Infructescences of Friisicarpus nom. nov. (Platanaceae) and associated foliage of the platanoid type from the Cenomanian of western Siberia

A new generic name, Friisicarpus N. Maslova et Herman, is proposed to replace Platanocarpus Friis, Crane, et Pedersen, 1988. Pistillate capitate inflorescences of Friisicarpus nom. nov. are reported from the Cenomanian of western Siberia for the first time. They are found in association with leaves of the typical Platanus-morphotype. Earlier, remains belonging to this genus were found to be associated with pinnatifid leaves of cf. Sapindopsis variabilis Fontaine (Crane et al., 1993).     

New jewel beetles (Coleoptera: Buprestidae) and similar beetles from the Cretaceous and Early Paleogene of Asia

A new genus and two new species of jewel beetles are described, Andakhudukia ponomarenkoi gen. et sp. nov. from the Lower Cretaceous of Mongolia and Metabuprestium ustkivdense sp. nov. from the lowermost Paleogene of the Amur Region. In addition, four new monotypic genera that share some features with jewel beetles are described: Cretoelaterium kazanovense gen. et sp. nov. from the Lower Cretaceous of Eastern Transbaikalia and Cretopoena gratshevi gen. et sp. nov. from the Lower Cretaceous of Mongolia have been referred to the families Elateridae and Eucnemidae; Cretofalselaterium baiankhongoricum gen. et sp. nov. from the Lower Cretaceous of Mongolia and Cretogermen turonicum gen. et sp. nov. from the Upper Cretaceous of Kazakhstan have been erected for isolated elytra and placed in Coleoptera incertae sedis.     

New jewel beetles (Coleoptera: Buprestidae) from the Cretaceous of Russia,Kazakhstan, and Mongolia

A new jewel beetle genus, with one species (Cretofrontolina kzyldzharica gen. et sp. nov.) from the Upper Cretaceous of Kazakhstan is described based on a body; and three new species of the formal genus Metabuprestium are described based on isolated elytra: Metabuprestium sibiricum sp. nov. and M. arkagalense sp. nov. come from the Arkagala locality (Upper Cretaceous of Russia) and M. ichbogdense sp. nov. is from the Shar Tologoi locality (Lower Cretaceous of Mongolia).     

A new lace bug species of the genus Sinaldocader (Hemiptera: heteroptera, tingidae) from the turonian of southwestern Kazakhstan

Sinaldocader rasnitsyni sp.nov. (Heteroptera, Tingidae) is described from the Upper Cretaceous (Turonian) of southwestern Kazakhstan (Kzyl-Dzhar locality).     

Early colonization of Protea flowers enable dominance of competitively weak saprobic fungi in seed cones,benefitting their hosts

Sporothrix and Knoxdaviesia fungi use pollinators to colonize Protea flowers at anthesis. These saprobes remain dominant in the nutrient-rich, fire-retardant Protea seed-cones (infructescences) for at least a year after flowering. We tested the hypothesis that they competitively exclude potentially detrimental fungi from infructescences during this time. We compared seed set and longevity of infructescences containing Sporothrix and Knoxdaviesia vs. those that contain ‘contaminant’ saprobes. Hereafter we evaluated their competitive abilities against the ‘contaminant’ saprobes. Infructescences devoid of Sporothrix and Knoxdaviesia were dominated by Penicillium cf. toxicarium, Cladosporium cf. cladosporoides and Fusarium cf. anthophilum. Sporothrix and Knoxdaviesia presence did not affect seed viability, but infructescences persisted longer than those colonised by ‘contaminant’ fungi. The ‘contaminant’ species were stronger competitors than Sporothrix and Knoxdaviesia. However, Sporothrix and Knoxdaviesia could defend captured space well against ‘contaminant’ species. This effect was enhanced when fungal taxa grew on media prepared from their usual Protea host species, clarifying their dominance and host consistency observed in the field. Sporothrix and Knoxdaviesia from Protea are therefore weak competitors against common saprobes, especially when growing on alternative hosts, and need to colonise flowers very early (before colonization by other fungi) to dominate in this environment. They may delay seed release from infructescences longer than if these are colonised by other saprobes, increasing chances of seed release to occur after fire, when conditions are more favourable for Protea recruitment.     

New genus <Emphasis Type="Italic">Sarbaicarpa</Emphasis> gen. nov. (Hamamelidales) from the Cenomanian-Turonian of Western Kazakhstan

Anatomically preserved infructescences of Sarbaicarpa shilinii gen. et sp. nov. are described from the Cenomanian-Turonian of Kazakhstan and assigned to the Hamamelidales on the basis of their microstructure. The infructescence consists of about 30 free broadly cuneate fruits. The fruits are monocarpellate, without stylode, and basally with hairs. The seed is solitary and anatropic. Two types of sterile elements are present: (1) semispherical structures that are comparable in size to the fruits and densely covered with rounded trichomes and (2) narrow linear structures reaching more than a half of the fruit length. The new genus is characterized by a mosaic of platanaceous and hamamelidaceous characters. The plant remains are found associating with fossil leaves of the typically Platanus aspect.     

New mammal remains from the Late Cretaceous Bostobe Formation (Northeast Aral Sea Region,Kazakhstan)

Four recently collected mammal specimens from the Upper Cretaceous (Santonian–?Campanian) Bostobe Formation in the northeastern Aral Sea Region, Kazakhstan are attributed to Asioryctitheria indet. (an edentulous dentary fragment) and the zhelestid Parazhelestes sp. cf. P. mynbulakensis (a maxillary fragment with a double-rooted canine, an M1, and a dentary fragment including m3). These new records double the known mammal fauna from this formation, which previously included the zhelestid Zhalmouzia bazhanovi and Zhelestidae indet. The taxonomic and ecological structure of the mammal assemblage from the Bostobe Formation can, on present evidence, be considered close to the other eutherian dominated Late Cretaceous mammal assemblages of Central Asia. This region is important in particular in the search for Late Cretaceous ancestors of crown-group eutherian mammal clades (Placentalia).     

Biodiversity and ecology of flower-associated actinomycetes in different flowering stages of <Emphasis Type="Italic">Protea repens</Emphasis>

Actinomycete bacteria have previously been reported from reproductive structures (infructescences) of Protea (sugarbush/suikerbos) species, a niche dominated by fungi in the genera Knoxdaviesia and Sporothrix. It is probable that these taxa have symbiotic interactions, but a lack of knowledge regarding their diversity and general ecology precludes their study. We determined the diversity of actinomycetes within Protea repens inflorescence buds, open inflorescences, young and mature infructescences, and leaf litter surrounding these trees. Since the P. repens habitat is fire-prone, we also considered the potential of these bacteria to recolonise infructescences after fire. Actinomycetes were largely absent from flower buds and inflorescences but were consistently present in young and mature infructescences. Two Streptomyces spp. were the most consistent taxa recovered, one of which was also routinely isolated from leaf litter. Lower colonisation rates were evident in samples from a recently burnt site. One of the most consistent taxa isolated from older trees in the unburnt site was absent from this site. Our findings show that P. repens has a distinct community of actinomycetes dominated by a few species. These communities change over time and infructescence developmental stage, season and the age of the host population. Mature infructescences appear to be important sources of inoculum for some of the actinomycetes, seemingly disrupted by fire. Increased fire frequency limiting maturation of P. repens infructescences could thus impact future actinomycete colonisation in the landscape. Streptomyces spp. are likely to share this niche with the ophiostomatoid fungi, which merits further study regarding their interactions and mode of transfer.     

The paleoenvironments of azhdarchid pterosaurs localities in the Late Cretaceous of Kazakhstan

Five pterosaur localities are currently known from the Late Cretaceous in the northeastern Aral Sea region of Kazakhstan. Of these, one is Turonian-Coniacian in age, the Zhirkindek Formation (Tyulkili), and four are Santonian in age, all from the early Campanian Bostobe Formation (Baibishe, Akkurgan, Buroinak, and Shakh Shakh). All so far collected and identifiable Late Cretaceous pterosaur bones from Kazakhstan likely belong to Azhdarchidae: Azhdarcho sp. (Tyulkili); Aralazhdarcho bostobensis (Shakh Shakh); and Samrukia nessovi (Akkurgan). These latter two taxa, both from the Bostobe Formation might be synonyms. Azhdarcho sp. from the Zhirkindek Formation lived in a tropical-to-subtropical relatively humid climate on the shore of an estuarine basin connected to the Turgai Sea. Known fossils were collected in association with brackish-water bivalves and so the overall paleoenvironment of this pterosaur was likely an estuarine marsh as indicated by the dominance of conifers and low relative counts of ferns and angiosperms. Aralazhdarcho bostobensis, from the Bostobe Formation, lived on a coastal fluvial plain along the Turgai Sea. This paleoenvironment was either floodplain (Akkurgan, Buroinak, and Shakh Shakh) or estuarine (Baibishe). In the Santonian – early Campanian, shallow waters near this coastal plain were sites for the intensive accumulation of phosphates under upwelling conditions caused by strong winds from the ancient Asian landmass. These winds also caused significant aridization of the climate during this time. We speculate that pterosaurs may have been attracted to this area by the abundant resources in the bio-productive estuaries and nearshore upwelling waters.     

Two new species of Paramesosciophilodes (Diptera,Nematocera, Mesosciophilidae) from the Middle Jurassic of China

Two new species, Paramesosciophilodes bellus sp. n. and Paramesosciophilodes rarissima sp. n., from the Jiulongshan Formation at Daohugou Village, Inner Mongolia, China, are described in the extinct family Mesosciophilidae. Altogether seven genera with 21 species of mesosciophilids have been described from the Jurassic of Siberia and Kazakhstan, the Lower Cretaceous of Transbaikalia, and the Middle Jurassic of Inner Mongolia. An emended generic diagnosis of Paramesosciophilodes and a list of known taxa of mesosciophilids are provided.     

Mesofossils with platanaceous affinity from the Dakota Formation (Cretaceous) in Kansas, USA

The Platanaceae holds a basal position in the phylogeny of eudicots and therefore is of great interest to angiosperm systematists. The fossil record of the family is found in strata ranging from the Cretaceous to Recent in America, Europe and Asia. The research on the Platanaceae in the Dakota Formation can be traced back to 19th century; however, mesofossils of reproductive organs of the Platanaceae were never reported in the Midwest of North America before. This paper reports several specimens of Friisicarpus (Platanaceae) from the Dakota Formation in Kansas, USA. It complements the existing fossil records, and provides more information on reproductive biology of the family. The comparison with similar fossils from eastern North America and Europe provides some hints on biostratigraphy of the Cretaceous.     

Interesting findings of spiders of the families Gnaphosidae and Liocranidae (Aranei) from the semidesert of the northern Caspian Lowland

Spiders were studied near Dzhanybek Village in Western Kazakhstan Province, the Republic of Kazakhstan. The family Gnaphosidae is represented by 41 species. The female of Drassodes rostratus Esyunin et Tuneva, 2002 is described for the first time, the male palp and the female epigynum are illustrated in detail. D. rostratus is shown to be a valid species but not a junior synonym of Drassodes auritus Schenkel, 1963. The genitalia of Haplodrassus isaevi Ponomarev et Tsvetkov, 2006, a new species for Western Kazakhstan, are described and illustrated. The family Liocranidae is represented by three species. Agraecina lineata (Simon, 1878) is described as a new genus and a species of liocranids for the Republic of Kazakhstan.     

<Emphasis Type="Italic">Kunduriphyllum kundurense</Emphasis> gen. et comb. nov. (Platanaceae) and Associated Reproductive Structures from the Campanian of the Amur Region,Russia

Fossil leaves and associated reproductive structures from the Kundur locality, Amur Region, are examined. A new genus of the unlobed platanaceous leaves, Kunduriphyllum gen. nov. (Platanaceae) is described based on distinctive morphological and epidermal features. The similarity of epidermal characteristics and identical biological damage suggest that the leaves Kunduriphyllum kundurense gen. et comb. nov., staminate inflorescences Kundurianthus, and infructescences Kunduricarpus could be assigned to a single plant.     

Revision of the Aphid genus Avicennina Narzikulov, 1957 (Homoptera, Aphididae)

In the course of examination of material of the genus Avicennina Narzikulov, 1957 in the collection of the Institute of Zoology of the Republic of Kazakhstan (Almaty), A. turkestanica Akhmedov, 1994, previously known from the Alai Range, Uzbekistan was recorded for the first time for the fauna of Kazakhstan. Avicennina almatina sp. n. from cow-parsnip (Heracleum dissectum) is described as a new species from South-Eastern Kazakhstan (the Zailiyskiy Alatau Range). A new synonymy is established: Avicennina sogdiana Narzikulov, 1957 = A. spiraecola Akhmedov, 1994, syn. n. Keys to apterous and alate seasonal morphs of Avicennina are provided.     

How environmental stressors affect reproductive potential in a saltmarsh plant species Plantago maritima

We examined whether the presence or absence of different environmental stressors influenced the reproductive potential of a saltmarsh species—Plantago maritima. We focused on total seed output, seed quality, and biomass of progeny. So far, there are no studies trying to answer the question of how different saltmarsh management affects the quality of seed in saltmarsh species. For the purposes of the study, plots subjected to light mowing, light or heavy grazing, trampling, or rooting were designated in three nature reserves in Poland. On each plot, the abundance of infructescences per sq. meter was calculated. Mature infructescences were collected, and their length and number of fruit capsules were measured. The seeds obtained from fruit capsules were weighted and sown in controlled conditions. The germination rate and the final germination percentage were calculated. A representative number of sprouts were grown. After a period of 2 months, the individuals of P. maritima were harvested and their total dry mass was measured. It was found that heavy grazing had the greatest effect on all of the studied characteristics. The presence of this factor resulted in shorter infructescences with a smaller number of fruit capsules. However, this phenomenon was compensated by the higher abundance of infructescences per sq. meter. At the same time, seeds produced by grazed individuals were significantly lighter. Interestingly, intensive trampling by people affected P. maritima individuals in a similar way to heavy grazing, while mowing and rooting had less impact on the considered characteristics. Although a positive correlation between seed mass and germination success was found, the altogether lower seed mass had a negligible effect on germination parameters. Also, the differences in seed parameters did not affect dry mass of obtained progeny grown in laboratory conditions. Synthesis and applications: Different environmental stressors, such as grazing and mowing, have an effect on reproductive potential of a saltmarsh species P. maritima. In the case of habitats created anthropogenically, such as brackish saltmarshes, the role of management is crucial for their conservation. Therefore, searching for the best active protection methods is important. In light of the results obtained, extensive or rotational grazing appears to be the best form of saltmarsh management.     

On the mesozoic taxa of scarabaeoid beetles of the family Hybosoridae (Coleoptera: Scarabaeoidea)

Three new species of scarabaeoid beetles of the family Hybosoridae are described in the new genus Protohybosorus, gen. nov. from the Middle-Upper Jurassic of Kazakhstan (Karatau-Mikhailovka locality). The Lower Cretaceous species Geotrupoides fortus Ren, Zhu et Lu, 1995 (Inner Mongolia, China) is transferred to the genus Leptosorus Nikolajev, 2006.     

On establishing of two weevils (Coleoptera,Curculionidae: Entiminae) damaging fruit and berry crops in Southeastern Kazakhstan

Data on the occurrence of two Eastern European weevils, Urometopus nemorum L. Arn. and Otiorhynchus albidus Stierl., in Southeastern Kazakhstan are reported. Both species are represented in Kazakhstan by parthenogenetic forms and damage cultivated and wild strawberry (Urometopus nemorum) and cherries (Otiorhynchus albidus). The species are apparently recent invaders and appeared in Kazakhstan in the early XXI century.     

Upper Cretaceous flora of Karakumzholy, northeastern Aral Region

Upper Cretaceous plant impressions from the reddish gray sandy and clayey deposits of the Zhirkindek Formation of the Karakumzholy locality (the Lower Syr Darya Uplift, Kazakhstan) were studied. This Turonian flora includes two species of fern (Filices) and several angiosperm species. The angiosperms Ettingshausenia cuneifolia (Bronn) Stiehler (described previously as Platanus cuneifolia Bronn) and Trochodendroides arctica (Heer) Berry dominate at the locality. The former species is a typical representative of the Upper Cretaceous flora of the Euro-Sinian subtropical phytogeographic region of Eurasia, while the latter belongs to the temperate Siberian-Canadian phytogeographic region.