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11	Contemporary Women’s Writing in Siberia: Writing Russia’s Peripheries Gill, Justine Ratcliffe Unknown Date No description available. Russian literature women's writing contemporary literature Siberian literature centre-periphery space
12	Seasonal variation in the energy and water exchanges above and below a larch forest in eastern Siberia Ohta, Takeshi, Hiyama, Tetsuya, Tanaka, Hiroki, Kuwada, Takeshi, Maximov, Trofim C., Ohata, Tetsuo, Fukushima, Yoshihiro 15 June 2001 (has links) No description available. Siberian larch forest Energy and water balance Canopy resistance Land surface condition GAME-Siberia
13	Přeprava zboží po Transsibiřské magistrále mezi Asií a EU / Transport of goods by the Trans-Siberian Railway between Asia and the EU Danihlík, Tomáš January 2014 (has links) The main objective is to prove the increasing trend of increasing volume of shipments, respectively the number of trains dispatched from Asia to the European Union (Westbound), respectively from the European Union to Asia (Eastbound). The first chapter is devoted to describing the history of the Trans-Siberian Railway. In the second part is the creation of a common CIM / SMGS and organization OSŽD. In the third chapter are described rail corridors from Asia to the EU, respectively from the EU to Asia. A final fourth chapter is practical analysis of rail transport on the basis of documents of companies that use these rail corridors.
14	A novel approach for elucidating the complex maternal prehistories of Siberian ethnolinguistic groups using complete mitochondrial genomes Whitten, Christopher Mark 18 November 2016 (has links) Siberia is an ideal region for exploring population histories from a molecular anthropological perspective given the diverse human populations, in terms of linguistic affiliation and lifestyle, currently inhabiting this geographically large region. As such, this thesis explores new methodologies for the investigation of the genetic histories of Siberian populations. While previous genetic work in this area of the world was able to provide detailed insights into paternal histories based on Y chromosomal data, it was not as successful on the maternal side. There existed difficulties in exploring the complex maternal demographic histories due to high levels of sequence identity between individuals in different populations when using only a very small region of the mitochondrial DNA (mtDNA), known as the hypervariable region I (HV1). This realization led to the initial focus of this dissertation which was to identify and test improved methods of sequencing entire mtDNA genomes. This was necessary because the mtDNA genomes that were published for human Siberian populations and across the globe prior to the work described here were chosen based on specific sub-sample selection criteria that introduced an ascertainment bias rendering them unusable for population-wide analyses. After testing multiple next generation DNA sequencing methods, I helped develop a sequencing library preparation method based on multiplexing and hybridization enrichment of mtDNAs for sequencing by synthesis that has since become widely used in labs across the globe. Comparing the same samples sequenced by both the traditional and new methods for five ethnolinguistic populations showed that these new methods were robust and could lead to different inferences about population histories while avoiding a sampling bias. Based on the results of this thesis it is now recommended for researchers to sequence complete mtDNA genomes for all relevant samples within a collection. By applying these methods to additional Siberian populations it was possible to better describe maternal population contact and identify demographic changes over time. This additional information allowed for the identification of putative drops in the maternal effective population sizes in the Siberian populations examined here. When examining the potential migrations and population contact between Turkic-speaking Yakuts and the Tungusic-speaking Even and Evenks, there exists a differential sharing of haplotypes suggesting that the Tungusic speaking populations herein were already in the northern region and split prior to the expansion of the Yakuts into their territory. The putative origin of the Yakuts as being around Lake Baikal was given additional support from the analyses included in this study and the origins of the Dolgans were shown to predominately include the admixture of Yakuts and Evenks. info:eu-repo/classification/ddc/570 ddc:570 mitochondrial DNA Siberian populations
15	The Role of the Siberian Traps in the Permian-Triassic Boundary Mass Extinction: Analysis Through Chemical Fingerprinting of Marine Sediments using Rare Earth Elements Santistevan, Fred January 2018 (has links) No description available. Geology Geology Permian Mass Extinction Siberian Traps Rare Earth Elements Marine Sediments Chemical Fingerprinting
16	Dialektologický odkaz A.D. Grigorjeva v kontextu studií o sibiřských nářečích. / A.D. Grigoryev's dialectological heritage in the context of Siberian dialects studies. Kipchatov, Mikhail January 2015 (has links) The following Master's thesis is devoted to the topic of Russian Siberian dialects, which are based on Great Russian dialects. The aim of the thesis is to present and evaluate a unique and still unexplored source of dialectological information - the work of the Russian scholar A. D. Grigoryev Русские старожильческие говоры Сибири written. This manuscript, which is still stored at Grigoryev's personal fund at the archives of the Academy of Sciences in the Czech Republic, is an extensive work containing more than 1,600 pages, where dialectal features of more than 550 municipalities in 12 provinces of Siberia are described. Theoretical part (Chapter I) shows the history of research of Siberian dialects as secondary dialects, their main specifics and history of settlement in Siberia. A. D. Grigoryev's life and work are introduced in Chapter II (practical part), along with detailed analysis and description of Russian Siberian dialects from the phonetic, morphological, lexical and syntactic point of view, based on the above mentioned work with an indication of toponyms where relevant linguistic phenomena are registered. The Master's thesis is mainly based on Russian materials, which deal with the topic of Siberian dialects. The main method applied in the thesis is a descriptive method.
17	Molecular and isotopic characterization of terrestrial organic carbon released to (sub-)Arctic coastal waters Vonk, Jorien Elisabeth January 2010 (has links) Arctic soils store half of the global soil organic carbon (OC) pool and twice as much C as is currently present in the atmosphere. A considerable part of these carbon pools are stored in permafrost. Amplified climate warming in the Arctic will thaw permafrost and remobilize some of these substantial carbon stocks into the active carbon cycle, potentially causing positive feedback to global warming. Despite the global importance of this mechanism, our understanding of the fate of these thawing organic carbon (OC) pools is still poor, particularly regarding its degradation potential. This makes good estimates on greenhouse gas emissions versus coastal reburial impossible. This doctoral thesis aims to improve our understanding on the fate of high-latitude terrestrial OC during fluvial and coastal transport. In two study regions, the Bothnian Bay and the East Siberian Sea, we apply a wide range of bulk, molecular and isotopic geochemical analyses to reveal information on sources, age, degradation and transport routes. Our results show that both study regions receive and store large amounts of terrestrial OC, largely derived from peatlands (paper I, II and IV). This terrestrial matter undergoes extensive degradation in both the water column and surface sediments (paper I, III and IV). Surface sediments in the East Siberian Sea show a offshore-decreasing input of riverine OC and a considerable and constant input of OC from coastal erosion. The strong imprint of rapidly settling coastal OC far out on the shelf may be explained by a strong benthic boundary layer transport in combination with offshore ice-transport and selective preservation of erosion OC compared to riverine OC (paper IV). Molecular radiocarbon data allowed us to distinguish between two (sub-)Arctic soil OC pools that show a remarkably different susceptibility to degradation upon arrival in the coastal system; a young and easily degradable pool originating in surface peatlands, and an old and recalcitrant pool originating in deep mineral soils and coastal mineral Pleistocene deposits (paper III and IV). Our first estimates suggest that, in the Bothnian Bay coastal system, mineral soil OC is at least 20 times less susceptible to degradation than peatland OC (paper III). Hence, a considerable part of the thaw-released mineral OC pool may simply be relocated to coastal sediments instead of being emitted to the atmosphere. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 3: Accepted. Paper 4: Manuscript. organic carbon terrestrial biomarkers radiocarbon particulate organic carbon sediments sphagnum Arctic Bothnian Bay East Siberian Sea Kalix River Kolyma River
18	Methanogens from Siberian permafrost as models for life on Mars : response to simulated martian conditions and biosignature characterization Serrano, Paloma January 2014 (has links) Mars is one of the best candidates among planetary bodies for supporting life. The presence of water in the form of ice and atmospheric vapour together with the availability of biogenic elements and energy are indicators of the possibility of hosting life as we know it. The occurrence of permanently frozen ground – permafrost, is a common phenomenon on Mars and it shows multiple morphological analogies with terrestrial permafrost. Despite the extreme inhospitable conditions, highly diverse microbial communities inhabit terrestrial permafrost in large numbers. Among these are methanogenic archaea, which are anaerobic chemotrophic microorganisms that meet many of the metabolic and physiological requirements for survival on the martian subsurface. Moreover, methanogens from Siberian permafrost are extremely resistant against different types of physiological stresses as well as simulated martian thermo-physical and subsurface conditions, making them promising model organisms for potential life on Mars. The main aims of this investigation are to assess the survival of methanogenic archaea under Mars conditions, focusing on methanogens from Siberian permafrost, and to characterize their biosignatures by means of Raman spectroscopy, a powerful technology for microbial identification that will be used in the ExoMars mission. For this purpose, methanogens from Siberian permafrost and non-permafrost habitats were subjected to simulated martian desiccation by exposure to an ultra-low subfreezing temperature (-80ºC) and to Mars regolith (S-MRS and P-MRS) and atmospheric analogues. They were also exposed to different concentrations of perchlorate, a strong oxidant found in martian soils. Moreover, the biosignatures of methanogens were characterized at the single-cell level using confocal Raman microspectroscopy (CRM). The results showed survival and methane production in all methanogenic strains under simulated martian desiccation. After exposure to subfreezing temperatures, Siberian permafrost strains had a faster metabolic recovery, whereas the membranes of non-permafrost methanogens remained intact to a greater extent. The strain Methanosarcina soligelidi SMA-21 from Siberian permafrost showed significantly higher methane production rates than all other strains after the exposure to martian soil and atmospheric analogues, and all strains survived the presence of perchlorate at the concentration on Mars. Furthermore, CRM analyses revealed remarkable differences in the overall chemical composition of permafrost and non-permafrost strains of methanogens, regardless of their phylogenetic relationship. The convergence of the chemical composition in non-sister permafrost strains may be the consequence of adaptations to the environment, and could explain their greater resistance compared to the non-permafrost strains. As part of this study, Raman spectroscopy was evaluated as an analytical technique for remote detection of methanogens embedded in a mineral matrix. This thesis contributes to the understanding of the survival limits of methanogenic archaea under simulated martian conditions to further assess the hypothetical existence of life similar to methanogens on the martian subsurface. In addition, the overall chemical composition of methanogens was characterized for the first time by means of confocal Raman microspectroscopy, with potential implications for astrobiological research. / Der Mars ist unter allen Planeten derjenige, der aufgrund verschiedener Faktoren am wahrscheinlichsten Leben ermöglichen kann. Das Vorhandensein von Wasser in Form von Eis und atmosphärischem Dampf zusammen mit der Verfügbarkeit biogener Elemente sowie Energie sind Indikatoren für die Möglichkeit, Leben, wie wir es kennen, zu beherbergen. Das Auftreten von dauerhaft gefrorenen Böden, oder auch Permafrost, ist ein verbreitetes Phänomen auf dem Mars. Dabei zeigen sich vielfältige morphologische Analogien zum terrestrischen Permafrost. Permafrostgebiete auf der Erde, welche trotz extremer, Bedingungen durch eine große Zahl und Vielfalt mikrobieller Gemeinschaften besiedelt sind, sind hinsichtlich möglicher Habitate auf dem Mars die vielversprechendste Analogie. Die meisten methanogenen Archaeen sind anaerobe, chemolithotrophe Mikroorganismen, die auf der Marsoberfläche viele der metabolischen und physiologischen Erfordernisse zum Überleben vorfinden. Methanogene Archaeen aus dem sibirischen Permafrost sind zudem extrem resistent gegenüber unterschiedlichen Formen von physiologischem Stress sowie simulierten thermo-physikalischen Marsbedingungen. Die Hauptziele dieser Untersuchung bestehen darin, das Überleben der methanogenen Archaeen unter Marsbedingungen zu beurteilen, wobei der Fokus auf methanogenen Archaeen aus dem sibirischen Permafrost liegt, sowie deren Biosignaturen mit Hilfe der Raman-Spektroskopie zu charakterisieren, einer starken Technologie zur mikrobiellen Identifikation, welche bei der ExoMars-Mission zum Einsatz kommen wird. Zu diesem Zweck wurden methanogene Archaeen aus dem sibirischen Permafrost sowie aus Nicht-Permafrost-Habitaten in Simulationen Marsbedingungen ausgesetzt, wie Austrocknung durch Langzeitversuche bei ultraniedrigen Temperaturen unter dem Gefrierpunkt (-80ºC), Mars-analogen Mineralien (S-MRS und P-MRS) sowie einer Marsatmosphäre. Weiterhin wurden die Kulturen verschiedenen Konzentrationen von Magnesiumperchlorat, einem starken Oxidant, der im Marsboden nachgewiesenen wurde, ausgesetzt. Ferner wurden die Biosignaturen einzelner Zellen der methanogenen Archaeen mit Hilfe der konfokalen Raman-Mikrospektroskopie (CRM) charakterisiert. Die Ergebnisse zeigten für alle untersuchten methanogenen Stämme Überleben und Methanbildung, nachdem diese simulierten Austrocknungsbedingungen ausgesetzt worden waren. Nach Versuchen mit Temperaturen unter dem Gefrierpunkt zeigten die Stämme aus dem sibirischen Permafrost eine schnellere Wiederaufnahme der Stoffwechseltätigkeit, wohingegen bei den Referenzorganismen aus Nicht-Permafrost-Habitaten die Zell¬membranen im größeren Ausmaß intakt blieben. Der Stamm Methanosarcina soligelidi SMA-21 aus dem sibirischen Permafrost zeigte nach dem Belastungstest mit Marsboden und Mars-analoger Atmosphäre signifikant höhere Methanbildungsraten. Zudem überlebten alle untersuchten Stämme die Zugabe von Magnesiumperchlorat in der entsprechenden Konzentration, die auf dem Mars vorkommt. Weiterhin konnten durch die Raman-Spektroskopie beachtliche Unterschiede in der chemischen Zusammensetzung zwischen methanogenen Archaeen aus Permafrost- und Nicht-Permafrost-Habitaten, trotz ihrer phylogenetischen Verwandtschaft, ermittelt werden. Die Konvergenz der chemischen Zusammensetzung der Permafrost-Stämme könnte das Resultat ihrer Anpassung an die Umgebung sein, was auch die Unterschiede hinsichtlich ihrer Resistenz verglichen mit Nicht-Permafrost-Stämmen erklären könnte. Als Teil dieser Studie wurde die Raman-Spektroskopie als Analyse-Technik zur Ferndetektion von methanogenen Archaeen, welche in eine Mineral-Matrix eingebettet sind, evaluiert. Diese Dissertation trägt zu einem besseren Verständnis hinsichtlich der Grenzen für ein Überleben von methanogenen Archaeen unter simulierten Marsbedingungen bei und damit zu einer Beurteilung der Hypothese, ob es ähnliches Leben unter der Marsoberfläche geben könnte. Darüber hinaus wurde erstmalig die chemische Zusammensetzung von methanogenen Archaeen mit Hilfe der Raman-Mikrospektroskopie charakterisiert. Dieser Technologie kommt eine wesentliche Bedeutung für weitere Forschungstätigkeit in der Astrobiologie zu. Mars Raman Spektroskopie Biosignaturen methanogenic archaea Siberian permafrost Mars Raman spectroscopy biosignatures Life sciences
19	Palaeobiology and diversification of Proterozoic-Cambrian photosynthetic eukaryotes Agić, Heda January 2015 (has links) One of the most important events in the history of life is the evolution of the complex, eukaryotic cell. The eukaryotes are complex organisms with membrane-bound intracellular structures, and they include a variety of both single-celled and multicellular organisms: plants, animals, fungi and various protists. The evolutionary origin of this group may be studied by direct evidence of past life: fossils. The oldest traces of eukaryotes have appeared by 2.4 billion years ago (Ga), and have additionally diversified in the period around 1.8 Ga. The Mesoproterozoic Era (1.6-1 Ga) is characterised by the first evidence of the appearance complex unicellular microfossils, as well as innovative morphologies, and the evolution of sexual reproduction and multicellularity. For a better understanding of the early eukaryotic evolution and diversification patterns, a part of this thesis has focused on the microfossil records from various time periods and geographic locations. Examination of microfossil morphology, cell wall microstructure and biochemical properties, reflect their intracellular complexity and function, and allow reconstructions of their life cycle, as well as observing the evolutionary pattern of change from Mesoproterozoic, to Cambrian-Ordovician transition. Several case studies included assemblages deriving from Mesoproterozoic, Neoproterozoic and early Paleozoic time intervals that show disparate morphotypes and innovative features indicative of algal clades. The Mesoproterozoic Ruyang Group in northern China has yielded a diverse microfossil assemblage that provides important clues about the diversification of different eukaryotic groups. Furthermore these microfossils contributed an additional evidence for the emergence of the crown group Eukarya by 1.7-1.4 Ga. In another part of this thesis, examination of wall microstructure and chemical properties via Raman spectroscopy has been used to assess the biological affinities of various Neoproterozoic problematic carbonaceous compression fossils. Studies on the early Phanerozoic (c. 545-485 Ma) assemblages from Estonia reconstructed patterns of the early radiations of phytoplankton and its evolutionary innovations. A continuing theme in this thesis has been using a combination of evidence of microfossils’ fine-scale morphology, ecology and chemical properties to determine their function in life, in addition to their systematic position. / Palaeobiology and diversification of Proterozoic-Cambrian photosynthetic eukaryotes microfossils eukaryotes Mesoproterozoic Neoproterozoic Cambrian Ordovician palaeobiology biostratigraphy phylogeny China Estonia Siberian Platform prasinophytes microstructure Raman spectroscopy
20	"Kill the State in Yourself": Totalitarianism and the Illiberal Dissidence of Egor Letov Frevert, Katherine 08 November 2022 (has links) No description available. Slavic Studies East European Studies Russian History Egor Letov Siberian punk Totalitarianism Soviet dissidents Soviet Union 1980s Slavic Studies

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