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Comb. Nov. (comb. + nov)
Selected AbstractsA new look at Kedarnatha P.K.Mukh.FEDDES REPERTORIUM, Issue 3-4 2004& Constance (Umbelliferae) A field investigation of Kedarnatha sanctuarii P.K.Mukh. & Constance in its locus classicus and subsequent carpological analysis show the identity of the species and Trachydium garhwalicum H.Wolff, described from the same region of Tehri Garhwal (Uttaranchal, India). As this species differs in some essential characters from Trachydium, Trachyspermum, Chamaesium, Chamaesciadium, Schulzia, the genus Kedarnatha must be retained, and IndoschulziaPimenov & Kljuykov is to be considered as its latter synonym. A new nomenclatural combination, K. garhwalica (H.Wolff) Pimenov & Kljuykov comb. nov. have been proposed to name the type species. Cortia oreomyrrhiformisFarille & Malla and Trachydium hamelianumFarille & Malla are transferred to Kedarnatha [K. oreomyrrhiformis (Farille & Malla) Pimenov & Kljuykov comb. nov. and K. hameliana (Farille & Malla) Pimenov & Kljuykov comb. nov.]. Two new additional species, K. meifoliaPimenov & Kljuykov sp. nova from India and K. vaginataPimenov & Kljuykov sp. nova from Burma, are described. As a result, the genus contains five species, distributed from Himachal Pradesh (India) to Burma. (© 2004 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) Eine Neufassung von KedarnathaP.K.Mukh. & Constance (Umbelliferae) Eine Feldstudie an Kedarnatha sanctuarii P.K.Mukh. & Constance am locus classicus und die anschließende karpologische Analyse erbrachten die Identität dieser Art mit TrachydiumgarhwalicumH.Wolff, das ebenfalls aus der Region Tehri Garhwal (Uttaranchal, Indien) beschrieben wurde. Da diese Art sich in einigen wesentlichen Merkmalen von Trachydium, Trachyspermum, Chamaesium, Chamaesciadium und Schulzia unterscheidet, muss die Gattung Kedarantha beibehalten werden. Die Gattung IndoschulziaPimenov & Kljuykov ist somit ein späteres Synonym. Die neue nomenklatorische Kombination, K. garhwalica(H.Wolff) Pimenov & Kljuykov comb. nov. wird als Typusart vorgeschlagen. Cortia oreomyrrhiformisFarille & Malla und Trachydium hamelianumFarille & Malla werden in die Gattung Kedarnatha überführt [K. oreomyrrhiformis (Farille & Malla) Pimenov & Kljuykov comb. nov. und K. hameliana(Farille & Malla) Pimenov & Kljuykov comb. nov.]. Zwei weitere Arten werden neu beschrieben: K. meifoliaPimenov & Kljuykov sp. nova aus Indien und K. vaginataPimenov & Kljuykov sp. nova aus Burma. Damit umfasst die Gattung fünf Arten, die von Himachal Pradesh (Indien) bis Burma verbreitet sind. [source] Hygrocybe rigelliae (Velen.) E.Ludwig comb. nov. und Hygrocybe roseascens sp. nova, eine nahestehende Art aus der Untergattung Cuphophyllus (Agaricales, Hygrophoraceae, Tricholomataceae),FEDDES REPERTORIUM, Issue 1-2 2004E. Ludwig Die Literatur zu Hygrophorus rigelliaeVelen. wird diskutiert, die Art wird zu Hygrocybe umkombiniert. Eine eng verwandte, neue Spezies , Hygrocybe roseascens , mit (nach Entwässerung) auffallenden rosa Tönen auf dem teilweise schuppigen Hut, 1,4-sporigen Basidien und kleinen, (sub)globosen Sporen wird beschrieben. Die Unterschiede zu anderen Arten werden diskutiert. Eine Tafel mit Habituszeichnungen und den mikroskopischen Merkmalen wird beigegeben. Eine Farbtafel der neuen Art wird im Band III meines Pilzkompendiums veröffentlicht werden, steht aber bereits jetzt im Internet unter http://www.pabb-web.de ("Pilzbilder") zur Verfügung. (© 2004 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) Hygrocybe rigelliae (Velen.) E.Ludwig comb. nov. and Hygrocybe roseascens sp. nova, a tiny related species from the subspecies Cuphophyllus (Agaricales, Hygrophoraceae, Tricholomataceae) The literature on Hygrophorus rigelliaeVelen. is studied and the species is transferred to Hygrocybe. A related tiny wax gill, Hygrocybe roseascens, likewise belonging to subgenus Cuphophyllus is described as a new one. It is characterised by partly squamulose pileus with conspicuously pinkish hues when dry, 1,4-spored basidia and small, (sub)globose spores. The differences between the new species and similar taxa are discussed. A plate with drawings of its habit and microscopic features is given. A coloured plate will be published in Vol. III of my "Pilzkompendium" but is already available at http://www.pabb-web.de ("Pilzbilder"). [source] Revision of the subgenus Wichuraea (M.Roemer) Baker of BomareaMirbel (Alstroemeriaceae)FEDDES REPERTORIUM, Issue 3-4 2003A. Hofreiter The subgenus Wichuraea of Bomarea (Alstroemeriaceae) was last revised by Baker (1888) as part of his revision of the genus Bomarea. Since then the number of validly published names has increased from seven to recently 50, indicating an urgent need for further revision. Extensive field studies in Peru (A. Hofreiter) and depth investigation of herbarium material have led to new insights into the subgenus. As a result a number of Bomarea species formerly placed under Wichuraea are relocated to another subgenus, a large number of names are placed into synonymy and one species, Bomarea vargasiiHofreiter sp. nova, and one subspecies, Bomareaandimarcana subsp. andimarcanaHofreiter comb. nov. und B. andimarcana subsp. densifoliaHofreiter comb. nov., are newly described. A key to the 16 species is given. Field studies revealed that even taxonomically valuable characters can be remarkably variable, even within a single population. This has demonstrably resulted in a high degree of taxa instability in the group. The typical habit and its variability, preferred habitats and the geographical distribution of each species is presented. Revision der Untergattung Wichuraea (M.Roemer) Baker der Gattung BomareaMirbel (Alstroemeriaceae) Die Untergattung Wichuraea wurde zuletzt von Baker (1888) als Teil der Revision von Bomarea (Alstroemeriaceae) revidiert. Seit dieser Zeit hat die Zahl gültig veröffentlichter Namen von sieben auf 50 zugenommen. Eine Revision erscheint deshalb dringend erforderlich. Die Grundlage für diese Arbeit wurde bei ausführlichen Feldstudien in Peru (A. Hofreiter) und umfangreichen Analysen von Herbarmaterial gelegt. Durch die vorliegende Revision wird die Anzahl der Arten auf 16 reduziert. Ein Teil der bisher zu Wichuraea gestellten Arten gehört zu einer anderen Untergattung, ein weiterer Teil der Namen muss in die Synonymie verwiesen werden. Eine Art, Bomarea vargasiiHofreiter sp. nova, und eine Unterart, Bomarea andimarcana subsp. andimarcanaHofreiter comb. nov. und B. andimarcana subsp. densifoliaHofreiter comb. nov., werden neu beschrieben. Feldstudien ergaben eine hohe Variabilität der Merkmale, selbst innerhalb einer Population. Dies hat z. B. allein bei Bomarea dulcis zu 14 Synonymen geführt. Für jede Art werden die typische Wuchsform und deren Variabilität, die bevorzugten Standorte und die geographische Verbreitung dargestellt. [source] NOTES ON SOME FORSIUS, TYPES OF ASIAN SAWFLIES (HYMENOPTERA: TENTHREDINOIDEA) WITH DESCRIPTION OF A NEW SPECIES,INSECT SCIENCE, Issue 4 2000WEI Mei-cai Abstract, Some types of E. Asian sawfly species described by Forsius in 1931 are examined. One new species is described based on the paratypes of a species described by Forsius: Eutomostethus forsiusi sp. nov. Three new combinations are provided: Nesoselandria annamitica (Forsius 1931) comb. nov., Birmindia gracilis (Forsius 1931) comb. nov. and Eutomostethus sikkimensis (Forsius 1931), comb. nov., two synonyms are proposed: Birmindia gracilis (Forsius 1931) =Birmindia albipes Malaise 1947, syn. nov. and Indotaxonus tricoloricornis (Konow, 1898) =Conaspidia dubiosa Forsius 1931, syn. nov. [source] TAXONOMIC STUDY OF TWO NEW GENERA OF FUSIFORM GREEN FLAGELLATES, TABRIS GEN.JOURNAL OF PHYCOLOGY, Issue 2 2009On the basis of LM, we isolated strains of two species of fusiform green flagellates that could be assigned to former Chlorogonium (Cg.) Ehrenb. One species, "Cg."heimii Bourr., lacked a pyrenoid in its vegetative cells and required organic compounds for growth. The other was similar to Cg. elongatum (P. A. Dang.) Francé and "Cg."acus Nayal, but with slightly smaller vegetative cells. Their molecular phylogeny was also studied based on combined 18S rRNA, RUBISCO LSU (rbcL), and P700 chl a -apoprotein A2 (psaB) gene sequences. Both species were separated from Chlorogonium emend., Gungnir Nakada and Rusalka Nakada, which were formerly assigned to Chlorogonium. They were accordingly assigned to new genera, Tabris Nakada gen. nov. and Hamakko (Hk.) Nakada gen. nov. as T. heimii (Bourr.) Nakada comb. nov. and Hk. caudatus Nakada sp. nov., respectively. Tabris is differentiated from other genera of fusiform green flagellates by its vegetative cells, which only have two apical contractile vacuoles and lack a pyrenoid in the chloroplast. Hamakko, on the other hand, is distinguishable by the fact that its pyrenoids in vegetative cells are penetrated by flattened thylakoid lamellae. [source] GENE SEQUENCE DIVERSITY AND THE PHYLOGENETIC POSITION OF ALGAE ASSIGNED TO THE GENERA PHAEOPHILA AND OCHLOCHAETE (ULVOPHYCEAE, CHLOROPHYTA),JOURNAL OF PHYCOLOGY, Issue 4 2004Charles J. O'Kelly The phylogenetic position of microfilamentous marine green algae assigned to the species Phaeophila dendroides, Entocladia tenuis (Phaeophila tenuis, and Ochlochaete hystrix was examined through phylogenetic analyses of nuclear-encoded small subunit rDNA and chloroplast-encoded tufA gene sequences. These analyses placed the P. dendroides strains within the Ulvophyceae, at the base of a clade that contains representatives of the families Ulvaceae, Ulvellaceae, and the species Bolbocoleon piliferum, supporting an earlier hypothesis that P. dendroides constitutes a distinct lineage. Substantial divergence in both nuclear and plastid DNA sequences exists among strains of P. dendroides from different geographic localities, but these isolated strains are morphologically indistinguishable. The lineage may have an accelerated rate of gene sequence evolution relative to other microfilamentous marine green algae. Entocladia tenuis and O. hystrix are placed neither in the P. dendroides clade nor in the Ulvellaceae as previous taxonomic schemes predicted but instead form a new clade or clades at the base of the Ulvaceae. Ruthnielsenia gen. nov. is proposed to accommodate Kylin's species, which cannot be placed in Entocladia (=Acrochaete), Phaeophila, or Ochlochaete. Ruthnielsenia tenuis (Kylin) comb. nov., previously known only from Atlantic coasts, is reported for the first time from the Pacific coast of North America (San Juan Island, WA, USA). Isolates of R. tenuis from the Atlantic and Pacific coasts of North America have identical small subunit rDNA and tufA gene sequences. [source] PARASITISM OF PHOTOSYNTHETIC DINOFLAGELLATES BY THREE STRAINS OF AMOEBOPHRYA (DINOPHYTA): PARASITE SURVIVAL, INFECTIVITY, GENERATION TIME, AND HOST SPECIFICITY1JOURNAL OF PHYCOLOGY, Issue 3 2002D. Wayne Coats Amoebophrya ceratii (Koeppen) Cachon is an obligate parasite of dinoflagellates and may represent a species complex. However, little is known about the biology and host range of different strains of Amoebophrya Cachon. Here, we determined parasite generation time and dinospore infectivity, survival, and ability to infect nonprimary hosts for strains of Amoebophrya from Akashiwo sanguinea (Hirasaka) G. Hansen et Moestrup, Gymnodinium instriatum (Freudenthal et Lee) Coats comb. nov., and Karlodinium micrum (Leadbeater et Dodge) J. Larsen. Akashiwo sanguinea was readily infected, with parasite prevalence reaching 100% in dinospore:host inoculations above a 10:1 ratio. Parasitism also approached 100% in G. instriatum, but only when inoculations exceeded a 40:1 ratio. Karlodinium micrum appeared partially resistant to infection, as parasite prevalence saturated at 92%. Parasite generation time differed markedly among Amoebophrya strains. Survival and infectivity of dinospores decreased over time, with strains from G. instriatum and A. sanguinea unable to initiate infections after 2 and 5 days, respectively. By contrast, dinospores from Amoebophrya parasitizing K. micrum remained infective for up to 11 days. Akashiwo sanguinea and G. instriatum were not infected when exposed to dinospores from nonprimary Amoebophrya strains. Karlodinium micrum, however, was attacked by dinospores of Amoebophrya from the other two host species, but infections failed to reach maturity. Observed differences in host,parasite biology support the hypothesis that Amoebophrya ceratii represents a complex of host-specific species. Results also suggest that Amoebophrya strains have evolved somewhat divergent survival strategies that may encompass sexuality, heterotrophy during the "free-living" dinospore stage, and dormancy. [source] Lithocarpuslongzhouicus comb. nov. (Fagaceae) from China: based on morphological and molecular dataNORDIC JOURNAL OF BOTANY, Issue 2 2009Li Chen The taxonomic position of Castanopsis longzhouica C. C. Huang & Y. T. Chang has been controversial. Various authors included it in Castanopsis (D. Don) Spach, or Lithocarpus Bl. based on morphology, palynology and wood anatomy. In order to investigate this issue, sequences of nuclear ITS and the chloroplast genes matK and trnL-F of C. longzhouica were analyzed together with 72 representatives of 7 genera within Fagaceae. As for species of Lithocarpus, there were a 1-bp insertion and two unique 3-bp deletions from ITS2 of C. longzhouica distinguishing it from Castanopsis. The phylogenetic analyses on the separate ITS data and the joint data (ITS+matK+ trnL-F) strongly supported a derived position of C. longzhouica within a clade consisting of members of Lithocarpus. The result is consistent with previous suggestions based on wood anatomy, suggesting that C. longzhouica should be transferred to Lithocarpus. In addition, the shallow cup-shaped, loose incoherent-scale and indehiscent cupule and the concave scar of C. longzhouica suggests a close relationship to species of Lithocarpus. Based on these data, the new combination Lithocarpus longzhouicus (C. C. Huang & Y. T. Chang) J. Q. Li & L. Chen is proposed. [source] New species, combinations and records of Hypecoum, Dactylicapnos and Corydalis (Fumariaceae) in ChinaNORDIC JOURNAL OF BOTANY, Issue 1-2 2007Magnus Lidén Five new species of Fumariaceae from the Flora of China area, viz. Hypecoum zhukanum (sect. Leptocarpae), Dactylicapnos gaoligongshanensis (sect. Dactylicapnos), D. leiosperma (sect. Minicalcara), Corydalis laxiflora and C. tianshanica (subgenus Cremnocapnos sect. Strictae), are described. Dactylicapnos burmanica comb. nov., D. grandifoliolata and D. macrocapnos are reported from China for the first time, and the new combinations Dactylicapnos ventii (basion.: Dicentra ventii T. C. Khanh), D. schneideri (basion.: Dicentra schneideri Fedde) and D. burmanica (basion.: Dicentra burmanica K. R. Stern) are validated. Novelties in Corydalis subgenus Corydalis will be published separately. [source] Ultrastructure and large subunit rDNA sequences of Lepidodinium viride reveal a close relationship to Lepidodinium chlorophorum comb. nov. (=Gymnodinium chlorophorum)PHYCOLOGICAL RESEARCH, Issue 1 2007Gert Hansen SUMMARY The ultrastructure of the green dinoflagellate Lepididodinium viride M. M. Watanabe, S. Suda, I. Inouye Sawaguchi et Chihara was studied in detail. The nuclear envelope possessed numerous chambers each furnished with a nuclear pore, a similar arrangement to that found in other gymnodinioids. The flagellar apparatus was essentially identical to Gymnodinium chlorophorum Elbrächter et Schnepf, a species also containing chloroplasts of chlorophyte origin. Of particular interest was the connection of the flagellar apparatus to the nuclear envelope by means of both a fiber and a microtubular extension of the R3 flagellar root. This feature has not been found in other dinoflagellates and suggests a close relationship between these two species. This was confirmed by phylogenetic analysis based on partial sequences of the large subunit (LSU) rDNA gene of L. viride, G. chlorophorum and 16 other unarmoured dinoflagellates, including both the ,type' culture and a new Tasmanian isolate of G. chlorophorum. These two isolates had identical sequences and differed from L. viride by only 3.75% of their partial LSU sequences, considerably less than the difference between other Gymnodinium species. Therefore, based on ultrastructure, pigments and partial LSU rDNA sequences, the genus Lepidodinium was emended to encompass L. chlorophorum comb. nov. [source] Revision of the genus Menippus Clark in Australia (Coleoptera: Chrysomelidae: Galerucinae)AUSTRALIAN JOURNAL OF ENTOMOLOGY, Issue 2 2008Chris A M Reid Abstract, The genus Menippus is revised for Australia, with six species, three of which are new: M. cynicus Clark, M. darcyisp. nov., M. ewanisp. nov., M. fugitivus (Lea), M. sufisp. nov. and M. yulensis (Jacoby) comb. nov. (from Diorhabda Weise). Menippus yulensis was described from New Guinea. This species and M. darcyi were formerly confused in Australia with M. fugitivus, which is now considered endemic to Lord Howe Island. The species formerly considered M. fugitivus and protected under the Threatened Species Conservation Act, New South Wales, is now named M. darcyi. A key is provided for the Australian species of Menippus and a lectotype designated for M. yulensis. The composition of Menippus is discussed and three non-Australian species are transferred to this genus: M. inconspicua (Jacoby) comb. nov. (from Diorhabda Weise); M. laterimaculata (Jacoby) comb. nov.; and M. marginipennis (Jacoby) comb. nov. (from Galerucella Crotch). A revised checklist of Menippus species is given. The recorded foodplants of Menippus are species of Celtis (Ulmaceae). [source] Mesozoic Evaniidae (Insecta: Hymenoptera) in Spanish Amber: Reanalysis of the Phylogeny of the EvanioideaACTA GEOLOGICA SINICA (ENGLISH EDITION), Issue 4 2010Enrique PEÑALVER Abstract: One new genus and five new species of the family Evaniidae are described from the Early Cretaceous (Albian) Spanish amber of Peñacerrada-I (Province of Burgos), San Just and Arroyo de la Pascueta (both in the Province of Teruel): Cretevania alonsoi sp. nov., C. montoyai sp. nov., C. alcalai sp. no v., C. rubusensis sp. nov., and Iberoevania roblesi gen. and sp. nov. Taxonomic changes include Cretevania pristina (Zhang and Zhang, 2000) comb. nov., C. exquisita (Zhang, Rasnitsyn, Wang and Zhang, 2007) comb. nov., C. vesca (Zhang, Rasnitsyn, Wang and Zhang, 2007) comb. nov., and C. cyrtocerca (Deans, 2004) comb. nov., as a result of the reinterpretation of the genera Procretevania and Eovernevania. The new well preserved specimens of the genus Cretevania, together with the characters shown by the type specimens of the synonymized genera, give new information about their anatomical characters of taxonomical importance, and the genus Cretevania Rasnitsyn, 1975 is re-diagnosed. The holotypes of the Russian species in amber have been revised. A cladistic analysis of fossil and extant groups of the superfamily Evanioidea is included. Cretevania had a wide palaeogeographic distribution, with the highest diversity known from Spain. The 13 known Cretevania species show a high interspecific variation mainly in wing characteristics, and a wide range of body and wing size. [source] Rotafolia songziensis gen. et comb. nov., a sphenopsid from the Late Devonian of Hubei, ChinaBOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 1 2005DE-MING WANG A sphenopsid from the Upper Devonian (Famennian) Xiejingsi Formation, south-western Hubei Province, China, previously named as various species in Sphenophyllum, Hamatophyton, Bowmanites and Sphenophyllostachys, is now reinvestigated and assigned to a new taxon, Rotafolia songziensis gen. et comb. nov. Its ribbed axes are anisotomous and possess slightly expanded nodes. Lateral axes are inserted at nodes on main axes. Whorls of much divided vegetative leaves are attached at nearly right angles to nodes of basal axes, and at acute angles to nodes of terminal axes. There are six leaves per whorl. The terminal strobilus includes a central axis and verticils of fertile units. Each fertile unit consists of a bract and numerous sporangia. The margin of the elongate-cuneate bract bears a distal and many lateral elongate segments. Clusters of elongate sporangia are abaxially attached to the base of the bract at the same level. The axis has an actinostele, composed of a three-ribbed, exarch primary xylem and radial secondary xylem. Although Rotafolia songziensis closely resembles Hamatophyton verticillatum in axis character, leaf morphology and primary xylem type, they are quite different in strobilar structure. Taxonomically, Rotafolia is placed in the order Sphenophyllales by three well-defined characters: 1) whorled appendages; 2) ribbed protosteles; 3) exarch primary xylem maturation. © 2005 The Linnean Society of London, Botanical Journal of the Linnean Society, 2005, 148, 21,37. [source] Phylogeny, evolution and systematics of Moehringia (Caryophyllaceae) as inferred from molecular and morphological data: a case of homology reassessmentCLADISTICS, Issue 4 2007Simone Fior The phylogeny of the genus Moehringia (Caryophyllaceae) is investigated by means of analyzing nuclear (ITS) and chloroplast (matK) sequence data in combination with morphological characters. Parsimony and Bayesian methods yield consistent results, and a common phylogenetic signal is shared by the nuclear and chloroplast data. Morphological characters are affected by a high level of homoplasy, but they provide valuable information when analyzed in combination with the molecular data. Moehringia is paraphyletic to Arenaria with the Iberian taxa belonging to Moehringia sect. Pseudomoehringia McNeill more closely related to Arenaria. This cladistic evidence led us to reinterpret the homology of the key character used in most, if not all, floras, to separate Moehringia from Arenaria, i.e., the seed strophiole. Thorough anatomical studies were carried out to elucidate the ontogeny of the strophiole, which proved different in Moehringia s. str. and the Iberian taxa. Within Moehringia s. str., two sister clades are recognized (i.e., Moehringia sect. Moehringia and M. sect. Latifoliae much as recognized by McNeill, whereas representatives of M. sect. Diversifoliae are assigned to either groups), and biogeographical events related to the Würm glaciation are considered to play a fundamental role in the evolution and present distribution of the genus. The variation of the strophiole is regarded as adaptability to ecological conditions and dispersal agents. We also propose two new combinations and two replacement names: Arenaria glochidisperma (J.M. Mont.) Fior et P.O. Karis, comb. nov., Arenaria tejedensis (Willk.) Fior et P.O. Karis, comb. nov., Arenaria suffruticosa Fior et P.O. Karis, nom. nov. for Moehringia intricata Willk., and Arenaria funiculata Fior et P.O. Karis, nom. nov. for Moehringia fontqueri Pau. © The Willi Hennig Society 2007. [source] | |||||||||||||||||||||||||