Phylogenetic overview of the Boletineae

The generic and sub-generic relationships in the Boletineae (Boletales) were studied using nuclear large subunit (nuc-lsu), translation elongation factor 1-alpha (tef1), and DNA directed RNA polymerase largest subunit (RPB1). The Boletineae, with the exclusion of Hydnomerulius pinastri, was strongly supported and the status of the families Boletaceae and Paxillaceae is discussed. Members of the genus Boletus are found throughout the phylogeny, with the majority not closely related to the type species, Boletus edulis. Many of the traditional, morphologically defined genera are not supported as monophyletic and additional sampling and taxonomic revisions are needed. The majority of the Boletineae are confirmed or putatively ectomycorrhizal (ECM), but two putatively mycoparasitic lineages (one lineage of Buchwaldoboletus lignicola and Chalciporus piperatus and the second Pseudoboletus parasiticus) are strongly supported.     

Prepatterning the Drosophila notum: the three genes of the iroquois complex play intrinsically distinct roles

The Drosophila thorax exhibits 11 pairs of large sensory organs (macrochaetes) identified by their unique position. Remarkably precise, this pattern provides an excellent model system to study the genetic basis of pattern formation. In imaginal wing discs, the achaete-scute proneural genes are expressed in clusters of cells that prefigure the positions of each macrochaete. The activities of prepatterning genes provide positional cues controlling this expression pattern. The three homeobox genes clustered in the iroquois complex (araucan, caupolican and mirror) are such prepattern genes. mirror is generally characterized as performing functions predominantly different from the other iroquois genes. Conversely, araucan and caupolican are described in previous studies as performing redundant functions in most if not all processes in which they are involved. We have addressed the question of the specific role of each iroquois gene in the prepattern of the notum and we clearly demonstrate that they are intrinsically different in their contribution to this process: caupolican and mirror, but not araucan, are required for the neural patterning of the lateral notum. However, when caupolican and/or mirror expression is reduced, araucan loss of function has an effect on thoracic bristles development. Moreover, the overexpression of araucan is able to rescue caupolican loss of function. We conclude that, although retaining some common functionalities, the Drosophila iroquois genes are in the process of diversification. In addition, caupolican and mirror are required for stripe expression and, therefore, to specify the muscular attachment sites prepattern. Thus, caupolican and mirror may act as common prepattern genes for all structures in the lateral notum.     

A contribution to the knowledge of the weevils of the subgenus Nubidanus Rtt., allied to Otiorhynchus impexus Schh. (Coleoptera, Curculionidae)

Results of the investigation of the subgenus Nubidanus Rtt. (sensu Reitter) of the genus Otiorhynchus are reported. The impexus species-group of the subgenus Nubidanus comprises 5 species from the Caucasus: O. impexus, O. juvenilis, O. poricollis, O. jarpachlinus, and O. hajastani. Morphological diagnoses and detailed distribution patterns of the species are given. Lectotypes of O. poricollis and O. jarpachlinus are designated. A new synonymy is established: O. poricollis Schoenherr, 1832 = O. breviusculus Stierlin, 1875, syn. n. Variants of the genesis scenario of the impexus species-group in the eastern part of the Caucasus are discussed.     

Description of Telamoptilia grewiae sp. n. and the consequences for the definition of the genera Telamoptilia and Spulerina (Lepidoptera,Gracillariidae, Gracillariinae)

The new species Telamoptilia grewiae, reared from leafmines on Grewia biloba (Malvaceae) is described with details on adult and immature stages. The larval head and the pupa are described for the first time in Telamoptilia Kumata & Kuroko, 1988, and are illustrated with scanning electron micrographs and line drawings. Photographs of adult habitus, wing venation, male and female genitalia, as well as host plant and mines are provided. The apomorphic adult and larval characters of the new species in Telamoptilia are discussed in relation to the recognition of the genera Telamoptilia and Spulerina Vári, 1961.     

A Contribution to the Taxonomy of the Genus Xiphinema Cobb, 1913

In a comparative study of different populations of Xiphinema, the significance of the female gonad structure in species determination is stressed, and monodelphic, pseudomonodelphic, and didelphic forms in the genus are defined. X. chambersi is redescribed and illustrated, X. ensiculiferum and X. krugi are redefined, and X. ensiculiferoides n.sp. and X. orthotenum n.sp. are described. Proposed new synonymies are: X. itanhaense = X. brasiliense; X. bulgariensis and X. conurum = X. italiae; X. ifacolum = X. basiri; X. macrostylum = X. ensiculiferum; X. truncatum = X. elongatum; and X. vulgare = X. setariae. X. yapoense is considered species inquirenda and X. obtusum a nomen dubium. The following eight subgenera of the genus Xiphinema are proposed: Radiphinema n. subg., Krugiphinema n. subg., Xiphinema n. subg., Elongiphinema n. subg., Halliphinema n. subg., Basiphinema n. subg., Rotundiphinema n. subg., and Diversiphinema n. subg. A key to the subgenera of Xiphinema is presented, plus a list of 50 species in the genus, their synonyms, and 10 species inquirendae.     

The composition of the gum exudates from some combretum species; the botanical nomenclature and systematics of the combretaceae

An analytical study has been made of gum specimens from Combretum collinum, C. collinum subsp. hypopilinum, C. erythrophyllum, C. nigricans, C. fragrans, and C. glutinosum. In comparison with the genus Acacia, both the botanical classification and synonymy, and the chemistry, are more complex. Glucuronic acid, galacturonic acid, 4-O-methylglucuronic acid, galactose, arabinose, and rhamnose are present in all the specimens studied. In addition, mannose and xylose are present in the gum from C. collinum, which is therefore similar to C. hartmannianum. The data now available suggest that, as a group, the genus Combretum produces gum exudates that are more viscous, of higher molecular weight, and more acidic than those of the Acacia group.     

Revision of the Australian species of the weevil genus Trigonopterus Fauvel

The Australian species of the genus Trigonopterus Fauvel are revised. Eight previously recognized species are redescribed and 24 additional new species are described: Trigonopterus allaetus Riedel, sp. n., Trigonopterus athertonensis Riedel, sp. n., Trigonopterus australinasutus Riedel, sp. n., Trigonopterus australis Riedel, sp. n., Trigonopterus bisignatus Riedel, sp. n., Trigonopterus bisinuatus Riedel, sp. n., Trigonopterus boolbunensis Riedel, sp. n., Trigonopterus cooktownensis Riedel, sp. n., Trigonopterus daintreensis Riedel, sp. n., Trigonopterus deplanatus Riedel, sp. n., Trigonopterus finniganensis Riedel, sp. n., Trigonopterus fraterculus Riedel, sp. n., Trigonopterus garradungensis Riedel, sp. n., Trigonopterus hasenpuschi Riedel, sp. n., Trigonopterus hartleyensis Riedel, sp. n., Trigonopterus kurandensis Riedel, sp. n., Trigonopterus lewisensis Riedel, sp. n., Trigonopterus montanus Riedel, sp. n., Trigonopterus monteithi Riedel, sp. n., Trigonopterus mossmanensis Riedel, sp. n., Trigonopterus oberprieleri Riedel, sp. n., Trigonopterus robertsi Riedel, sp. n., Trigonopterus terraereginae Riedel, sp. n., Trigonopterus yorkensis Riedel, sp. n.. All new species are authored by the taxonomist-in-charge, Alexander Riedel. Lectotypes are designated for the following names: Idotasia aequalis Pascoe, Idotasia albidosparsa Lea, Idotasia evanida Pascoe, Idotasia laeta Lea, Idotasia rostralis Lea, Idotasia sculptirostris Lea, Idotasia squamosa Lea. A new combination of the name Idotasia striatipennis Lea is proposed: Trigonopterus striatipennis (Lea), comb. n.. A key to the species is provided. Australian Trigonopterus occur in coastal Queensland, narrowly crossing into New South Wales. The southern parts of the range are inhabited by species found on foliage. A rich fauna of 19 edaphic species inhabiting the leaf litter of tropical forests is reported for the first time from the Australian Wet Tropics.     

An unusually rich scuttle fly fauna (Diptera,Phoridae) from north of the Arctic Circle in the Kola Peninsula,N. W. Russia

64 species of Phoridae, in 6 genera, are reported from the Kola Peninsula, north of the Arctic Circle. The new species Megaselia elenae and Megaselia kozlovi are described. 33 species of Megaselia, only known from females, are given code numbers. Keys to the species of all the females of Megaselia and Phora are provided; and also a key to the males European Megaselia species with a notopleural cleft.     

A contribution to the revision of the genus Fenestella (Bryozoa) from the lower carboniferous of the east European platform

About 50 species of the genus Fenestella from the Lower Carboniferous of the East European platform are revised. They are shown to belong to the following seven genera: Fenestella, Rectifenestella, Laxifenestella, Exfenestella, Fabifenestella, Alternifenestella, and Ignotifenestella. Diagnoses of the three latter genera are given and 11 species are described, including type species, one of which, A. substricta sp. nov., is new. Lectotypes are selected for the three known species A. major (Nikiforova, 1933), A. minor (Nikiforova, 1933), and A. media (Nikiforova, 1927).     

Conditions for the various types of co-operativity allowed by the adair,equation and their relation with the algebraic character of binding polynomials

A convenient way to obtain for any number, n, of sites, the functions of the constants of the Adair equation that decide the type of co-operativity of ligand binding to a non-dissociating protein is given and is illustrated by the examples n = 4 and n = 5. These functions are invariants of the binding polynomial and various of its derivatives.Although there are some simple sufficient conditions (inequalities relating successive Adair constants) for some co-operativity types, the full necessary and sufficient conditions even for uniform positive and negative co-operativity depend on very complicated functions of the constants for n > 4.However there are alternative ways of writing binding polynomials known as canonical forms. Up to at least n = 5, and probably beyond, the conditions that are complicated in terms of Adair constants are very simple in terms of the constants of canonical forms. For instance any fourth-degree polynomial can be written in the form p(x - α)⁴ + q(x - β)⁴ + 6μ (x - α)²(x - β)² although in three different ways. For one of these ways, the sign of μ distinguishes between mixed and uniform co-operativity. For any kind of mixed co-operativity μ > 0, while μ < 0 corresponds to uniform co-operativity. Advantages of the use of canonical forms are briefly commented on.     

Catalog of the adelgids of the world (Hemiptera,Adelgidae)

A taxonomic and nomenclatural Catalogue of the adelgids (Hemiptera: Adelgidae) is presented. Six family-group names are listed, five being synonyms of Adelgidae. Twenty-two genus-group names, of which nine are subjectively valid and in use, are presented with their type species, etymology, and grammatical gender. One hundred and six species-group names are listed, of which 70 are considered subjectively valid.     

Taxonomic survey of fossil isocrinids with a list of the species found in the USSR

The taxonomic scheme of the two families of the order Isocrinida (Isocrinidae and Pentacrinidae) is given. The first family is divided at five subfamilies: Balanocrininae, Isocrininae, Metacrininae, Diplocrininae and Isselicrininae. Six genera are included in subfamily Balanocrininae: Balanocrinus (four species found in USSR), Laevigatocrinus (USSR: 3 species), Margocrinus (USSR: 4 species), Percevalicrinus (USSR: 5 species), Singularocrinus nov. gen. (monotypic) and Terocrinus nov. gen. (USSR: 1 species). Five fossil genera are included in subfamily Isocrininae: Chariocrinus (USSR: 1 species), Chladocrinus (USSR: 4 species), Isocrinus (USSR: 6 species), Raymondicrinus nov. gen. (Oligocene of USA : 2 species) and Tyrolecrinus nov. gen. (6 triassic species). Fossil representatives of three genera, namely, Metacrinus (Miocene-Recent), Nielsenicrinus (USSR: 4 species) and Cainocrinus (USSR: 1 species) are noted in subfamily Metacrininae. Five genera are included in subfamily Isselicrininae: Austinocrinus (USSR: 5 species), Buchicrinus (USSR: 5 species), Doreckicrinus (USSR: 1 species?), Isselicrinus (USSR: 4 species) and Praeisselicrinus (USSR: 1 species). Two genera are included in family Pentacrinidae: Pentacrinus (USSR: 1 species) and Seirocrinus (USSR: 4 species). Besides, the localities of 24 isocrinid species, systematic position of which is unknown, are listed (from Triassic upon Cretaceous). Three erroneous attributions to Isocrinida in USSR are pointed out. In the conclusion an outline of the phylogeny of the Isocrinida is discussed. For a majority of the wide-spread species in USSR figures are given.     

Regions outside the leucine-rich repeat domain determine the distinct resistance specificities of the rice blast resistance genes Pik and Pik-m

Two alleles of the rice blast resistance (R) Pik locus, Pik-m and Pik, are each composed of a pair of nucleotide-binding site–leucine-rich repeat (NBS–LRR) genes, referred to as the first gene and the second gene. Pik-m and Pik are unique in that many of the amino acid substitutions between them are distributed in or near the N-terminal coiled-coil (CC) domain of the first gene, suggesting that the CC domain of the first gene plays an important role in determinating their R specificity. To examine this hypothesis, I investigated resistance phenotypes of transgenic plants carrying each of two kinds of domain-swapped Pik-m-based recombinant first genes. Replacement of the LRR domain of Pik-m with the equivalent region of Pik did not change the Pik-m-type specificity, indicating that regions outside the LRR domain are responsible for differentiating the R specificity of Pik-m from Pik. In contrast, replacement of both the NBS and LRR domains of Pik-m with the corresponding region of Pik resulted in loss of blast resistance, suggesting that co-adaptation of polymorphisms in the CC and NBS domains is necessary to maintain resistance.     

The results of studying the types of species of the genus Chrysopilus (Diptera, Rhagionidae) from the collection of the Natural History Museum of the Humboldt University (Berlin, Germany): Communication 2

Nine species of the genus Chrysopilus are described in detail; among these, Ch. dives Loew, Ch. obscuribarbus Loew, Ch. pallipes Loew, Ch. praetiosus Loew, Ch. pullus Loew, Ch. siculus Loew, and Ch. unicolor Becker are presented by the types. One new species, Ch. subalpicola, is described. The structure of the male genitalia are illustrated for the first time, and the diagnostic characters given in the literature are refined.     

Palearctic elements in the old world tropics: a taxonomic revision of the ant genus Temnothorax Mayr (Hymenoptera,Formicidae) for the Afrotropical biogeographical region

Four new Afrotropical species of the ant genus Temnothorax are described and illustrated, all from Kenya. Based upon high resemblance to taxa known from the North African and Iberian territories of the Mediterranean region, these new tropical elements are placed into known Palaearctic species complexes. Specifically, Temnothorax brevidentis sp. n., Temnothorax mpala sp. n. and Temnothorax rufus sp. n. are placed in the laurae species group, and Temnothorax solidinodus sp. n. is placed in the angustulus species group. Two already known Temnothorax species from the region, Temnothorax cenatus (Bolton, 1982) and Temnothorax megalops (Hamann & Klemm, 1967), are also placed into the laurae species group based on the high number of shared morphological characters. Diagnoses for the African representatives of laurae and angustulus species groups of the Afrotropical biogeographical region are provided. A key to workers of the six Temnothorax species known to occur in the Afrotropical biogeographical region is provided, as well as diagnoses of morphologically similar myrmicine genera.     

A revision of the Australian digger wasps in the genus Sphex (Hymenoptera,Sphecidae)

The Australian species of the sphecid wasp genus Sphex are revised. Thirty-five species are recognized, of which 11 are new: Sphex argentatissimus, Sphex brevipetiolus, Sphex caelebs, Sphex corporosus, Sphex flammeus, Sphex fortunatus, Sphex gracilis, Sphex imporcatus, Sphex jucundus, Sphex latilobus and Sphex pretiosus. A dichotomous key covering all Australian species of the genus has been generated. The geographic distribution of all species is discussed based on all available locality records in relation to the Australian climate zones.     

Nomenclatural Revision for the Order Scorzonero-Chrysopogonetalia

The order Scorzonero-Chrysopogonetalia describes the dry grasslands of a large area in southeastern Europe, centred around and east of the Adriatic Sea (i.e., Albania, Bosnia-Herzegovina, Bulgaria, Croatia, Italy, Montenegro and Slovenia). Most commonly, Scorzonero-Chrysopogonetalia is arranged within the classes Festuco-Brometea or Brachypodio-Chrysopogonetea or it is split into two orders classified within Festuco-Brometea and Thero-Brachypodietea; according to other minor opinions, the order is sometimes assigned to Brachypodio-Brometea, Thero-Brachypodietea or Ononido-Rosmarinetea. This report deals with the nomenclatural revision of Scorzonero-Chrysopogonetalia and other correlated syntaxa to sort out the numerous incorrect syntaxon names found in scientific literature. The revision is carried out according to the third edition of the International Code of Phytosociological Nomenclature, and while it focuses on ranks of order, alliance and suballiance, it is also enlarged to include associations quoted in major comprehensive syntaxonomic revisions. As a result, many names and authors’ citations of syntaxa are corrected, and the theoretical implications arising from their usage are indicated. To promote nomenclatural stability, a new alliance, Violo pseudogracilis-Bromopsion caprinae, is described, and the following syntaxa are validated: Hypochoeridion maculatae, Hypochoeridenion maculatae, Astragalo croatici-Seslerietum robustae, Avenulo praeustae-Brometum erecti, Bromo erecti-Seslerietum interruptae, Carici vernae-Scabiosetum leucophyllae, Globulario cordifoliae-Scabiosetum leucophyllae, Globulario elongatae-Chrysopogonetum grylli, Minuartio capillaceae-Genistetum pulchellae, Stipo eriocaulis-Caricetum humilis and Stipo pennatae-Genistetum dalmaticae. Additionally, three association names (Asphodelo albi-Filipenduletum vulgaris, Centaureo rupestris-Caricetum humilis and Cymbopogono hirti-Brachypodietum ramosi) are proposed for inversions, and three others (Festuco illyricae-Poetum bulbosae, Lactuco vimineae-Bothriochloetum ischaemum and Saturejo montanae-Dichanthietum ischaemum) are corrected. Finally, typifications of 16 syntaxa are given.