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A synthesis of the Phaeogenini occurring in the Afrotropical region is provided. Three species are newly described: Centeterichneumon nambi Dal Pos, Diller & Di Giovanni sp. nov. from Uganda, Chauvinia ganota Claridge sp. nov. from Kenya, and Kibalus nonnaritae Dal Pos & Di Giovanni sp. nov. from Uganda. Heterischnus mfongosi Rousse & van Noort, 2013 is newly recorded for Kenya and Tanzania and the male of the species is diagnosed for the first time. Also, the female of Arearia oxymoron Rousse & van Noort, 2013 is diagnosed for the first time from one of the paratype localities. Lusius tenuissimus (Heinrich, 1938) and Chauvinia nyanga Rousse & van Noort, 2013 are recorded for the first time for Uganda and Kenya, respectively. In addition, new localities are given for Chauvinia nitida (Heinrich, 1938), Heterischnus olsoufieffi (Heinrich, 1938) and Hoplophaeogenes curticornis Heinrich, 1938. A new combination, Nesostenodontus mkomazi (Rousse & van Noort, 2013) comb. nov., is proposed to accommodate Heterischnus mkomazi. An updated key to the Afrotropical genera of Phaeogenini and keys to the Afrotropical species of the genera Arearia Seyrig, Centeterichneumon Heinrich, Chauvinia Heinrich, Heterischnus Heinrich, Hoplophaeogenes Heinrich, Kibalus Rousse, van Noort & Diller, and Lusius Tosquinet are provided. Updated online Lucid keys to genera and species are available from http://www.waspweb.org.
Rotföhrenwälder werden bereits seit Beginn der vegetationskundlichen Forschung immer wieder untersucht, eine befriedigende soziologische Klassifikation wurde jedoch bis heute kaum erreicht. Die vorliegende Arbeit beinhaltet eine syntaxonomische Neubearbeitung der Rotföhrenwälder in Österreich. 1372 Einzelaufnahmen aus Österreich und den angrenzenden Gebieten Deutschlands, Tschechiens und Italiens wurden dazu verarbeitet. Eine TWINSPAN-Klassifikation des Gesamtdatensatzes führte zu folgenden Ergebnissen:
Es werden auch weiterhin drei Haupttypen von Rotföhrenwäldern unterschieden, nämlich kontinentale inneralpische Hauhechel-Rotföhrenwälder (Ononido-Pinion), Schneeheide-Rotföhrenwälder über Karbonatgestein (Erico-Pinion) sowie bodensaure Moos-Rotföhrenwälder (Dicrano-Pinion). Aufgrund der floristischen Verwandtschaft von Erico-Pinion und Ononido-Pinion (früher Klasse Pulsatillo-Pinetea) werden nur noch zwei Klassen unterschieden (Erico-Pinetea, Vaccinio-Piceetea). Innerhalb der drei Verbände lassen sich sechs Assoziationen unterscheiden, wobei die Karbonat-Schneeheide-Rotföhrenwälder wegen des Fehlens von guten Charakterarten in nur einer Assoziation Erico-Pinetum sylvestris dargestellt werden; die Assoziation werden in acht Subassoziationen.
Sämtliche Syntaxa werden ausführlich beschrieben und nomenklatorisch revidiert. Eine synoptische Tabelle sowie Bestimmungsschlüssel für die Assoziationen und Subassoziationen sind beigefügt.
The firefly species described by Carl Linnaeus in 1758 and 1767 (Coleoptera: Lampyridae) were checked to determine the actual dates of publication. Nine out of twelve species were originally described in 1758 and not in 1767 as published in the majority of firefly literature. Lampyris hespera Linnaeus, 1767 as a junior synonym of Aspisoma lampyris (Linnaeus, 1758) is established.
ZooBank registration. urn:lsid:zoobank.org:pub:C04B88B3-DDBF-4878-B43E-71642AFC8AAA
Nomenclatural changes are proposed and herein implemented for several beetles in the family Lampyridae (Coleoptera). Corrections of authorship are proposed for Psilocladus marginatus (Lewis), Psilocladus ruficollis (Kiesenwetter), and Dryptelytra fulvipennis E. Olivier. Dates of publication are corrected for Magnoculus marginatus (Guérin-Méneville), Psilocladus calvus Kirsch, Psilocladus peruvianus Kirsch, and Vesta vitellinothorax (Perty) a synonym of Vesta thoracica (G. A. Olivier). "Dodacles grandjeani E. Olivier" is found to be a nomen nudum, which actually refers to Dryptelytra grandjeani (E. Olivier).
Diospyros L. is a large genus of flowering plants predominantly distributed in the tropics. It comprises over 700 species globally and around 300 are believed to occur in South-East Asia. Many species are economically important and exploited for the production of ebony wood and persimmons, yet taxonomic information on the genus is incomplete and inconsistent due to its morphological and nomenclatural complexity. Revisions of Diospyros in continental and insular South-East Asia were conducted independently by different authors, occasionally with different names used for the same species, or different species being given the same name in different countries. During our ongoing study of the genus Diospyros in Indochina (Cambodia, Laos, Thailand and Vietnam), we identified several such instances. Here, we clarify the most commonly misidentified species, including 1) D. apiculata Hiern, D. strigosa Hemsl. and D. tamiriensis Lecomte; 2) D. bejaudii Lecomte and D. retrofracta Bakh.; 3) D. dictyoneura Hiern and D. hasseltii Zoll.; 4) D. borneensis Hiern and D. fecunda H.R.Fletcher. Lectotypifications are also made for D. brachiata King & Gamble var. lanceolata H.R.Fletcher, D. fecunda, D. similis Craib and D. strigosa.
Nomenclatural changes are proposed and herein implemented for several firefly taxa in the family Lampyridae (Coleoptera). Dates of publication are corrected for Lampyris brutia Costa, 1882, Diaphanes costulatus (Kolbe, 1897), Diaphanes fraternus (Kolbe, 1897), Diaphanes kilimanus (Kolbe, 1897), Diaphanes breviusculus (Kolbe, 1897) (a junior synonym of Diaphanes notaticollis E. Olivier), Diaphanes piligerus (Kolbe, 1897), Diaphanes planitianus (Kolbe, 1897), Diaphanes volkensi (Kolbe, 1897) (a junior synonym of Diaphanes rugicollis (Fairmaire)), Diaphanes signaticollis Pic, 1951, Diaphanes ugandanus (Kolbe, 1897), Pyrocoelia iwasakii (Matsumura, 1918), Pyrocoelia tappana (Matsumura, 1918), Lamprocera latreillei (Kirby, 1818), Tenaspis semifusca (Gorham, 1881), Lucernuta savignii (Kirby, 1818), Aspisoma candellarium Reiche, 1845, Aspisoma roseiventer (E. Olivier, 1888), Pyractomena Melsheimer, 1846, Pyractomena flavocincta LeConte, 1852 (a junior synonym of Pyractomena angulata (Say)), Pyractomena angustata LeConte, 1852, and Pyractomena lucifera Melsheimer, 1846.
A new genus and new species of potamid crab, Gurumon gurumayum gen. et sp. nov., are described from the Arunachal Pradesh State of northeastern India. Gurumon gen. nov. has affinities with Abormon Mitra, Pati & Ng, 2021, Pararanguna Dai & Chen, 1985, and some species of Potamiscus Alcock, 1909, but the new genus can easily be differentiated from them mainly by its low external orbital angle, the relatively stouter exopod of the third maxilliped, and the relatively broader male pleonal somite 6. Their male first gonopods are also different from each other. Counting Gurumon gurumayum gen. et sp. nov., India is currently known for ten genera and 24 species of potamiscine freshwater crabs, and Arunachal Pradesh for eight genera and 11 species of these crabs. The current nomenclatural problems with Potamiscus are also discussed.
Die in Europa vorkommenden Sommergrünen Brombeeren (Rubus subgenus Rubus sectio Rubus subsectio Rubus) werden in vier Serien untergliedert: Series Nessenses H. E. Weber ser. nov. (Typus: Rubus nessensis Hall), Series Rubus ser. nov. (Typus: Rubus fruticosus L. = R. plicatus Weihe & Nees), Series Canadenses (L.H. Bailey) H. E.Weber ser. nov. (Typus: Rubus canadensis L.) und Series Alleghenienses (L. H. Bailey) H. E. Weber ser. nov. (Typus: Rubus allegheniensis Porter). Die Series Rubus wird in zwei Subserien unterteilt: Subseries Rubus (Typus: Rubus fruticosus L.) subser. nov. und Subseries Subrhamnifolii (Focke) H. E. Weber subser. nov. (Typus: Rubus montanus Wirtgen = R. senticosus Koehler ex Weihe). Die Taxonomie und Nomenklatur dieser infragenerischen Taxa sind behandelt.
Type specimens of Oedionychina Chapuis, 1875 described by Fabricius from the Kiel collection are examined and illustrated. Lectotypes are designated for the following species: Chrysomela albicollis Fabricius, 1787; Chrysomela nobilitata Fabricius, 1787; Chrysomela quadrifasciata Fabricius, 1787; Chrysomela quadriguttata Fabricius, 1781; Galleruca atomaria Fabricius, 1801; Galleruca decemguttata Fabricius, 1801; Galleruca fasciata Fabricius, 1798; Galleruca humeralis Fabricius, 1801; Galleruca lunata Fabricius, 1801; Galleruca nitida Fabricius, 1801; Galleruca obsoleta Fabricius, 1801; Galleruca petaurista Fabricius, 1801; Galleruca quadrinotata Fabricius, 1798; Galleruca sellata Fabricius, 1801. The species status is restored for Chrysomela quadriguttata Fabricius, 1781 and Alagoasa areata (Germar, 1824) comb. nov. The following new combinations are proposed: Phenrica quadriguttata (Fabricius, 1781), Asphaera nitida (Fabricius, 1801), Phenrica obsoleta (Fabricius, 1801), Alagoasa areata areata (Germar, 1824), Alagoasa areata decempunctata (Latreille, 1833), Alagoasa areata escuintla Bechyné, 1955, Alagoasa areata macromela Bechyné, 1958, Alagoasa areata praecessa Bechyné, 1959, Alagoasa areata recuperata Bechyné, 1959; all comb. nov. New placement: Galleruca avicenniae Fabricius, 1792 is removed from Alticini and placed in Galerucini incertae sedis; Galleruca trifasciata Fabricius, 1801 is removed from Chrysomelidae and placed in genus Ora Clark, 1865 (Scirtidae Fleming, 1821).
Initial analyses of DNA barcode data from Norwegian populations attributed to the water mite Lebertia porosa Thor, 1900 revealed large genetic divergence and potentially cryptic species-level diversity. We used one mitochondrial (COI) and two nuclear markers (18S and 28S) as well as comparative morphological analysis to redefine Lebertia porosa, and to further investigate the species boundaries of Norwegian populations of its close relatives. Our results show that Lebertia porosa, as currently defined, consists of multiple species that can be separated by molecular and morphological characteristics. Although we document the presence of the endosymbiotic bacteria Wolbachia in two out of eight screened genetic lineages, we find no evidence of intraspecific genetic divergence caused by Wolbachia infections. The assignment of one of the genetic lineages to the nominal species could be made through morphological comparisons of specimens from the L. porosa type locality with the syntypes of L. obscura Thor, 1900. Thus, the diagnosis of L. porosa is emended and a neotype is defined. Two of the remaining genetic lineages could be assigned to existing names previously regarded as junior synonyms of L. porosa, namely L. obscura (lectotype defined here) and L. gibbosa Lundblad, 1926, which are both redescribed. The outstanding genetic lineages are unnamed, but from our work we conclude that the taxa Lebertia porosa britannica Thor, 1906, L. porosa dorsalis Thor, 1906, and L. porosa italica Thor, 1906 are nomina dubia that cannot be considered junior synonyms of L. porosa as proposed by K. Viets (1956). We also consider L. vigintimaculata Thor, 1900 a nomen dubium, probably identical to L. obscura.