina Robineau-Desvoidy, 1830, n. syn. [Anthomyiidae]; Morjnia Rondani, 1862 of Morinia Robineau-Desvoidy, 1830, n. syn. [Calliphoridae]; Morphomyia Rondani, 1862 of Stomina Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Myatropa Rondani, 1857 of Myathropa Rondani, 1845, n. syn. [Syrphidae]; Mycetomiza Rondani, 1861 of Mycosia Rondani, 1861, n. syn. [Mycetophilidae]; Myiantha Rondani, 1877 of Fannia Robineau-Desvoidy, 1830, n. syn. [Fanniidae]; Myiathropa Rondani, 1868 of Myathropa Rondani, 1845, n. syn. [Syrphidae]; Myiocera Rondani, 1868 of Dinera Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Myiolepta Rondani, 1868 of Myolepta Newman, 1838, n. syn. [Syrphidae]; Myiospila Rondani, 1868 of Myospila Rondani, 1856, n. syn. [Muscidae]; Myltogramma Rondani, 1868 of Miltogramma Meigen, 1803, n. syn. [Sarcophagidae]; Myntho Rondani, 1845 of Mintho Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Myospyla Rondani, 1862 of Myospila Rondani, 1856, n. syn. [Muscidae]; Napoea Rondani, 1856 of Parydra Stenhammar, 1844, n. syn. [Ephydridae]; Neera Rondani, 1861 of Neaera Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Nemestrina Blanchard, 1845 of Nemestrinus Latreille, 1802, n. syn. [Nemestrinidae]; Nemorea Macquart, 1834 of Nemoraea Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Nevrolyga Agassiz, 1846 of Neurolyga Rondani, 1840, n. syn. [Cecidomyiidae]; Nictia Rondani, 1862 of Nyctia Robineau-Desvoidy, 1830, n. syn. [Sarcophagidae]; Noteromyia Marschall, 1873 of Camilla Haliday, 1838, n. syn. [Camillidae]; Ociptera Rondani, 1862 of Cylindromyia Meigen, 1803, n. syn. [Tachinidae]; Onodonta Rondani, 1866 of Hydrotaea Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Opegiocera Rondani, 1845 of Ancylorhynchus Berthold, 1827, n. syn. [Asilidae]; Ophira Rondani, 1844 of Hydrotaea Robineau-Desvoidy, 1830, n. syn. [Muscidae]; Ornithoeca Kirby, 1880 of Ornithoica Rondani, 1878, n. syn. [Hippoboscidae]; Ornithomyia Macquart, 1835 of Ornithomya Latreille, 1804, n. syn. [Hippoboscidae]; Orthochile Blanchard, 1845 of Ortochile Latreille, 1809, n. syn. [Dolichopodidae]; Oxicera Rondani, 1856 of Oxycera Meigen, 1803, n. syn. [Stratiomyidae]; Oxina Rondani, 1856 of Oxyna Robineau-Desvoidy, 1830, n. syn. [Tephritidae]; Ozyrhinchus Rondani, 1861 of Ozirhincus Rondani, 1840, n. syn. [Cecidomyiidae]; Oxyrhyncus Rondani, 1856 of Ozirhincus Rondani, 1840, n. syn. [Cecidomyiidae]; Pachigaster Rondani, 1856 of Pachygaster Meigen, 1803, n. syn. [Stratiomyidae]; Pachimeria Rondani, 1856 of Pachymeria Stephens, 1829, n. syn. [Empididae]; Pachipalpus Rondani, 1856 of Cordyla Meigen, 1803, n. syn. [Mycetophilidae]; Pachirhyna Rondani, 1845 of Nephrotoma Meigen, 1803, n. syn. [Tipulidae]; Pachirina Rondani, 1840 of Nephrotoma Meigen, 1803, n. syn. [Tipulidae]; Pachistomus Rondani, 1856 of Xylophagus Meigen, 1803, n. syn. [Xylophagidae]; Pangonia Macquart, 1834 of Pangonius Latreille, 1802, n. syn. [Tabanidae]; Pentetria Rondani, 1856 of Penthetria Meigen, 1803, n. syn. [Bibionidae]; Perichaeta Herting, 1984 of Policheta Rondani, 1856, n. syn. [Tachinidae]; Perichoeta Bezzi, 1894 of Policheta Rondani, 1856, n. syn. [Tachinidae]; Phalacromyia Costa, 1866 of Copestylum Macquart, 1846, n. syn. [Syrphidae]; Phicodromia Rondani, 1866 of Malacomyia Westwood, 1840, n. syn. [Coelopidae]; Phillophaga Lioy, 1864 of Asphondylia Loew, 1850, n. syn. [Cecidomyiidae]; Phito Rondani, 1861 of Phyto Robineau-Desvoidy, 1830, n. syn. [Rhinophoridae]; Phitomyptera Lioy, 1864 of Phytomyptera Rondani, 1845, n. syn. [Tachinidae]; Phitophaga Lioy, 1864 of Cecidomyia Meigen, 1803, n. syn. [Cecidomyiidae]; Phloebotomus Rondani, 1856 of Phlebotomus Rondani & Berté, 1840, n. syn. [Psychodidae]; Phorichaeta Brauer & Bergenstamm, 1889 of Periscepsia Gistel, 1848, n. syn. [Tachinidae]; Phrino Rondani, 1861 of Phryno Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Phrixe Rondani, 1862 of Phryxe Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Phthyria Rondani, 1856 of Phthiria Meigen, 1803, n. syn. [Bombyliidae]; Phtyria Rondani, 1863 of Phthiria Meigen, 1803, n. syn. [Bombyliidae]; Phyllodromya Rondani, 1856 of Phyllodromia Zetterstedt, 1837, n. syn. [Empididae]; Phytofaga Rondani, 1843 of Cecidomyia Meigen, 1803, n. syn. [Cecidomyiidae]; Phytomyzoptera Bezzi, 1906 of Phytomyptera Rondani, 1845, n. syn. [Tachinidae]; Platiparea Rondani, 1870 of Platyparea Loew, 1862, n. syn. [Tephritidae]; Platistoma Lioy, 1864 of Platystoma Meigen, 1803, n. syn. [Platystomatidae]; Platychyra Rondani, 1859 of Panzeria Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Platynochetus Rondani, 1845 of Platynochaetus Wiedemann, 1830, n. syn. [Syrphidae]; Polychaeta Schiner, 1868 of Policheta Rondani, 1856, n. syn. [Tachinidae]; Polycheta Schiner, 1861 of Policheta Rondani, 1856, n. syn. [Tachinidae]; Porrhocondyla Agassiz, 1846 of Porricondyla Rondani, 1840, n. syn. [Cecidomyiidae]; Porrycondyla Walker, 1874 of Porricondyla Rondani, 1840, n. syn. [Cecidomyiidae]; Prosopaea Brauer & Bergenstamm, 1889 of Prosopea Rondani, 1861, n. syn. [Tachinidae]; Psicoda Rondani, 1840 of Psychoda Latreille, 1797, n. syn. [Psychodidae]; Psylopus Rondani, 1850 of Sciapus Zeller, 1842, n. syn. [Dolichopodidae]; Pteropectria Rondani, 1869 of Herina Robineau-Desvoidy, 1830, n. syn. [Ulidiidae]; Pterospylus Bigot, 1857 of Syneches Walker, 1852, n. syn. [Hybotidae]; Pticoptera Rondani, 1856 of Ptychoptera Meigen, 1803, n. syn. [Ptychopteridae]; Ptilocheta Rondani, 1857 of Zeuxia Meigen, 1826, n. syn. [Tachinidae]; Ptilochoeta Bezzi, 1894 of Zeuxia Meigen, 1826, n. syn. [Tachinidae]; Ptylocera Rondani, 1861 of Zeuxia Meigen, 1826, n. syn. [Tachinidae]; Ptylops Rondani, 1859 of Macquartia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Pyragrura Rondani, 1861 of Labigastera Macquart, 1834, n. syn. [Tachinidae]; Pyrrhosia Bezzi & Stein, 1907 of Leskia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Ragio Scopoli, 1777 of Rhagio Fabricius, 1775, n. syn. [Rhagionidae]; Raimondia Rondani, 1879 of Raymondia Frauenfeld, 1855, n. syn. [Hippoboscidae]; Ramphina Rondani, 1856 of Rhamphina Macquart, 1835, n. syn. [Tachinidae]; Ramphomya Rondani, 1845 of Rhamphomyia Meigen, 1822, n. syn. [Empididae]; Raphium Latreille, 1829 of Rhaphium Meigen, 1803, n. syn. [Dolichopodidae]; Rhynchomyia Macquart, 1835 of Rhyncomya Robineau-Desvoidy, 1830, n. syn. [Rhiniidae]; Rhyncosia Rondani, 1861 of Aphria Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Rhynophora Rondani, 1861 of Rhinophora Robineau-Desvoidy, 1830, n. syn. [Rhinophoridae]; Riphus Rondani, 1845 of Rhyphus Latreille, 1804, n. syn. [Anisopodidae]; Ripidia Rondani, 1856 of Rhipidia Meigen, 1818, n. syn. [Limoniidae]; Sarcopaga Rondani, 1856 of Sarcophaga Meigen, 1826, n. syn. [Sarcophagidae]; Scatomiza Rondani, 1866 of Scathophaga Meigen, 1803, n. syn. [Scathophagidae]; Schaenomyza Rondani, 1866 of Schoenomyza Haliday, 1833, n. syn. [Muscidae]; Sciomiza Rondani, 1856 of Sciomyza Fallén, 1820, n. syn. [Sciomyzidae]; Sciopila Rondani, 1856 of Sciophila Meigen, 1818, n. syn. [Mycetophilidae]; Serromya Rondani, 1856 of Serromyia Meigen, 1818, n. syn. [Ceratopogonidae]; Seseromyia Costa, 1866 of Cosmina Robineau-Desvoidy, 1830, n. syn. [Rhiniidae]; Sibistroma Rondani, 1856 of Sybistroma Meigen, 1824, n. syn. [Dolichopodidae]; Simplecta Rondani, 1856 of Symplecta Meigen, 1830, n. syn. [Limoniidae]; Sinapha Rondani, 1856 of Synapha Meigen, 1818, n. syn. [Mycetophilidae]; Siritta Rondani, 1844 of Syritta Le Peletier & Serville, 1828, n. syn. [Syrphidae]; Somatolia Bezzi & Stein, 1907 of Lydina Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Somomia Rondani, 1862 of Calliphora Robineau-Desvoidy, 1830, n. syn. [Calliphoridae]; Somomyia Rondani, 1868 of Calliphora Robineau-Desvoidy, 1830, n. syn. [Calliphoridae]; Sphixaea Rondani, 1856 of Milesia Latreille, 1804, n. syn. [Syrphidae]; Sphyxaea Rondani, 1856 of Milesia Latreille, 1804, n. syn. [Syrphidae]; Sphyxapata Bigot, 1881 of Senotainia Macquart, 1846, n. syn. [Sarcophagidae]; Sphyximorpha Rondani, 1856 of Sphiximorpha Rondani, 1850, n. syn. [Syrphidae]; Spilomya Rondani, 1857 of Spilomyia Meigen, 1803, n. syn. [Syrphidae]; Spiximorpha Rondani, 1857 of Sphiximorpha Rondani, 1850, n. syn. [Syrphidae]; Spixosoma Rondani, 1857 of Conops Linnaeus, 1758, n. syn. [Conopidae]; Spylographa Rondani, 1871 of Trypeta Meigen, 1803, n. syn. [Tephritidae]; Stenopterix Millet de la Turtaudière, 1849 of Craterina Olfers, 1816, n. syn. [Hippoboscidae]; Stomorhyna Rondani, 1862 of Stomorhina Rondani, 1861, n. syn. [Rhiniidae]; Stomoxis Latreille, 1797 of Stomoxys Geoffroy, 1762, n. syn. [Muscidae]; Syphona Rondani, 1844 of Siphona Meigen, 1803, n. syn. [Tachinidae]; Tachidromya Rondani, 1856 of Tachydromia Meigen, 1803, n. syn. [Hybotidae]; Tachipeza Rondani, 1856 of Tachypeza Meigen, 1830, n. syn. [Hybotidae]; Tanipeza Rondani, 1850 of Tanypeza Fallén, 1820, n. syn. [Tanypezidae]; Teicomyza Rondani, 1856 of Teichomyza Macquart, 1835, n. syn. [Ephydridae]; Telaira Rondani, 1862 of Thelaira Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Teremya Rondani, 1875 of Lonchaea Fallén, 1820, n. syn. [Lonchaeidae]; Thecomya Rondani, 1848 of Thecomyia Perty, 1833, n. syn. [Sciomyzidae]; Thlypsigaster Marschall, 1873 of Amictus Wiedemann, 1817, n. syn. [Bombyliidae]; Thlypsomyza Rondani, 1863 of Amictus Wiedemann, 1817, n. syn. [Bombyliidae]; Thrichogena Bezzi, 1894 of Loewia Egger, 1856, n. syn. [Tachinidae]; Thricogena Rondani, 1859 of Loewia Egger, 1856, n. syn. [Tachinidae]; Thricophticus Rondani, 1866 of Thricops Rondani, 1856, n. syn. [Muscidae]; Thriptocheta Lioy, 1864 of Campichoeta Macquart, 1835, n. syn. [Diastatidae]; Thryptochoeta Bezzi, 1891 of Campichoeta Macquart, 1835, n. syn. [Diastatidae]; Thyreodonta Marschall, 1873 of Stratiomys Geoffroy, 1762, n. syn. [Stratiomyidae]; Toxopora Rondani, 1856 of Toxophora Meigen, 1803, n. syn. [Bombyliidae]; Tricholiga Rondani, 1873 of Tricoliga Rondani, 1856, n. syn. [Tachinidae]; Trichophticus Rondani, 1871 of Thricops Rondani, 1856, n. syn. [Muscidae]; Tricocera Rondani, 1856 of Trichocera Meigen, 1803, n. syn. [Trichoceridae]; Tricolyga Schiner, 1861 of Tricoliga Rondani, 1856, n. syn. [Tachinidae]; Trigliphus Rondani, 1856 of Triglyphus Loew, 1840, n. syn. [Syrphidae]; Tripeta Rondani, 1856 of Trypeta Meigen, 1803, n. syn. [Tephritidae]; Triphera Rondani, 1861 of Tryphera Meigen, 1838, n. syn. [Tachinidae]; Triptocera Lioy, 1864 of Actia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Tryptocera Macquart, 1844 of Actia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Uromya Rondani, 1856 of Phania Meigen, 1824, n. syn. [Tachinidae]; Winthemya Rondani, 1859 of Winthemia Robineau-Desvoidy, 1830, n. syn. [Tachinidae]; Xiloteja Rondani, 1863 of Myolepta Newman, 1838, n. syn. [Syrphidae]; Xylomyia Marschall, 1873 of Xylomya Rondani, 1861, n. syn. [Xylomyidae]; Xyloteja Rondani, 1856 of Myolepta Newman, 1838, n. syn. [Syrphidae]; Xyphidicera Rondani, 1845 of Xiphidicera Macquart, 1834, n. syn. [Hybotidae]; Xyphocera Rondani, 1845 of Ancylorhynchus Berthold, 1827, n. syn. [Asilidae]; Zigoneura Rondani, 1840 of Zygoneura Meigen, 1830, n. syn. [Sciaridae]; Zophomya Rondani, 1859 of Zophomyia Macquart, 1835, n. syn. [Tachinidae]. Species-group name—Psalida leucostoma Rondani, 1856 of Ocyptera simplex Fallén, 1815, n. syn. [Tachinidae]. Mycosia Rondani, 1861 is treated here as nomen dubium [Mycetophilidae]; Habropogon heteroneurus Timon-David, 1951 is resurrected from junior synonymy with Asilus striatus Fabricius, 1794, new stat. [Asilidae]. Reversal of precedence is invoked for three cases of subjective synonymy to promote stability in nomenclature: Macquartia monticola Egger, 1856, nomen protectum and Proboscina longipes Rondani, 1856, nomen oblitum [in Tachinidae]; Loewia Egger, 1856, nomen protectum and Thrychogena Rondani, 1856, nomen oblitum [in Tachinidae]; Zygomyia Winnertz, 1863, nomen protectum and Bolithomyza Rondani, 1856, nomen oblitum [in Mycetophilidae].

Çalışmada, Çorum ili otsu bitkiler üzerinde veya alanlarında yayılış gösteren örümcek populasyonları araştırılmıştır. Örnekler 2015 ve 2018 yılları arasında tek yıllık veya çok yıllık bitkiler (özellikle Astaracea) üzerinden atrap ile süpürülerek toplanmıştır. Ayrıca zemindeki aktif örnekler de elle ve aspiratör ile yakalanmıştır. Örümceklerin teşhisleri sonucunda 16 familya, 28 cins ve 36 tür tespit edilmiştir. Bunlar; Uloborus walckenaerius Latreille, 1806, Heliophanus lineiventris Simon, 1868, Heliophanus edentulus Simon, 1871, Oxyopes nigripalpis Kulczyński, 1891, Oxyopes lineatus Latreille, 1806, Pisaura mirabilis (Clerck, 1757), Pardosa sp., Thomisus onustus Walckenaer, 1805, Ebrechtella tricuspidata (Fabricius, 1775), Runcinia grammica (C. L. Koch, 1837), Xysticus acerbus Thorell, 1872, Tmarus stellio Simon, 1875, Philodromus longipalpis Simon, 1870, Philodromus cespitum (Walckenaer, 1802), Philodromus collinus C. L. Koch, 1835, Pulchellodromus pulchellus (Lucas, 1846),Enoplognatha latimana Hippa & Oksala, 1982, Kochiura aulica (C. L. Koch, 1838) Phylloneta impressa (L. Koch, 1881), Simitidion simile (C. L. Koch, 1836), Tetragnatha extensa (Linnaeus, 1758), Tetragnatha intermedia Kulczyński, 1891, Tetragnatha montana Simon, 1874, Araneus sturmi (Hahn, 1831), Cyclosa algerica Simon, 1885, Cyclosa algerica Simon, 1885, Argiope lobata (Pallas, 1772), Mangora acalypha (Walckenaer, 1802), Larinioides suspicax (O. Pickard-Cambridge, 1876), Araniella cucurbitina (Clerck, 1757), Aculepeira ceropegia (Walckenaer, 1802), Hypsosinga pygmaea (Sundevall, 1831), Neoscona adianta (Walckenaer, 1802), Neoscona byzanthina (Pavesi, 1876), Linyphia triangularis (Clerck, 1757), Microlinyphia pusilla (Sundevall, 1830). Çorum ilinde ilk kez örümcekler üzerine bir çalışma yapılmış ve daha önce ülkemizden kaydı verilmiş olan türler yeni lokaliteler ile desteklenmiştir

Turizm, gelişmiş ulaşım ve artan ticaret gibi insan faaliyetleri faunal elemanların dağılım alanları dışındaki habitatlara taşınmasına neden olmakta ve dolayısıyla yerli faunayı etkilemektedir. Bu faaliyetlerle taşınan organizmalar yerli olmayan, egzotik, istilacı veya tramp türler olarak adlandırılır. İstilacı türler, ekosistemi değiştirecek etkiye sahiptirler. Bu çalışmada İstilacı oldukları tespit edilen ve Türkiye`ye ait kayıt bildirilen Hymenopterlerden Sceliphron curvatum (Smith 1870), Tetramorium lanuginosum (Mayr 1870), Paratrechina longicornis (Latreille 1802), Anoplolepis gracilipes (F. Smith 1857), Linepithema humile (Mayr 1868), Nylanderia jaegerskioeldi (Mayr 1904), Nylanderia vividula (Nylander 1904), Cardiocondyla mauritanica (Forel 1890), Cardiocondyla emeryi (Forel, 1881), Monomorium pharaonis (Linnaeus 1758), Monomorium subopacum (F. Smith 1858), Pheidole indica (Mayr 1879), Pheidole teneriffana (Forel 1893), Pheidole megacephala (Fabricius 1793), Strumigenys membranifera (Emery 1869), Tetramorium bicarinatum (Nylander 1846), Hypoponera eduardi (Forel 1894), Hypoponera punctatissima (Roger 1859), Vespula vulgaris (Linnaeus, 1758), Solenopsis geminata (Fabricius 1804), Lasius neglectus (Van Loon, Boomsma & Andrasfalvy, 1990), Camponotus variegatus (Smith, F., 1858), Camponotus compressus (Fabricius, 1787), Camponotus maculatus (Fabricius 1782), Vespula germanica (Fabricius, 1793), Dryocosmus kuriphilus (Yasumatsu 1951), türlerine ait yapılan bu derlemede, bu türlerin doğal yaşam alanlarına, dağılım bölgelerine, ekolojik etkilerine, Türkiye`deki kayıtlarına değinilmiştir.

The purpose of this work was to analyze the participation of domestic and foreign morphological scientists in the activities of the Imperial St. Petersburg Academy of Sciences. From 1724 until 1917, a number of outstanding morphologists were elected as full members of the Academy, among them - anatomist and embryologist K.F. Wolf, anatomist A.E. Protasov, embryologist, geologist and paleontologist H.G. Pander, naturalist K. E. Beer, embryologist A. O. Kovalevsky, physiologist, histologist and zoologist F. V. Ovsyannikov, histologist A. S. Dogel, anthropologist, ethnographer and geographer D. N. Anuchin. The academy’s connections with foreign scientists also developed, many of whom were elected corresponding members and foreign honorary members of the academy, among them a number of morphologists, comparative anatomists and histologists. Thus, the following were elected as foreign honorary members: René Antoine Reaumur (1683 - 1757, elected in 1737); Albrecht Haller (1708 – 1777, elected 1776); in 1802 Georges Cuvier (1769 – 1732) was elected; in 1826 – Johann Wolfgang Goethe (1749 – 1832); in 1905 - Camillo Golgi (1844 - 1926). Correspondents were elected as foreign members: in 1826 - Robert Brown (1773 - 1858), who in 1827 became a full member of the academy; in 1826, Karl Ernst Baer (1792 - 1876) was elected foreign corresponding member, who after moving to Russia became its ordinary academician (1827), and then after his resignation, its honorary member (1862); in 1832 - Johannes Peter Müller (1801 - 1852); in 1836 - Jan Evangelista Purkinje (1787 - 1869); in 1850 – Matthias Jacob Schleiden (1804 – 1881); in 1857 - Rudolf Albert Kölliker (1817 - 1905); in 1881 - Rudolf Virchow (1821 - 1902); in 1897 - Franz Leydig (1821 - 1908). Communication between foreign corresponding members and foreign honorary members was carried out with the academy in several directions, of which the main one was sending their works to the academy and publishing their works in the academy’s publications. Another direction was the training of students who were subjects of the Russian Empire, as well as the internship of young Russian researchers who were preparing for a professorship.

Abstract The Prolonged drought resulting from global warming is considered an important factor affecting the Asia's socioeconomic growth of West Asia, with a significant impact on the dynamic forecasting of water supply and forest ecosystems. In such a scenario, Understanding future long-term drought (SPEI) changes is crucial for accurately forecasting regional drought shifts in the Hindukush region. In this study, a 517-year (1506-2022 CE) long tree-ring width chronology of the Himalayan Cedar (Cedrus deodara D. Don) from the eastern Hindukush has been developed. The July-September SPEI has revealed a positive and significant relationship (r = 0.633, p < 0.001) with tree growth, which leads to SPEI reconstruction from AD 1626 in the Hindu Kush Region. Our reconstruction model has explained 40.01% of the climate variance during the instrumental period from AD 1965 to 2018. Fourteen wet periods (≥ 3 years) were observed before the instrumental period, specifically in C.E. 1629–1635, 1638–1658, 1666–1674, 1680–1701, 1715–1724, 1770–1776, 1794–1797, 1802–1810, 1822–1846, 1850–1857, 1872–1881, 1883–1890, 1906–1914, and 1921–1937. Similarly, twelve dry summer periods were also observed in the past 339 years, such as C.E. 1659–1665, 1675–1679, 1702–1714, 1725–1769, 1777–1793, 1798–1801, 1811–1821, 1847–1849, 1858–1871, 1891–1905, 1915–1920, and 1938–1963. Nevertheless, AD 1663 was individually the wettest (with a value of 2.13), while AD 1754 was the driest (-0.99) year. The spatial correlation analysis and its comparisons with Karakoram-Himalayan drought and precipitation reconstructions have convincingly confirmed the reliability of our SPEI reconstruction. Consequently, this reconstruction can effectively serve as a proxy for large-scale drought variability in the Hindu Kush region of northern Pakistan. Our findings strongly suggest the considerable dendrochronological potential for further climatological studies in the western Hindu Kush Mountains System.&#xD;