Littérature scientifique sur le sujet « A-186 »

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].

This catalog lists all 1226 nominal species introduced by Rondani within Diptera (1174 available and 52 unavailable), providing for each available name data on the type locality, type material, current taxonomic status and with remarks on both the collectors and the specialists who have studied this material. The following new synonymies are proposed: Panops aeneus Philippi, 1865 [Acroceridae] under Lasia aenea Rondani, 1863, n. syn.; Panops nigripes Philippi, 1865 [Acroceridae] under Lasia cuprea Rondani, 1863, n. syn.; Tabanus brasiliensis Rondani, 1850 [Tabanidae] under Dichelacera fasciata Walker, 1850, n. syn.; Petagnia subpetiolata Rondani, 1859 [Tachinidae] under Petagnia occlusa Rondani, 1856, n. syn.; Tephritis siderata Rondani, 1868 [Tephritidae] under Hexacinia radiosa (Rondani, 1868), n. syn. Mallophora macquartii Rondani 1851 [Asilidae] is considered as a senior (but invalid) synonym of Mallophora scopipeda Rondani, 1863, n. syn. Paragus mundus Wollaston, 1858 [Syrphidae] is proposed as the valid name for Paragus coadunatus sensu Goeldlin de Tiefenau (1976); Paragus coadunatus Rondani, 1847 [Syrphidae] is reinstated as a junior synonym of Paragus haemorrhous Meigen 1822. Lectotypes are designated herein for the following nominal species: Domomyza anthracipes Rondani, 1875, Domomyza frontella Rondani, 1875 [both in Agromyzidae]; Chorthophila impudica Rondani, 1866 [Anthomyiidae]; Sephanilla sertulata Rondani, 1875 [Aulacigastridae]; Peratochetus lutescens Rondani, 1856 [Clusiidae]; Myopa punctum Rondani, 1857 [Conopidae]; Culex pulcritarsis Rondani, 1872 [Culicidae]; Ephydra ciligena Rondani, 1868 [Ephydridae]; Lonchea scutellaris Rondani, 1875 [Lonchaeidae]; Geomyza pictipennis Rondani, 1875 [Opomyzidae]; Megaglossa vegetationis Rondani, 1869 [Platystomatidae]; Eumerus tuberculatus Rondani, 1857, Merodon varius Rondani, 1845, Paragus mundus Wollaston, 1858, Pipizella neuphritica Rondani, 1868 [all in Syrphidae]; Exorista noctuicida Rondani, 1859, Phoricheta lacrimans Rondani, 1861 [both in Tachinidae]; Tephritis decipiens Rondani, 1871, Tephritis matutina Rondani, 1871, Urophora lejura Rondani, 1870, Urophora venabulata Rondani, 1870, Urophora veruata Rondani, 1870 [all in Tephritidae]. The following nominal species have lectotypes designated according to Article 74.5 of the I.C.Z.N. Code: Chortophila divergens Rondani, 1866, Chortophila incognita Rondani, 1866 [both in Anthomyiidae]; Habropogon doriae Rondani, 1873, Promacus taeniopus Rondani, 1873 [both in Asilidae]; Chelidomyia melbae Rondani, 1879, Myophthiria lygaeoides Rondani, 1878, Ornithomya gestroi Rondani, 1878, Ornithomya hatamensis Rondani, 1878 [all in Hippoboscidae]; Megaglossa corticarum Rondani, 1869 [Platystomatidae]; Elgiva lateritia Rondani, 1868, Tetanocera nigricosta Rondani, 1868, Tetanocera punctifrons Rondani, 1868 [all in Sciomyzidae]; Tabanus justorius Rondani, 1875 [Tabanidae]. The following lectotypes are designated by inference according to Article 74.6 of I.C.Z.N.: Diopsis aethiopica Rondani, 1873, Diopsis latimana Rondani, 1875, Teleopsis breviscopium Rondani, 1875, Teleopsis longiscopium Rondani, 1875 [all in Diopsidae]; Cyclopodia albertisii Rondani, 1878, Myophthiria reduvioides Rondani, 1875 [both in Hippoboscidae]; Myiodella brachialis Rondani, 1873, Senopterina zonalis Rondani, 1875 [all in Platystomatidae]; Stevenia florentina Rondani, 1861 [Rhinophoridae]; Miltogramma punctatella Rondani, 1868 [Sarcophagidae]; Sargus leoninus Rondani, 1875 [Stratiomyidae]; Chrysops alter Rondani, 1875, Chrysops unizonatus Rondani, 1875, Tabanus dives Rondani, 1875, Tabanus fulvissimus Rondani, 1875, Tabanus ignobilis Rondani, 1875 [all in Tabanidae]; Themara hirtipes Rondani, 1875 [Tephritidae]. The following names are new combinations: Diopsis latimana Rondani, 1875 [Diopsidae] is transferred to Teleopsis and kept as a junior synonym of Teleopsis dalmanni (Wiedemann, 1830), comb. nov.; Diopsis lativola Rondani, 1875 [Diopsidae] is transferred to Teleopsis and kept as a junior synonym of Teleopsis dalmanni (Wiedemann, 1830), comb. nov. The following names, previously deemed unavailable, are determined here to be available: Petagnia occlusa Rondani, 1856 [Tachinidae]; Tephritis siderata Rondani, 1868 [Tephritidae]. The following names, previous deemed available, are determined here to be unavailable: Porricondyla albitarsis Rondani, 1840 [Cecidomyiidae], Lucilia cyanicolor Rondani, 1850 [Calliphoridae]; Cephenemya stimulatrix Rondani, 1857 [Oestridae]; Cheilosia nigricornis Rondani, 1844, Cheilosia testacicornis Rondani, 1857, Pelecocera ruficornis Rondani, 1865 [all in Syrphidae]; Cylindrogaster sanguinea Rondani, 1861, Deximorpha cristata Rondani, 1862, Myostoma microcera Rondani, 1856 [all in Tachinidae]; Tripeta exacheta Rondani, 1870 [Tephritidae]. We consider Merodon italicus Rondani 1845 as an unnecessary substitute name for Merodon natans Fabricius, 1794 and confirm it as a junior synonym of Merodon natans Fabricius, 1794. Acting as First Revisers, the following are herein selected as correct original spellings: Trichophthalma philippii Rondani, 1863 [Nemestrinidae]; Sphiximorpha garibaldii Rondani, 1860 [Syrphidae]; Agelanius philippii Rondani, 1863 [Tabanidae]; Exorista achanthina Rondani, 1859, Platychyra brevicauda Rondani, 1865 [Tachinidae]. Species not previously treated in any recent Diptera catalog include the following: Chorthophila limbatella Rondani, 1877, Hylephila melitensis Rondani 1877 [both in Anthomyiidae]; Mya jonicroma Rondani, 1851, Mya versicolor Rondani, 1850, Somomya anulipes Rondani, 1863, Somomyia xanthomera Rondani, 1875 [all in Calliphoridae]; Madiza fabae Rondani, 1876 [Chloropidae]; Psilopus ducalis Rondani, 1850 [Dolichopodidae]; Gymnopa opaca Rondani, 1869 [Ephydridae]; Oedalea bracata Rondani, 1856 [Hybotidae]; Sapromyza albifrons Rondani, 1868, Sapromyza rectinervis Rondani, 1868 [both in Lauxaniidae]; Boletina parmensis Rondani, 1856, Bolithobia lateralis Rondani, 1856, Bolithomyza spinulina Rondani, 1856, Mycetomyza sciarina Rondani, 1856, Pachipalpus calceatus Rondani, 1856 [all in Mycetophilidae]; Lyoneura lugubris Rondani, 1856 [Psychodidae]; Volucella trizonata Rondani, 1875 [Syrphidae]; Echinomya apicalis Rondani, 1848, Echinomya ignobilis Rondani, 1863, Gonia ornata var. repudiata Rondani, 1859, Hyalomyia unicolor Rondani, 1868, Platychyra valida Rondani, 1865, Pyragrura uncinatus Rondani, 1861 [all in Tachinidae]. One species, Bertea subaptera Rondani, 1856, is returned to Diptera from Hymenoptera after examination of the type material.

In 2015, after the discovery of Kepler-186f, the fifth exoplanet in orbit of its star, Kepler-186, we investigated for three new undetected planets in the Kepler-186 system [1]. Of the planets which are owned by the Kepler-186, the first Earth-like planet and far from its star is Kepler-186f. Considering the order of these five discovered planets, there is a strong possibility for the existence of three new and undetected planets. Theoretically, we have recognized these three new planets locating before and after Kepler-186f. The first two new planets, orbit in the gap between Kepler-186e and Kepler-186f, and are called Kepler-186e(X1) and Kepler-186e(X2) respectively. The third planet also orbits in the exterior region of Kepler-186f is called Kepler-186f(X1). Now, after 6 years, we have reinvestigated these findings using the new information and data available.

The relevance of the study lies in the facts that it explores the issues related to the global significance of Dostoevsky’s literary heritage and interdisciplinary approaches to analyzing Russian literature. The significance of the study is stipulated by the current state of scientific knowledge concerning a particular role of literary works in describing and interpreting global political and state processes. The aim of the study is to reconstruct and map Dostoevsky’s geopolitical worldview based on the analysis of his literary and journalistic works. To consider the writer’s works from the standpoint of his involvement into the political issues is the first attempt within Dostoevsky studies. The analysis of Dostoevsky’s literary heritage from a geopolitical perspective was carried out on the basis of Statisticheskiy slovar’ yazyka Dostoevskogo [Statistical Dictionary of Dostoevsky’s Language]. However, since this book does not contain draft notes and earlier versions, preliminary drafts and notebook materials, these texts were intentionally explored. This is the first literary study of its kind which is based on a variety of modern statistical methods. This fact makes it possible to state that the obtained results present new knowledge about Dostoevsky and are of undisputed novelty. The study is focused on big geopolitical subjects, i.e. countries, transnational and national unions, prominent regions; therefore, the present article is only the first stage of the study. In accordance with the conducted analysis and calculations, the following frequency of geopolitical subjects’ mentions is proposed: Russia (4420); France (848); Germany (735); Britain (397); Turkey (304); Siberia (223); Italy (173); Switzerland (172); Poland (145); Austria (141); America (119); Bulgaria (83); Serbia (83); China (49); Spain (40); Montenegro (38); Caucasus (38); Crimea (30); Egypt (26); Greece (23); Hungary (19); Balkans (18); Central Asia (18); Holland (15); Syria (14); Herzegovina (13); Novorossiya (10); Sweden (7); Japan (6); Altai (5); Arabia, Africa, Bosnia, Dagestan, India, Lithuania, Mexico, Sicily, Finland (each 4); Belgium, Iceland, Malta, Peru, Sandwich Islands (each 3); Brazil, Brittany, Denmark, Israel, Moldova, Romania, Sakhalin (each 2); and Galicia (1). The frequency of geopolitical subjects’ mentions by years is as follows: 1877 (2100), 1876 (1516), 1860 (567), 1880 (502), 1872 (388), 1873 (381), 1868 (366), 1862 (328), 1866 (265), 1875 (264), 1869 (170), 1863 (155), 1881 (135), 1867 (128), 1878 (122), 1864 (120), 1859 (102), 1874 (100), 1870 (96), 1856 (75), 1861 (61), 1871 (54), 1865 (52), 1846 (43), 1847 (41), 1849 (38), 1858 (25), 1854 (21), 1848 (15), 1857 (12), 1845 (5), 1843-1844 (3), 1838-1839 (2), 1879 (1); geopolitical subjects were not mentioned in 1841, 1842, 1850, 1851, 1852, 1853, and 1855. he authors express their deep gratitude to M.V. Podrezov for his assistance in preparing this article. Contribution of the authors: the authors contributed equally to this article. The authors declare no conflicts of interests.

Family-group names proposed for beetles belonging to the family Cerambycidae are catalogued and their availability is determined using the rules of the current International Code of Zoological Nomenclature. A synoptic classification of the family summarizes the validity of the names. Type genera of all family-group names are listed and the type species and stems of genera of available family-group names are included. A new family-group name, Elytracanthinini Bousquet (type genus: Elytracanthina Monn, 2005, a replacement name for Elytracantha Lane, 1955) is proposed for Elytracanthinae Lane, 1955. Ichthyosoma armatum Montrouzier, 1855 is designated as type species of Icthyosoma Boisduval, 1835. Reversal of precedence is used to preserve the validity of the following family-group names: Anaglyptides Lacordaire, 1868 (over Anaglyptisidae Gistel, 1848 [Buprestidae]); Dryobiini Arnett, 1962 (over Dryobiadae Gistel, 1856 [Ptinidae]); Hemilophitae Thomson, 1868 (over Amphionychitae Thomson, 1860) and Hétéropsides Lacordaire, 1869 (over Dichophyiaeidae Gistel, 1848). The following family-group names, although junior synonyms, are preserved as valid until an application is submitted to the International Commission on Zoological Nomenclature; in these cases a reversal of precedence could not be applied: Eurypodini Gahan, 1906 (over Zaracinae Pascoe, 1869); Macronides Lacordaire, 1868 (over Enchapteritae Thomson, 1861); Pyresthides Lacordaire, 1868 (over Pseudolepturitae Thomson, 1861 and Erythrinae Pascoe, 1866) and Stenoderinae Pascoe, 1867 (over Syllitae Thomson, 1864). A total of 238 valid cerambycid family-group names (413 available names) are recognized in the following 13 subfamilies: Vesperinae (1 valid family-group name), Oxypeltinae (1), Disteniinae (4), Anoplodermatinae (3), Philinae (1), Parandrinae (2), Prioninae (24), Spondylidinae (5), Necydalinae (1), Lepturinae (8), Lamiinae (80), Dorcasominae (1), and Cerambycinae (107).

Includes the following reviews: pp. 177-180. Tom Lundskær-Nielsen. Ljungs, M. & Ohlander, S., Gleerups engelska grammatik. pp. 180-182. David Isitt. Oakland, J., British Civilization: An Introduction. + MacQueen, D., Americal Social Studies: A University Primer. + Lundén, R. & Srigley, M. (eds.), Ideas and Identities: British and American Culture. pp. 182-183. Jeremy Lane. Watson, G., British Literature since 1945. pp. 183-184. Alistair Davies. Katz, W. & Sternberg Katz, L. (eds.), The Columbia Granger's Guide to Poetry Anthologies. pp. 184-185. Bertil Nolin. Barker, H., Collected Plays, Vol I *Seven Lears; The Pursuit of Good; Golgo: Sermons on pain and privilege *Arguments for a Theatre. pp. 185-186. Alvar Ellegård. MacQueen, D.S., Using Numbers in English. pp. 187-189. Maria Holmgren Troy. Duff, A. & Maley, A., Literature. + McRae, J. & Pantaleoni, L., Chapter & Verse. pp. 189-190. Elleke Boehmer. Grandqvist, R. (ed.), Signs and Signals: Popular Culture in Africa. pp. 190-192. Gunnar Bergh. Bell, A., The Language of News Media. pp. 193-194. Patrick Burke. Jarringron, J.P. (ed.), Modern Irish Drama. p. 194. Göran Kjellmer. Crystal, S. (series editor), Penguin English Linguistics, Vols. 1-5- p. 195. Helena Bergmann. Bradbury, M. & Cooke, J. (eds.), New Writing. pp. 196-198. Birgit Stolt. von Polenz, P., Deutsche Sprachgeschichte vom Spätmittelalter bis zur Gegenwart. Bd. I. Einführung. Grundbegriffe. Deutsch in der frühbürgerlichen Zeit. pp. 198-200. Gustav Korlén. Paul, H., Deutschen Wörterbuch. 9. Aufl. pp. 201-203. Gunnar Magnusson. Linke, A., Nussbaumer, M. & Portmann, P.R., Studienbuch Linguistik. pp. 204-205. Folke Freund. Helbig, G., Deutsche Grammatik. Grundfragen und Abriß. pp. 205-208. Frank-Michael Kirsch. Malchow, H. & Winkels, H. (Hrsg.), Die Zeit danach. Neue deutsche Literatur. pp. 208-210. Christa Grimm. Frisch, C., "Geniestreich". "Lehrstück", "Revolutionsgestammel". Zur Rezeption des Dramas "Marat/Sade" in der Literaturwissenschaft und auf den Bühnen der Bundesrepublik Deutschland, der Deutschen Demokratischen Republik und Schwedens. pp. 210-212. Göran Bornäs. Blinkenberg, A. & Høybye, P., Dansk-fransk ordbog. pp. 212-217. Börje Schlyer. de Troyes, C., Le Chevalier de la Charrette (Lancelot) *Lancelot ou le Chevalier de la Charrette *Le Conte du Graal ou le Roman de Perceval *Lancelot du Lac. pp. 218-220. Ken Benson. Ciplijauskaité, B., La novela femenina contemporánea (1970-1985). Hacia una tipología de la narración en primera persona. pp. 220-222. Kan Benson. Marful Amor, I., Lorca y sus dobles. Interpretación psicoanalítica de la obra dramática y dibujística. p. 223. Redaktionsmeddelande/A Message from the Editors.

We present a review of the Australian species of Rhytiphora Audinet-Serville, 1835, the most speciose longhorn beetle (Cerambycidae) genus in Australia. The morphological definition of the genus is updated, including useful features to distinguish Rhytiphora from closely related genera within Niphonini. Key characteristics of the two molecularly determined subclades are also provided. The collaris group of Rhytiphora is revised and Rhytiphora garnetensis sp. nov. is described from Queensland. A neotype is designated for Saperda collaris Donovan, 1805; lectotypes are designated for R. amicula White, 1859, Symphyletes vestigialis Pascoe, 1864, Symphyletes compos Blackburn, 1902, R. maculosella Blackburn, 1902, R. uniformis Blackburn, 1901, R. piperitia Hope, 1842 and Symphyletes humeralis White, 1858. A number of species complexes that require genetic confirmation before being synonymised (or separated) are discussed. Finally, we provide a new checklist of the Australian Rhytiphora species which, incorporating synonymies and other changes, reduces the total number of species from 206 to 163. The following species have been synonymised (junior synonym listed first): Coptops abdominalis White, 1858 (= Lamia bankii Fabricius, 1775); Penthea adamsae McKeown, 1938 (= Penthea macularia Pascoe, 1867); R. affinis Breuning, 1970 (= Symphyletes farinosus Pascoe, 1863); Prosoplus albidus Aurivillius, 1917 and Prosoplus minimus Breuning, 1938 (= Corrhenes pauxilla Blackburn, 1901); Prosoplus albostriatus Breuning, 1938 and Prosoplus demarzi Breuning, 1963 (= Niphona oblita Pascoe, 1863); Saperda albocincta Guérin-Méneville, 1831, Symphyletes compos Blackburn, 1902, R. donovani Newman, 1851, R. intertincta Pascoe, 1867, R. maculosella Blackburn, 1902, R. parafarinosa Breuning, 1970, R. vermiculosa Breuning, 1970 and Symphyletes vestigialis Pascoe, 1864 (= Saperda collaris); R. albolateraloides Breuning, 1970 (= Platyomopsis cinerascens Aurivillius, 1917); Symphyletes anaglyptus Pascoe, 1867, Saperdopsis armata Thomson, 1864, Symphyletes moratus Pascoe, 1863 and Symphyletes vetustus Pascoe, 1862 (= Lamia pulverulens Boisduval, 1835); Symphyletes arctos Pascoe, 1865 (= Symphyletes fumatus Pascoe, 1864); Pterolophia australica Breuning, 1938 (= Apomecyna nigrita Pascoe, 1859); R. barnardi Breuning, 1982 (= Symphyletes capreolus Pascoe, 1867); Platyomopsis basalis Aurivillius, 1917 (= Saperdopsis ochreobasalis Breuning, 1938); R. corrhenoides Breuning, 1970 (= Corrhenes cruciata Pascoe, 1875); R. dawsoni Breuning, 1970 (= Symphyletes fasciatus Blackburn, 1901); Symphyletes defloratus Pascoe, 1869 (= Symphyletes gallus Pascoe, 1864); Trichoprosoplus demarzi Breuning, 1961 and Paradaxata spinosa Breuning, 1938 (= Paradaxata villosa Breuning, 1938); Prosoplus elongatus Breuning, 1938 (= Prosoplus metallescens Breuning, 1938); Corrhenes flavovittata Breuning, 1938, Saperda funesta Pascoe, 1859, Anaesthetis lepida Germar, 1848 and Cobria rufa Breuning, 1961 (= Saperda paulla Germar, 1848); Corrhenes guttulata Pascoe, 1865, Corrhenes macmillani Gilmour, 1950 and Saperda mystica Pascoe, 1863 (= Saperda stigmatica Pascoe, 1863); Xiphotheopsis hathlioides Breuning, 1961 (= Xiphohathlia lobata Breuning, 1961); Symphyletes iliacus Pascoe, 1866 (= Symphyletes deserti Blackburn, 1896); Saperdopsis laterialba Breuning, 1938 (= Symphyletes satelles Pascoe, 1865); Etaxalus laterialbus Breuning, 1968 (= Achriotypa basalis Pascoe, 1875); Prosoplus laterinigricollis Breuning, 1961 and Prosoplus mediofasciatus Breuning, 1938 (= Niphona bakewelli Pascoe, 1859); R. leucolateralis Breuning, 1970 (= R. subargentata Breuning, 1970); Penthea lichenosa McKeown, 1942 and Penthea obscura Breuning, 1961 (= Penthea scenica Pascoe, 1863); Sysspilotus macleayi Pascoe, 1865 and Menyllus maculicornis Pascoe, 1864 (= Menyllus rotundipennis Breuning, 1968); R. multituberculata Breuning, 1966 (= Saperdopsis sellata Breuning, 1938); Symphyletes nodosus Newman, 1842 (= Acanthocinus piliger Macleay, 1826); Hathliodes pseudomurinus Breuning, 1938 (= Hathliodes virgatus Breuning, 1938); Penthea sectator Pascoe, 1865 (= Penthea crassicollis Pascoe, 1864); R. simsoni Blackburn, 1901 (= R. mista Newman, 1842); Penthea solida Pascoe, 1863 (= Lamia vermicularia Donovan, 1805); Platyomopsis spinosa Thomson, 1864 (= Lamia obliqua Donovan, 1805); R. truncata Breuning, 1940 (= R. piperitia Hope, 1842); R. uniformis Blackburn, 1901 (= Platyomopsis delicatula McKeown, 1948); Mimiphiastus vivesi Breuning, 1978 (= Symphyletes variolosa Pascoe, 1862). Pterolophia bispinosa Breuning, 1938 is renamed to R. subovata new name (junior homonym of Saperdopsis bispinosa Breuning, 1938), R. browni McKeown, 1938 is reinstated as its own species, and Corrhenes flavovittata demarzi Breuning, 1963 is elevated to species status and renamed R. rentzi new name (junior homonym of Trichoprosoplus demarzi).

The beetle superfamily Curculionoidea includes 43 species associated with Araucaria angustifolia trees in South Brazil. These weevil species belong to the families Nemonychidae (Brarus Kuschel, 1997, Rhynchitoplesius Voss, 1952), Brentidae (Taphroderes Schönherr, 1826) and Curculionidae, the latter including the subfamilies Curculioninae (Heilipodus Kuschel, 1955, Spermologus Schönherr, 1843), Cossoninae (Araucarius Kuschel, 1966, Eurycorynophorus Voss, 1964), Scolytinae (Ambrosiodmus Hopkins, 1915, Araptus Eichhoff, 1871, Cnesinus LeConte, 1868, Corthylus Erichson, 1836, Cryptocarenus Eggers, 1936, Hypothenemus Westwood, 1834, Monarthrum Kirsch, 1866, Pagiocerus Eichhoff, 1868, Phloeotribus Latreille, 1896, Pityophthorus Eichhoff, 1864, Xylechinosomus Schedl, 1963, Xyleborus Eichhoff, 1864, Xyleborinus Reitter, 1913) and Platypodinae (Cenocephalus Chapuis, 1865, Platypus Herbst, 1893, Tesserocerus Saunders, 1836). A checklist of all species including remarks on their life histories and taxonomic notes are presented. In addition, a key for the identification of adult Curculionoidea associated with Araucaria angustifolia to genus or species level is provided.

Les états de haut spin des noyaux ¹⁸⁵,¹⁸⁷,¹⁸⁸Hg produits dans les réactions ¹⁶¹,¹⁶³,¹⁶⁴Dy (²⁸Si (135-151 MeV, xn) ont été étudiés à l’aide d’un multidétecteur 4π « Château de Cristal » en ligne sur le tandem du C. R. N. Strasbourg. Des mesures de distribution angulaire, de polarisation linéaire des transitions et de coïncidences ont été effectuées. Les schémas de niveaux ainsi établis ont permis de mettre en évidence la coexistence de ¹⁸⁵Hg et ¹⁸⁷Hg de deux formes d’équilibre « oblate » et « prolate » toutes deux stabilisées par le nucléon impair dans la couche sphérique νil3/2 ainsi que les bandes construits sur les états 1/2⁻[521] (fondamental) et 7/2⁻[514] de ¹⁸⁵Hg préalablement observés en radioactivité. Dans ¹⁸⁸Hg, outre le développement à plus haut spin des deux bandes de parité positive précédemment rapportées, quatre nouvelles bandes de parité négative ont été identifiées. L’interprétation de ces résultats a été réalisée à l’aide du modèle de « cranking » décrivant les mouvements de quasi-particules indépendantes dans le champ moyen du noyau déformé en rotation. Les propriétés des structures peu déformées dans ces isotopes sont bien reproduites en considérant l’excitation de neutrons il3/2 tandis qu’il est plus difficile de conclure sur l’origine des particules impliquées dans les structures plus déformées qui coexistent dans ces mêmes noyaux
High-spin states in ¹⁸⁵⁻¹⁸⁷⁻¹⁸⁸Hg have been investigated via the ¹⁶¹-¹⁶⁴Dy (²⁸Si, xn) reactions by in-beam γ-ray spectroscopic techniques using the “Chateau de Cristal” 4π-multidetector array. Level schemes have been established. Spins and parities of the states have been deduced from transitions multipolarities obtained from measurements of the angular distribution and linear polarization of the γ-rays. The shape coexistence of both prolate and oblate band structures built on states originating from νil3/2 subshell, has been observed for the first time in ¹⁸⁵⁻¹⁸⁷Hg as well as the rotational bands built on the 1/2⁻[521] and 7/2⁻[514] states in ¹⁸⁵Hg. In ¹⁸⁸Hg negative-parity bands are well developed. The various band structures are interpreted within the framework of the cranked shell model. The oblate structures are well reproduced by considering νil3/2 excitations while it is more difficult to conclude about the nature of the particle involved in the prolate ones

This thesis is an ethnography of how individuals experience urban change and difference on a south London street. My research focuses on the contemporary increase in cultural and ethnic diversity in London, and I explore what this means for social life and shared space on the Walworth Road. The purpose is to observe and interpret the forms of contact and distance people develop in living with difference in their everyday lives. I use a mixture of official, archival and ethnographic data to contrast how individuals transgress or re-inscribe social and spatial boundaries, and how systems of power authorise boundaries between people and places. I also combine ethnographic and visual methods to analyse and illustrate the layers of place, time and experience that are invoked by narratives of change on the Walworth Road. Although my thesis connects the global and local impacts of change, I select the small independent shops along the Walworth Road as the base of my exploration. Within a selection of shop interiors, I explore forms of social contact that are locally constituted through regular, face-to-face interaction, and through shared spaces and practices that engage people across diverse spectrums. I analyse the relationships between proprietors and customers: between workspaces and work skills and social spaces and social skills. Through this empirical process, I emphasise the social and political significance of ordinary spaces and informal memberships that emerge out of everyday contact in neither overtly public, nor overtly private space. This thesis has been edited into a book form to be released by Routledge in May 2012, the title of which is ‘City, Street and Citizen: The measure of the ordinary’.

The Soviet psychologist and neurologist Alexander Luria (1902-1977) asserted that human consciousness is formed by and participates in forming history. His explicitly Marxist approach to psychology and neurology itself emerged from a particular time and place. This thesis seeks to restore Luria’s work to its history, situating his research in its Soviet context - from the October Revolution in 1917 through the collectivisation of agriculture and Stalinist Terror to the Second World War. This PhD follows the course of Luria’s career through Soviet history, and is also structured around the developmental trajectories that informed his research. Luria’s work was consistently concerned with tracing the emergence of the ‘culturally developed’ human being, defined as an educated person capable of exerting an influence on their environment. He argued that this figure was the result of various developmental trajectories: the biological evolution of the species from animal to human, the cultural development of societies from ‘primitivism’ to ‘civilization’, and the maturation of the individual from baby to adult. Chapter 1 discusses Luria’s early engagement with psychoanalysis and his rejection of the Freudian death drive. Chapter 2 considers experiments Luria conducted in Soviet Central Asia during the period of the First Five Year Plan (1928-1932), exploring his engagement with Stalinism through an analysis of his attempt to trace a transition from ‘primitive’ to ‘civilized’ thought. Chapter 3 focuses on the contradictory figure of the revolutionary child, who occupied a symbolic position in Soviet culture between change and continuity. Finally, Chapter 4 turns to consider Luria’s work with people who survived brain injuries inflicted during the Second World War. It concludes by arguing that the war violently interrupted the progressive developmental trajectories Luria’s work had hitherto been structured around (which broadly agreed with orthodox Marxist-Leninist accounts of historical progress). It is at that moment, I contend, that he finally developed the ‘real, not sham’ Marxist psychology he had always sought to create.

Abstract M₃ derived mutants from two bread wheat varieties, namely, 'Giza 186' and 'Saha 93', were screened for resistance to the rust Ug99 at two locations in Njoro (Kenya) and in Tihama (Yemen). At Tihama, two mutants of 'Giza 186' (G-M2-2010-1-28 and G-M2-2010-41-52) and four mutants of 'Saha 93' (S-M2-2010-16-12, S-M2-2010-21-13, S-M2-2010-22-14 and S-M2-2010-27-15) were seen to be resistant at both seedling and adult stages while their parents were resistant at seedling stage and susceptible at adult stage. In Kenya, the resistance score of the mutants was slightly different from those obtained at Tihama. The mutants G-M2-2010-1-28 and G-M2-2010-41-52 were stable in their level of resistance recorded at Tihama, but only two mutants of 'Saha 93' (S-M2-2010-16-12 and S-M2-2010-27-15) were resistant at both growth stages. S-M2-2010-22-14 and S-M2-2010-21-13 were resistant at the seedling stage while susceptible at adult stage. Further selection on these mutants for yield potential, agronomic performance and yellow rust disease resistance, as well as on selected mutants of both 'Giza 186' and 'Saha 93', at M5-M6 stages identified superior mutant lines compared with the two parents 'Saha 93' and 'Giza 186'. These included the line Erra-010-GM2w-41-52-40, which ranked first in yield (3768 kg/ha), followed by the lines Erra-010-SwM2-16-12-19, Erra-010-GM2w-1-28-18 and Erra-010-SwM2-22-14-6. Moreover, it can be concluded that Erra-010-GM2w-41-52-40 and Erra-010-SwM2-16-12-19 are highly recommended for their resistance to stem and yellow rust diseases as well as for yield potential and preference by farmers. Therefore, efforts are in progress to increase their seeds for dissemination over a wide range of farmers and wheat areas where rust diseases are an epidemic, and for registration of the lines as improved mutant varieties.

Why summarize data? 174 Types of data 176 Quantitative data 178 Categorical data 180 Summarizing quantitative data 182 Calculation of mean, SD 184 Calculation of median, interquartile range 186 Geometric mean, harmonic mean, mode 188 Choosing a summary measure for quantitative data 190 Summarizing categorical data ...

OMFS on the ward 174 Trauma patients 176 Dento-alveolar patients 178 Head and neck oncology patients 180 Flap monitoring 184 The tracheostomy patient 186 Orthognathic patients 188 • Since OMFS is a small specialty with relatively few inpatients, it rarely has a dedicated ward and often shares with ENT or another small surgical specialty...

The early 1860s were tumultuous for the country and Bristow. Exempt from military service, he organized patriotic concerts and composed overtly nationalistic works, including Keep Step with the Music of Union and Columbus Overture (both 1861). He divorced Crane (1863) and married Louise Holder (1864), a widow with a young daughter, Nina. They moved to Morrisania (now in the Bronx) and added daughter Estelle Viola (1868). Bristow’s gigging activities diminished, but he commuted daily to Manhattan to teach and to perform with the two philharmonic societies, the Harmonic Society and the Mendelssohn Union (1867-1871), and in various churches. He wrote two oratorios: Praise to God (1861) and Daniel (1867).

In this chapter, we guide you through the final stages of completing your written work. Too often novice writers skip this vital stage of writing, thinking that their earlier drafts and revisions are sufficient. But experienced writers know that one last careful review is needed to assure the highest quality of work possible. By the end of this chapter, you will be able to do the following: ■Identify the different features of effective writing ■ Examine your written work from various perspectives ■ Take systematic steps to improve the quality of your writing ■ Finalize your written work so that it meets the expectations of your target audience As you work through the chapter, the Revising and Editing on Your Own tasks will guide you as you do the following: 18A Prepare to finalize your work 18B Check organization 18C Verify follow-through 18D Eliminate redundancy 18E Maximize conciseness 18F Check tense and voice 18G Correct common errors 18H Review science content 18I Reconfirm adherence to external guidelines 18J Check formatting and overall appearance By the time you consult this chapter, you have most likely revised and edited your work countless times. You have written separate sections, modified them, and then merged them, altering your writing throughout the process in an attempt to fit all the pieces together seamlessly. You have probably lost count of all the changes, large and small, that you have made (or been asked to make) in an effort to perfect your writing. Indeed, for most writers, more time is spent rewriting than writing. In this chapter, we ask you to look again at your written work, but this time as an entire document. Rather than write and rewrite section by section, we ask you to take a step back and reflect on your work as a whole. The goal is to achieve a coherent and fluent piece of writing that reads well from start to finish. To facilitate this process, we have created a checklist of nine items (listed below). We present each item and ask you to review your entire work from the perspective of this item, making changes and improvements as needed.

Abstract The possibility of describing baryons as chiral solitons is based on the observation that bound states can be formed when quarks interact with a chiral field. Friedberg and Lee had previously shown how bound states (called solitons) could be formed when quarks interact with scalar fields (see the reviews in [183, 184]). Chiral solitons were discovered when the scalar field was supplemented by a pion field, so as to implement chiral symmetry. This lead naturally to the calculation of soIitons using the Gell-Mann Levy model (section 11.3), also extended to include vector fields [169, 170, 171]. These, as well as solitons calculated with color dielectric models, are reviewed in [172). Quite similar solitons are obtained using the Nambu Jona-Lasinio model. They are reviewed in [185, 186].

Six images showcasing the diverse and impactful research undertaken by researchers at the School of Life Sciences. Each image is available to print in two sizes: •186 x 186 mm to create a 49-piece jigsaw puzzle •496 x 366 mm to create a 500-piece jigsaw puzzle An accompanying insert provides further information on each image.

An evaluation of the GEOTECH program developed by Jean Prevost of Princeton University for project PR-158-151. The program predicts static and transient, two and three dimensional soil behavior for general initial value problems. The integrated current complex computer program was also evaluated as developed by Applied Science Associates, Inc. for project PR-169-186. The programs predict (wave parameters and) the current velocities from an integration of a continental shelf circulation model, a wind-wave model, and a bottom boundary layer model.

This project evaluated using higher strength E8010 electrodes for root pass welding on modern X70 strength line pipe, as part of a solution to increase overall weld strength, to match or overmatch the actual strength of the line pipe. The operability, weldability, and productivity of E8010 root pass welds were evaluated by welder operability trials, weldability tests, and welding procedure qualification testing and reviews. A separate guidance report (Catalog PR-186-184507-R01) with recommendations and precautions for using an E8010 root pass was developed. There is a related webinar.

The original objectives of PRCI project PR 186-9506 were: (1) to establish a standard protocol for the collection of field data on SCC, (2) to instruct field engineers and technicians from the pipeline companies to insure that the protocol is used properly, and (3) to establish and maintain a data base for the compilation and analysis of the field data. The program was divided into three Tasks: Task 1 - Protocol Development, Task 2 - Protocol Training, and Task 3 - Data Base Development and Management. In the final scope of work, the PRCI Committee canceled Task 3 of the project.

A guideline to determine erosional velocity limits for liquid hydrocarbon transmission pipelines was developed based on a multi-analytical probabilistic approach that integrated results from two erosional models: DNV GL RP-O501 and University of Tulsa SPPS v5.3. The guideline uses a simple classification tree model as first approach to provide conservative erosional velocities with a minimum amount of input data. The guideline also presents an alternative probabilistic approach for determining erosional velocities when the classification tree cannot be used, e.g., when there is too much data uncertainty or the erosional velocity limit (which is highly conservative) is lower than the current or expected liquid velocity in the pipeline. The database table is available for download. The link is https://www.prci.org/Research/DesignMaterialsConstruction/DMCProjects/FLOW-1-2/142187/181060.aspx This report has a related webinar.

Continuous crack defects in corroded areas of pipe have been identified as potential cause failures and significant accidents. PRCI was tasked with providing a model to pipeline operators with detailed step-by-step procedures for evaluating the effect of interacting corrosion and crack threats on the integrity of pipelines. There are several existing assessment methodologies for different types of anomaly such as blunt type and crack-like type. The predicted failure pressure PFP results from existing assessment methods were compared and reviewed in this research. Finite Element Analysis (FEA) is a well-documented tool for the accurate assessment of crack-in-corrosion (CIC). Hence, FEA was used in this research to conduct the PFP assessment the results of which were verified with burst tests performed at the Kiefner laboratory as well as data from previous PRCI research: PR-186-113600, Grinding Limits for Repair of SCC on Operating Pipelines (see Ref 18). Additionally, data analytics methodology was used in conjunction with FEA results to develop a relationship between stress intensity and CIC geometry and material properties. The resultant data-analytics derived equation was subsequently verified against burst test results taken from Hosseini's 2010 publication (see Ref 3 and Ref 4).

Pipeline Integrity Management Programs (IMPs) are used by a vast majority of pipeline operators to ensure the integrity of the transmission infrastructure. However, there is a need for a systematic approach to managing the integrity of pipeline facilities. This Facility Integrity Management Program (FIMP) Guidelines document identifies a systematic approach that can be utilized. The document specifies the key elements, requirements, and end goals of a FIMP program.