Phylogenetic relationships in the genus <Emphasis Type="Italic">Primula</Emphasis> L. (Primulaceae) inferred from the ITS region sequences of nuclear rDNA

The nucleotide sequences of the nuclear rDNA ITS regions were determined for 34 species of the genus Primula L. and one species of the genus Cortusa L., family Primulaceae Vent., and used to infer the phylogenetic relationships among these species. In this analysis species of the Russian flora and the flora of adjacent territories were studied for the first time. The results clarified the taxomic structure of the genus Primula and confirmed the entity of some of its sections; but not the subgenera sensu J.Richards. Our data do not support an independent status of the genus Cortusa, placing it as one of the terminal lineages of the section Cortusoides Balf. f. in the genus Primula.     

Taxonomic re-evaluation of the genus <Emphasis Type="Italic">Lambertella</Emphasis> (Rutstroemiaceae,Helotiales) and allied stroma-forming fungi

The genus Lambertella is currently considered to be one of the largest genera in the family Rutstroemiaceae, and its major distinguishing character is the pigmentation of ascospores, besides a substratal stroma. Although Lambertella appears to be well-defined by morphological characters, its phylogenetic heterogeneity has been suggested in earlier studies. To circumscribe the genus more precisely, morphological examination and phylogenetic analysis was conducted on some Lambertella species and some allied stroma-forming fungi. In total, 58 taxa were included in the study, including 16 species with both a substratal stroma and pigmented ascospores. The polyphyly of Lambertella sensu lato was confirmed based on the phylogenetic analysis of ITS, LSU, and RPB2 regions. A highly supported clade is composed of five Lambertella species, including the type L. corni-maris. Morphologically, all species here included in Lambertella s. s. have brown ascospores prior to being discharged from asci, whereas in other species currently placed in Lambertella, but now excluded from the genus, they turn brown only after discharge. This clade was defined as Lambertella sensu stricto. Pigmentation of the ascospores was also recognized in Lanzia and Poculum, and even in the helotiaceous genus Hymenoscyphus, but always only after discharge. The convergent evolution of a dark substratal stroma in Rutstroemiaceae and Helotiaceae was also indicated.     

<Emphasis Type="Italic">Hilara</Emphasis> sp. (Diptera: Empididae; Empidinae): Mating System,Swarm Movements,and Inbreeding Avoidance

In a study spanning parts of nine years, an undescribed species of Hilara Meigen was observed to form mating swarms displaying complex behaviors. Typically, swarms were shaped like a flattened torus rotating rapidly about a horizontal axis. Many swarms also moved up and down and turned slowly back-and-forth about a vertical axis. Both up-and-down and turning movements were random in extent and direction, suggesting that they might arise as random, asymmetric density fluctuations within the swarms themselves. A rotating secondary swarm appeared intermittently inside one end of some primary swarms. Swarm membership changed continually as flies left one swarm to join another and as entire swarms coalesced. At one site the set of all swarms displayed properties not found in the swarms individually: spatial extension, daily dissipation and reconstitution over a period of weeks or months, reproductive potential, and gene flow. Such emergent properties qualify the set as a multicomponent swarm, an object heretofore known only in computer models. Hilara sp. appears to be protandrous, univoltine, and promiscuous. Generally, males paired preferentially with somewhat smaller females, but some small and medium-sized males paired with much larger females. Although males of nearly all known Hilara species present nuptial gifts of prey or other items to females, nuptial gifts were not observed at any time during the present study. Many characteristics of swarms of Hilara sp. can be understood as adaptations that reduce inbreeding.     

<Emphasis Type="Italic">Paulogramma hydarnis</Emphasis> (n. comb.) (Nymphalidae: Biblidinae): Distribution,Systematic Position,and Conservation Status of a Rare and Endangered Butterfly

The nymphalid Paulogramma hydarnis (Godart) (n. comb., previously in the genus Callicore) is an endangered butterfly present in a few montane sites in the Atlantic Forest in the Southeastern Brazil. The precise systematic position of P. hydarnis was previously unknown. Based on molecular data, we find that it is sister to Paulogramma pygas (Godart) (n. comb., also previously in Callicore), a common and widespread species in the Neotropics. In addition, we find that Callicore is not monophyletic and that “Callicore” hydarnis (along with other species) is more related to the genus Paulogramma, and should thus be placed in that genus. The genus Paulogramma is now composed by the following species: Paulogramma pyracmon (Godart), Paulogramma eunomia (Hewitson) n. comb., Paulogramma hydarnis (Godart) n. comb., Paulogramma hystaspes (Fabricius) n. comb., Paulogramma pygas (Godart) n. comb., and Paulogramma tolima (Hewitson, 1852) n. comb. Museum specimens and field data report P. hydarnis in four sites in Southeastern Brazil. Recently, P. hydarnis was recorded for the first time at Parque Nacional do Caparaó, states of Espírito Santo and Minas Gerais, expanding its distribution about 200 km northward of the previously known limit. Although regularly recorded in some sites, most records are historic, before the 1960s, and the current conservation situation of this species is delicate, deserving attention.     

Phylogenetic relationships,molecular taxonomy,biogeography of <Emphasis Type="Italic">Betula</Emphasis>, with emphasis on phylogenetic position of Iranian populations

Birch trees inhabiting the high-altitude Hyrcanian forest (the southern shores of the Caspian Sea of Iran and Azerbaijan) are classified in the EN (endangered) category of the International Union for Conservation of Nature (IUCN). Taxonomic status and phylogenetic relationship of Iranian populations, molecular taxonomy, and biogeography of the genus Betula in the world have been considered. Four remnant populations of Betula were selected from north and northwestern parts of Iran. The internal ITS and trnH-psbA intergenic spacer regions were sequenced. Based on the trnH-psbA and ITS, Iranian birch and white birch were placed in a clade, but based on trnH-psbA divided into two subclades. Phylogenetic trees based on ITS and trnH-psbA data did not completely support the morphological classification. Network analysis confirms a close relationship of B. pendula with B. platyphylla and B. papyrifera with B. humilis, and B. ermanii were in a group with the other tetraploid species of the subgenus Neurobetula. Divergence time analysis showed that about 75 Ma ago the Betula genus separated from the other genus of Betulaceae and then divided into two main clades in Oligocene. Our divergence analysis supports that two subgenera of Betulenta and Betulaster are the oldest subgenera in the genus Betula and they date back to Eocene. The ancestral reconstruction suggests that ancestors of the genus Betula originated from Southeast Asia.     

Phylogenetic relationships in Iranian <Emphasis Type="Italic">Scutellaria</Emphasis> (Lamiaceae) based on nuclear ribosomal ITS and chloroplast <Emphasis Type="Italic">trn</Emphasis>L-F DNA data

The genus Scutellaria (Lamiaceae, Scutellarioidae) includes taxa with a wide range of pharmacological traits, which make this genus economically important. Previous taxonomical studies on Scutellaria were mainly based on morphological and chromosomal characters. The infrageneric classification of the genus has been the subject of a long controversy among authors, and delimitation of taxa remains problematic. In this study, the phylogeny of the genus was evaluated using nrDNA ITS and trnL-F sequences, with a focus on the 42 Iranian taxa belonging to subgenera Apeltanthus and Scutellaria. In both ITS and trnL-F trees, there were two main clades within the genus corresponding to the two subgenera Scutellaria and Apeltanthus. In the subg. Scutellaria, the sect. Anaspis was monophyletic, but the monophyly of sect. Scutellaria was not supported. In this subgenus, S. galericulata was located away from other species in both trees, supported the isolation of this species from the sect. Scutellaria and inclusion in the sect. Galericularia as was previously considered by some authors. In subg. Apeltanthus, sect. Apeltanthus and sect. Lupulinaria were not monophyletic; furthermore, the monophyly of subsect. Lupulinaria was not supported. Based on the results of this study, it can be suggested that the sectional classification of both subgenera Apeltanthus and Scutellaria should be revised.     

<Emphasis Type="Italic">Metschnikowia</Emphasis> mating genomics

Genes involved in mating type determination and recognition were examined in Metschnikowia and related species, to gather insights on factors affecting mating compatibility patterns among haplontic, heterothallic yeast species of the genus. We confirmed the universality of the special mating locus organisation found in Clavispora lusitaniae across and exclusive to the family Metschnikowiaceae (i.e., Metschnikowia and Clavispora). Timing of the divergence between idiomorphs was confirmed to coincide with the origin of the larger (CUG-ser) clade comprising the Debaryomycetaceae and the Metschnikowiaceae, exclusive of Cephaloascus fragrans. The sequence of the a mating pheromone is highly conserved within the large-spored Metschnikowia species, including Metschnikowia orientalis and Metschnikowia hawaiiana, but not Metschnikowia drosophilae or Metschnikowia torresii, which have a pattern of their own, as do other clades in the genus. In contrast, variation in α pheromones shows a more continuous, although imperfect correlation with phylogenetic distance as well as with in vivo mating compatibility.     

Neogene phasianids (Aves: Phasianidae) of Central Asia: 1. Genus <Emphasis Type="Italic">Tologuica</Emphasis> gen. nov.

A new genus, Tologuica, with two species (T. aurorae sp. nov. and T. karhui sp. nov.), from the Middle Miocene of the Sharga locality (western Mongolia) is described. The new genus shares some characters with the extinct genera Palaeocryptonyx, Palaeortyx, and Plioperdix and with extant Coturnix. The foot structure suggests that Tologuica resembled in ecology the European genus Palaeortyx and was probably adapted to an arboreal mode of life, in contrast to the terrestrial Coturnix and Plioperdix.     

End of an enigma: <Emphasis Type="Italic">Aenigmopteris</Emphasis> belongs in <Emphasis Type="Italic">Tectaria</Emphasis> (Tectariaceae: Polypodiopsida)

The phylogenetic affinities of the fern genus Aenigmopteris have been the subject of considerable disagreement, but until now, no molecular data were available from the genus. Based on the analysis of three chloroplast DNA regions (rbcL, rps16-matK, and trnL-F) we demonstrate that Aenigmopteris dubia (the type species of the genus) and A. elegans are closely related and deeply imbedded in Tectaria. The other three species of genus are morphologically very similar; we therefore transfer all five known species into Tectaria. Detailed morphological comparison further shows that previously proposed diagnostic characters of Aenigmopteris fall within the range of variation of a broadly circumscribed Tectaria.     

Comparative analysis of complete chloroplast genome sequences of two subtropical trees, <Emphasis Type="Italic">Phoebe sheareri</Emphasis> and <Emphasis Type="Italic">Phoebe omeiensis</Emphasis> (Lauraceae)

Phoebe is an economically important genus from the family Lauraceae. It is widely distributed in tropical and subtropical Asia, but systematics of the genus is unclear, and currently there is no species-level phylogeny. Here, we determined the complete chloroplast genome sequences of two species with long-range PCR and next genome sequencing technologies, and identified mutation sites and highly variable regions. These highly variable sites were used to reconstruct the phylogeny. The plastomes of Phoebe sheareri and P. omeiensis were 152, 876, and 152, 855 bp, respectively. Comparative genomic analysis indicated that there are 222 mutation sites including 146 substitutions, 73 indels, and 3 microinversions in both plastomes. Fifty-six single-nucleotide changes were identified in gene-coding regions, and 45 microsatellite sites were found for use in species identification. Fourteen divergence hotspots of 38 variable regions were located. Phylogeny was reconstructed using a Bayesian and maximum likelihood approach for 12 Phoebe species and other five related Lauraceae based on 15 of the highly variable regions including accD-psaI, atpB-rbcL, ndhC-trnV, ndhF-rpl32, petA-psbJ, psaA, psbA-trnH, rbcL, rps8-rpl14, rps16-trnQ, rpl32-trnL, trnC-petN, trnL-trnF, trnS-trnG, and ycf1 indicated that variability in the chloroplast regions proposed as variable is enough to detect divergence events among 12 taxa of Phoebe, and that maybe also useful to help to elucidate further relationships among other taxa of the genus.     

A novel methanotroph in the genus <Emphasis Type="Italic">Methylomonas</Emphasis> that contains a distinct clade of soluble methane monooxygenase

Aerobic methane oxidation is a key process in the global carbon cycle that acts as a major sink of methane. In this study, we describe a novel methanotroph designated EMGL16-1 that was isolated from a freshwater lake using the floating filter culture technique. Based on a phylogenetic analysis of 16S rRNA gene sequences, the isolate was found to be closely related to the genus Methylomonas in the family Methylococcaceae of the class Gammaproteobacteria with 94.2–97.4% 16S rRNA gene similarity to Methylomonas type strains. Comparison of chemotaxonomic and physiological properties further suggested that strain EMGL16-1 was taxonomically distinct from other species in the genus Methylomonas. The isolate was versatile in utilizing nitrogen sources such as molecular nitrogen, nitrate, nitrite, urea, and ammonium. The genes coding for subunit of the particulate form methane monooxygenase (pmoA), soluble methane monooxygenase (mmoX), and methanol dehydrogenase (mxaF) were detected in strain EMGL16-1. Phylogenetic analysis of mmoX indicated that mmoX of strain EMGL16-1 is distinct from those of other strains in the genus Methylomonas. This isolate probably represents a novel species in the genus. Our study provides new insights into the diversity of species in the genus Methylomonas and their environmental adaptations.     

Description of Four New Species of Genus <Emphasis Type="Italic">Acanthaegilips</Emphasis> Ashmead, 1897 (Hymenoptera: Figitidae: Anacharitinae) from Colombia

There are four new species of the Neotropical Anacharitinae genus Acanthaegilips Ashmead, 1897: A. boyacensis sp. n., A. curvis sp. n., A. timidus sp. n., and A. truncatus sp. n. The diagnostic characters of this new species and data about their morphological variability and similarities with other Acantahegilips species are discussed. An updated key of genus Acanthaegilips is included.     

<Emphasis Type="Italic">t</Emphasis>-Specific <Emphasis Type="Italic">D17Leh66</Emphasis> DNA Elements in the Family Muridae

Blot-hybridization analysis with the use of the t-specific probe D17Leh66 has been used to study DNA of various representatives of family Muridae. Hamsters from genus Phodopus have no homologs of this probe, whereas African rats from genus Lophuromys have some homologous elements. This indicates that sequence D17Leh66 is ancient and was probably present in the common ancestor of family Muridae.     

<Emphasis Type="Italic">Gordonia</Emphasis>: isolation and identification in clinical samples and role in biotechnology

Gordonia spp. are members of the actinomycete family, and the environment, especially soil, is the natural habitat of this genus of bacteria. Gordonia spp. are important for two aspects: first, some Gordonia species cause a broad spectrum of diseases in healthy and immunocompromised individuals; second, these bacteria are capable of producing useful secondary metabolites, which may be used in various industries; therefore, discrimination of the genus Gordonia from other genera in the actinomycete family is important. Phenotypic and molecular techniques are necessary for accurate identification of Gordonia at the species level.     

Phylogenetic and morphological analysis of a new cliff-dwelling species reveals a remnant ancestral diversity and evolutionary parallelism in <Emphasis Type="Italic">Sonchus</Emphasis> (Asteraceae)

We describe a new cliff-dwelling species within Sonchus (Asteraceae): Sonchus boulosii and analyze its systematic position and evolutionary significance; in addition, we provide a key to the species of Sonchus in Morocco. Both morphological and ecological characteristics suggest a close relationship of S. boulosii with taxa of section Pustulati. However, ITS nrDNA and cpDNA matK markers indicate its uncertain position within the genus, but clear genetic differentiation from the remaining major clades. ITS phylogenetic trees show that likely evolutionary shifts to rocky habitat took place at least five times within genus Sonchus and that sect. Pustulati and S. boulosii clades have a clearly independent evolutionary origin. We postulate that the strong resemblance of S. boulosii to other rocky species reflects a phenomenon of homoplasy, probably driven by parallel evolutionary adaptations to the severe ecological constraints of its cliff face habitat. Therefore, a new section is also described, which includes S. boulosii as its sole representative: section Pulvinati. According to phylogenetic trees, the new clade may share its common ancestor with the clade comprising sections Maritimi and Arvenses, from which it is widely divergent in morphology and ecology, with the exception of Sonchus novae-zelandiae. However, the latter is a derived taxon, with high level of polyploidy unlike S. boulosii that shows 2n?=?18, basal chromosome number of the genus. Since sections Pulvinati and Pustulati seem to be quite old in Sonchus, we also hypothesize that some similarities, such as fruit morphology, may reflect the persistence of some primitive characteristics.     

New Species of <Emphasis Type="Italic">Inoceramus</Emphasis>-like Bivalves of the Subfamily Kolymiinae from the Middle Permian of Northeastern Asia

Middle Permian Inoceramus-like bivalves of the genera Kolymia Licharew and Cyrtokolymia Astafieva endemic to the East Boreal Biogeographic Realm are considered. Cyrtokolymia, previously regarded by the author as endemics of the Verkhoyansk–Okhotsk Province and including only the type species, are also recorded in the Kolyma–Omolon Province, where they are represented by the endemic species C. bobini sp. nov. An emended diagnosis of the genus Cyrtokolymia is provided. The genus Kolymia comprises about 30 species. The greatest diversity of Kolymia (24 species, 13 of which are endemic) is known from the Verkhoyansk–Okhotsk Province, which is the center of diversification of this genus. The Kolyma–Omolon Province is characterized by 12 species, only three of which are endemic. In other provinces of the East Boreal Realm, only individual members of Kolymia are known. From the Middle Permian of the Omolon Massif, northern Verkhoyansk Region, and Penzhinsky Ridge, the following new species are described: Kolymia posneri Muromzeva, Kusnezov et Biakov, sp. nov., K. pontoneica Biakov, sp. nov., K. simkiniformis Biakov, sp. nov., and Cyrtokolymia bobini Biakov, sp. nov.     

Characterization of phosphate solubilizing rhizobacteria associated with pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.) isolated from two agricultural soils

Phosphorous (P) availability is a major concern in European agriculture where reserves are limited. In the case of pea (Pisum sativum L.), one of the most important legumes in the human diet, P has specific effects on nodulation and N₂ fixation. Therefore, when biofertilization schemes are considered for pea cropping, it is very important to include symbiotic dinitrogen-fixing bacteria as well as phosphate-solubilizing bacteria (PSB). In this study sixteen PSB were isolated from the rhizosphere of two pea cultivars in two French soils with different characteristics. They were phenotypically and genotypically diverse displaying 9 different Two Primers-Random Amplified Polymorphic DNA (TP-RAPD) patterns. The 16S rRNA gene analysis of representative strains showed that they belong to four highly divergent phylogenetic groups. Most of the PSB strains belonged to the genus Pseudomonas and were closely related to Pseudomonas baetica, P. lutea, P. azotoformans, P. jessenii and P. frederiksbergensis. Other strains from the genus Burkholderia were closely related to B. caledonica and those from the genus Rhizobium to R. grahamii. The single strain of genus Bacillus was close to Bacillus toyonensis. Some phylogenetic groups to which our PSB strains belong are widely distributed in plant rhizospheres in different countries and continents. This is particularly interesting in the case of strains from the phylogenetic group of P. fluorescens which includes PSB strains with high ability to solubilize phosphate indicating that they may be used as biofertilizers in many soils.