TY - THES A1 - Khawaja, Muhammad Asim T1 - Improving earthquake forecast modeling and testing using the multi-resolution grids Y1 - 2023 ER - TY - THES A1 - Ribacki, Enrico T1 - Intra-granitic pegmatites of the Las Chacras-Potrerillos batholith, Argentina Y1 - 2023 ER - TY - THES A1 - Esfahani, Reza Dokht Dolatabadi T1 - Time-dependent monitoring of near-surface and ground motion modelling: developing new data processing approaches based on Music Information Retrieval (MIR) strategies N2 - Seismology, like many scientific fields, e.g., music information retrieval and speech signal pro- cessing, is experiencing exponential growth in the amount of data acquired by modern seismo- logical networks. In this thesis, I take advantage of the opportunities offered by "big data" and by the methods developed in the areas of music information retrieval and machine learning to predict better the ground motion generated by earthquakes and to study the properties of the surface layers of the Earth. In order to better predict seismic ground motions, I propose two approaches based on unsupervised deep learning methods, an autoencoder network and Generative Adversarial Networks. The autoencoder technique explores a massive amount of ground motion data, evaluates the required parameters, and generates synthetic ground motion data in the Fourier amplitude spectra (FAS) domain. This method is tested on two synthetic datasets and one real dataset. The application on the real dataset shows that the substantial information contained within the FAS data can be encoded to a four to the five-dimensional manifold. Consequently, only a few independent parameters are required for efficient ground motion prediction. I also propose a method based on Conditional Generative Adversarial Networks (CGAN) for simulating ground motion records in the time-frequency and time domains. CGAN generates the time-frequency domains based on the parameters: magnitude, distance, and shear wave velocities to 30 m depth (VS30). After generating the amplitude of the time-frequency domains using the CGAN model, instead of classical conventional methods that assume the amplitude spectra with a random phase spectrum, the phase of the time-frequency domains is recovered by minimizing the observed and reconstructed spectrograms. In the second part of this dissertation, I propose two methods for the monitoring and characterization of near-surface materials and site effect analyses. I implement an autocorrelation function and an interferometry method to monitor the velocity changes of near-surface materials resulting from the Kumamoto earthquake sequence (Japan, 2016). The observed seismic velocity changes during the strong shaking are due to the non-linear response of the near-surface materials. The results show that the velocity changes lasted for about two months after the Kumamoto mainshock. Furthermore, I used the velocity changes to evaluate the in-situ strain-stress relationship. I also propose a method for assessing the site proxy "VS30" using non-invasive analysis. In the proposed method, a dispersion curve of surface waves is inverted to estimate the shear wave velocity of the subsurface. This method is based on the Dix-like linear operators, which relate the shear wave velocity to the phase velocity. The proposed method is fast, efficient, and stable. All of the methods presented in this work can be used for processing "big data" in seismology and for the analysis of weak and strong ground motion data, to predict ground shaking, and to analyze site responses by considering potential time dependencies and nonlinearities. KW - ground motion modeling KW - machine learning KW - near-surface monitoring KW - imaging KW - generative model KW - surface wave Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-567671 ER - TY - THES A1 - Schönfeldt, Elisabeth T1 - Giant landslides in Patagonia, Argentina Y1 - 2022 ER - TY - THES A1 - Zhao, Xueru T1 - Palaeoclimate and palaeoenvironment evolution from the last glacial maximum into the early holocene (23-8 ka BP) derived from Lago Grande di Monticchio sediment record (S Italy) Y1 - 2021 ER - TY - THES A1 - Hébert, Raphaёl T1 - Investigation of vegetation and terrestrial climate variablity during the holocene BT - bridging the gap from annual to millennial timescales Y1 - 2021 ER - TY - THES A1 - Liu, Sisi T1 - The history of plant diversity change and community assemply a high-altitude and high-latitude ecosystems inferred from sedimentary (ancient) DNA and pollen Y1 - 2021 ER - TY - THES A1 - Angelopoulos, Michael T1 - Mechanisms of sub-aquatic permafrost evolution in Arctic coastal environments BT - field observations and modelling of submerged ice-rich permafrost deposits and thermokarst lagoons in northeastern Siberia N2 - Subsea permafrost is perennially cryotic earth material that lies offshore. Most submarine permafrost is relict terrestrial permafrost beneath the Arctic shelf seas, was inundated after the last glaciation, and has been warming and thawing ever since. It is a reservoir and confining layer for gas hydrates and has the potential to release greenhouse gases and affect global climate change. Furthermore, subsea permafrost thaw destabilizes coastal infrastructure. While numerous studies focus on its distribution and rate of thaw over glacial timescales, these studies have not been brought together and examined in their entirety to assess rates of thaw beneath the Arctic Ocean. In addition, there is still a large gap in our understanding of sub-aquatic permafrost processes on finer spatial and temporal scales. The degradation rate of subsea permafrost is influenced by the initial conditions upon submergence. Terrestrial permafrost that has already undergone warming, partial thawing or loss of ground ice may react differently to inundation by seawater compared to previously undisturbed ice-rich permafrost. Heat conduction models are sufficient to model the thaw of thick subsea permafrost from the bottom, but few studies have included salt diffusion for top-down chemical degradation in shallow waters characterized by mean annual cryotic conditions on the seabed. Simulating salt transport is critical for assessing degradation rates for recently inundated permafrost, which may accelerate in response to warming shelf waters, a lengthening open water season, and faster coastal erosion rates. In the nearshore zone, degradation rates are also controlled by seasonal processes like bedfast ice, brine injection, seasonal freezing under floating ice conditions and warm freshwater discharge from large rivers. The interplay of all these variables is complex and needs further research. To fill this knowledge gap, this thesis investigates sub-aquatic permafrost along the southern coast of the Bykovsky Peninsula in eastern Siberia. Sediment cores and ground temperature profiles were collected at a freshwater thermokarst lake and two thermokarst lagoons in 2017. At this site, the coastline is retreating, and seawater is inundating various types of permafrost: sections of ice-rich Pleistocene permafrost (Yedoma) cliffs at the coastline alternate with lagoons and lower elevation previously thawed and refrozen permafrost basins (Alases). Electrical resistivity surveys with floating electrodes were carried out to map ice-bearing permafrost and taliks (unfrozen zones in the permafrost, usually formed beneath lakes) along the diverse coastline and in the lagoons. Combined with the borehole data, the electrical resistivity results permit estimation of contemporary ice-bearing permafrost characteristics, distribution, and occasionally, thickness. To conceptualize possible geomorphological and marine evolutionary pathways to the formation of the observed layering, numerical models were applied. The developed model incorporates salt diffusion and seasonal dynamics at the seabed, including bedfast ice. Even along coastlines with mean annual non-cryotic boundary conditions like the Bykovsky Peninsula, the modelling results show that salt diffusion minimizes seasonal freezing of the seabed, leading to faster degradation rates compared to models without salt diffusion. Seasonal processes are also important for thermokarst lake to lagoon transitions because lagoons can generate cold hypersaline conditions underneath the ice cover. My research suggests that ice-bearing permafrost can form in a coastal lagoon environment, even under floating ice. Alas basins, however, may degrade more than twice as fast as Yedoma permafrost in the first several decades of inundation. In addition to a lower ice content compared to Yedoma permafrost, Alas basins may be pre-conditioned with salt from adjacent lagoons. Considering the widespread distribution of thermokarst in the Arctic, its integration into geophysical models and offshore surveys is important to quantify and understand subsea permafrost degradation and aggradation. Through numerical modelling, fieldwork, and a circum-Arctic review of subsea permafrost literature, this thesis provides new insights into sub-aquatic permafrost evolution in saline coastal environments. KW - permafrost KW - subsea KW - submarine KW - thermokarst KW - lagoons KW - salt diffusion KW - electrical resistivity Y1 - 2020 ER - TY - THES A1 - Mogrovejo Arias, Diana Carolina T1 - Assessment of the frequency and relevance of potentially pathogenic phenotypes in microbial isolates from Arctic environments N2 - The Arctic environments constitute rich and dynamic ecosystems, dominated by microorganisms extremely well adapted to survive and function under severe conditions. A range of physiological adaptations allow the microbiota in these habitats to withstand low temperatures, low water and nutrient availability, high levels of UV radiation, etc. In addition, other adaptations of clear competitive nature are directed at not only surviving but thriving in these environments, by disrupting the metabolism of neighboring cells and affecting intermicrobial communication. Since Arctic microbes are bioindicators which amplify climate alterations in the environment, the Arctic region presents the opportunity to study local microbiota and carry out research about interesting, potentially virulent phenotypes that could be dispersed into other habitats around the globe as a consequence of accelerating climate change. In this context, exploration of Arctic habitats as well as descriptions of the microbes inhabiting them are abundant but microbial competitive strategies commonly associated with virulence and pathogens are rarely reported. In this project, environmental samples from the Arctic region were collected and microorganisms (bacteria and fungi) were isolated. The clinical relevance of these microorganisms was assessed by observing the following virulence markers: ability to grow at a range of temperatures, expression of antimicrobial resistance and production of hemolysins. The aim of this project is to determine the frequency and relevance of these characteristics in an effort to understand microbial adaptations in habitats threatened by climate change. The isolates obtained and described here were able to grow at a range of temperatures, in some cases more than 30 °C higher than their original isolation temperature. A considerable number of them consistently expressed compounds capable of lysing sheep and bovine erythrocytes on blood agar at different incubation temperatures. Ethanolic extracts of these bacteria were able to cause rapid and complete lysis of erythrocyte suspensions and might even be hemolytic when assayed on human blood. In silico analyses showed a variety of resistance elements, some of them novel, against natural and synthetic antimicrobial compounds. In vitro experiments against a number of antimicrobial compounds showed resistance phenotypes belonging to wild-type populations and some non-wild type which clearly denote human influence in the acquisition of antimicrobial resistance. The results of this project demonstrate the presence of virulence-associated factors expressed by microorganisms of natural, non-clinical environments. This study contains some of the first reports, to the best of our knowledge, of hemolytic microbes isolated from the Arctic region. In addition, it provides additional information about the presence and expression of intrinsic and acquired antimicrobial resistance in environmental isolates, contributing to the understanding of the evolution of relevant pathogenic species and opportunistic pathogens. Finally, this study highlights some of the potential risks associated with changes in the polar regions (habitat melting and destruction, ecosystem transition and re-colonization) as important indirect consequences of global warming and altered climatic conditions around the planet. N2 - Die Arktis ist ein reiches und dynamisches Ökosystem, welches von Mikroorganismen dominiert wird, die unter extremen Bedingungen überleben und funktionieren können. Eine Reihe physiologischer Anpassungen ermöglichen es der Mikrobiota, in diesem Lebensraum zu überdauern niedrige Temperaturen, geringe Wasser- und Nährstoffverfügbarkeit, hohe UV-Strahlung, usw. standzuhalten. Andere Fähigkeiten zielen darauf ab, sich einen Konkurrenzvorteil zu verschaffen, indem sie mit antimikrobiellen Substanzen benachbarte Mikroorganismen stören und die intermikrobielle Kommunikation beeinflussen. Arktische Mikroorganismen sind Bioindikatoren, die Klimaveränderungen anzeigen können. Die Arktis bietet Möglichkeiten, die lokale Mikrobiota zu untersuchen, um Rückschlüsse auf den Klimawandel zu ziehen. Insbesondere Forschung über potenziell pathogene Phänotypen, die infolge der Beschleunigung des Klimawandels in andere Lebensräume auf der ganzen Welt verteilt werden könnten, ist hier von herausragender Bedeutung. In diesem Zusammenhang gibt es zahlreiche Untersuchungen zur Erforschung arktischer Lebensräume sowie Beschreibungen der in ihnen lebenden Mikroben, während über bakterielle Konkurrenzstrategien, die üblicherweise mit Virulenz und Krankheitserregern verbunden sind, bisher wenig geforscht wurde. In diesem Projekt wurden Umweltproben aus der Arktis entnommen und Bakterien und Pilze isoliert. Die klinische Relevanz dieser Mikroorganismen wurde durch Untersuchung der folgenden Virulenzmarker bewertet: Fähigkeit, in einem bestimmten Temperaturbereich zu wachsen, Expression von Antibiotikaresistenz und Produktion von Hämolysinen. Ziel dieses Projekts war es, das Vorkommen dieser Eigenschaften zu bestimmen, um die mikrobiellen Anpassungen in vom Klimawandel bedrohten Lebensräumen zu verstehen. Die beschriebenen Bakterienisolate konnten in einem relevanten Temperaturbereich wachsen, in einigen Fällen von mehr als 30 °C höher als ihre ursprüngliche Isolationstemperatur. Eine beträchtliche Anzahl der Isolate exprimierte konsistent Verbindungen, die Schaf- und Rindererythrozyten auf Blutagar bei verschiedenen Inkubationstemperaturen lysieren können. Die Extrakte einiger dieser Bakterien konnten eine schnelle und vollständige Lyse von Schaf- und Rindererythrozytensuspensionen verursachen und sind möglicherweise sogar hämolytisch gegenüber humanem Blut. Darüber hinaus zeigten Genomanalysen eine Vielzahl von Resistenzgenen gegen natürliche und synthetische antimikrobielle Verbindungen, einige neuartige. In-vitro-Experimente zeigten, dass einige Resistenzphänotypen zu Wildtyp-Populationen während andere zu Nicht-Wildtyp gehören, was auf einen menschlichen Einfluss auf den Erwerb von Antibiotikaresistenzen in der Umwelt eindeutig hindeutet. Die Ergebnisse dieses Projekts zeigen das Vorhandensein von Virulenz-assoziierten Faktoren, die von Mikroorganismen natürlicher, nicht klinischer Umgebungen exprimiert werden. Diese Studie enthält nach unserem besten Wissen einige der ersten Berichte über hämolytische Mikroben, die aus der Arktis isoliert wurden. Darüber hinaus liefert es zusätzliche Informationen über das Vorhandensein und die Expression von intrinsischer und erworbener antimikrobieller Resistenz in Umweltisolaten und trägt zum Verständnis der Entwicklung relevanter pathogener Spezies und opportunistischer Pathogene bei. Schließlich beleuchtet diese Studie einige der potenziellen Risiken, die mit Veränderungen in den Polarregionen (Schmelzen und Zerstörung des Lebensraums, Übergang des Ökosystems und Wiederbesiedlung) als wichtige indirekte Folgen der globalen Erwärmung und veränderter klimatischer Bedingungen auf dem Planeten verbunden sind. KW - Arctic KW - pathogens KW - virulence KW - hemolysis KW - antimicrobial resistance KW - climate change KW - bacteria KW - fungi KW - thermotolerance KW - antibiotic resistance KW - Arktis KW - Krankheitserreger KW - Virulenz KW - Hämolyse KW - Antibiotikaresistenz KW - Klimawandel KW - Bakterien KW - Pilze KW - Thermotoleranz Y1 - 2021 N1 - The author would like to acknowledge that the project leading to this doctoral dissertation has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 675546, research project “Microorganisms in Warming Arctic Environments - MicroArctic”. ER - TY - THES A1 - Holm, Stine T1 - Methanogenic communities and metaplasmidome-encoded functions in permafrost environments exposed to thaw N2 - This thesis investigates how the permafrost microbiota responds to global warming. In detail, the constraints behind methane production in thawing permafrost were linked to methanogenic activity, abundance and composition. Furthermore, this thesis offers new insights into microbial adaptions to the changing environmental conditions during global warming. This was assesed by investigating the potential ecological relevant functions encoded by plasmid DNA within the permafrost microbiota. Permafrost of both interglacial and glacial origin spanning the Holocene to the late Pleistocene, including Eemian, were studied during long-term thaw incubations. Furthermore, several permafrost cores of different stratigraphy, soil type and vegetation cover were used to target the main constraints behind methane production during short-term thaw simulations. Short- and long-term incubations simulating thaw with and without the addition of substrate were combined with activity measurements, amplicon and metagenomic sequencing of permanently frozen and seasonally thawed active layer. Combined, it allowed to address the following questions. i) What constraints methane production when permafrost thaws and how is this linked to methanogenic activity, abundance and composition? ii) How does the methanogenic community composition change during long-term thawing conditions? iii) Which potential ecological relevant functions are encoded by plasmid DNA in active layer soils? The major outcomes of this thesis are as follows. i) Methane production from permafrost after long-term thaw simulation was found to be constrained mainly by the abundance of methanogens and the archaeal community composition. Deposits formed during periods of warmer temperatures and increased precipitation, (here represented by deposits from the Late Pleistocene of both interstadial and interglacial periods) were found to respond strongest to thawing conditions and to contain an archaeal community dominated by methanogenic archaea (40% and 100% of all detected archaea). Methanogenic population size and carbon density were identified as main predictors for potential methane production in thawing permafrost in short-term incubations when substrate was sufficiently available. ii) Besides determining the methanogenic activity after long-term thaw, the paleoenvironmental conditions were also found to influence the response of the methanogenic community composition. Substantial shifts within methanogenic community structure and a drop in diversity were observed in deposits formed during warmer periods, but not in deposits from stadials, when colder and drier conditions occurred. Overall, a shift towards a dominance of hydrogenotrophic methanogens was observed in all samples, except for the oldest interglacial deposits from the Eemian, which displayed a potential dominance of acetoclastic methanogens. The Eemian, which is discussed to serve as an analogue to current climate conditions, contained highly active methanogenic communities. However, all potential limitation of methane production after permafrost thaw, it means methanogenic community structure, methanogenic population size, and substrate pool might be overcome after permafrost had thawed on the long-term. iii) Enrichments with soil from the seasonally thawed active layer revealed that its plasmid DNA (‘metaplasmidome’) carries stress-response genes. In particular it encoded antibiotic resistance genes, heavy metal resistance genes, cold shock proteins and genes encoding UV-protection. Those are functions that are directly involved in the adaptation of microbial communities to stresses in polar environments. It was further found that metaplasmidomes from the Siberian active layer originate mainly from Gammaproteobacteria. By applying enrichment cultures followed by plasmid DNA extraction it was possible to obtain a higher average contigs length and significantly higher recovery of plasmid sequences than from extracting plasmid sequences from metagenomes. The approach of analyzing ‘metaplasmidomes’ established in this thesis is therefore suitable for studying the ecological role of plasmids in polar environments in general. This thesis emphasizes that including microbial community dynamics have the potential to improve permafrost-carbon projections. Microbially mediated methane release from permafrost environments may significantly impact future climate change. This thesis identified drivers of methanogenic composition, abundance and activity in thawing permafrost landscapes. Finally, this thesis underlines the importance to study how the current warming Arctic affects microbial communities in order to gain more insight into microbial response and adaptation strategies. N2 - Diese Dissertation untersucht die Reaktion der Permafrost-Mikrobiota auf die globale Erwärmung. Im Detail wurden mögliche Faktoren, die die Methanproduktion in tauendem Permafrost einschränken, im Zusammenhang methanogener Aktivität, Abundanz und Gemeinschaftszusammensetzung untersucht. Darüber hinaus bietet diese Dissertation neue Einblicke in mikrobielle Anpassungen an die sich ändernden Umweltbedingungen während der globalen Erwärmung. Dies wurde durch Untersuchung der potenziell ökologisch relevanten Funktionen bewertet, die von Plasmid-DNA innerhalb der Permafrost-Mikrobiota codiert werden. Permafrost, der seinen Ursprung in den Interglazialen und Glazialen aus dem Holozän bis zum späten Pleistozän, einschließlich des Eem, hat, wurde in Langzeit-Tau-Inkubationen untersucht. Darüber hinaus wurden mehrere Permafrostkerne mit unterschiedlicher Stratigraphie, Vegetationsbedeckung und unterschiedlichem Bodentyp verwendet, um die Faktoren, die die Methanproduktion während kurzfristiger Auftausimulationen bestimmen, zu ermitteln. Kurz- und Langzeitinkubationen, die das Auftauen mit und ohne Zugabe von Substrat in Kombination mit Aktivitätsmessungen, Amplikon- und Metagenom-Sequenzierung von permanent gefrorenem und saisonal aufgetautem Boden simulieren, ermöglichten die Beantwortung folgender Fragen: i) Welche Faktoren hemmen die Methanproduktion beim Auftauen des Permafrosts und wie hängt dies mit der Aktivität, Abundanz und Zusammensetzung methanogener Organismen zusammen? ii) Wie verändert sich die Gemeinschaftszusammensetzung methanogener Organismen unter langfristigen Auftaubedingungen? iii) Welche potenziell ökologisch relevanten Funktionen werden von Plasmid-DNA in saisonal getauten Böden kodiert? Die wichtigsten Ergebnisse dieser Arbeit können wie folgt zusammengefasst werden. i) Die Methanproduktion in langfristig getautem Permafrost wird hauptsächlich durch die Anzahl der methanogenen Archaeen und ihrem Anteil innerhalb der Archaeen bestimmt. Ablagerungen, die in wärmeren Perioden mit erhöhtem Niederschlag gebildet wurden, reagierten am stärksten auf das Tauen und enthielten eine von Methanogenen dominierte Archaeen-Gemeinschaft. In Kurzzeitinkubationen mit ausreichender Verfügbarkeit von Substrat wurden die Populationsgröße der methanogenen Organismen und die Kohlenstoffdichte als Hauptprädiktoren für die potenzielle Methanproduktion beim Auftauen von Permafrost identifiziert. ii) Auch die paläoökologischen Bedingungen beeinflussen die Reaktion der methanogenen Gemeinschaft und Aktivität, wenn Permafrost taut. Es wurden erhebliche Verschiebungen innerhalb der Gemeinschaftsstruktur und ein Rückgang der Diversität in Ablagerungen beobachtet, die in wärmeren Perioden gebildet wurden, jedoch nicht bei Ablagerungen aus kälteren und trockeneren Perioden. Insgesamt wurde in allen Proben eine Verschiebung hin zu einer Dominanz von hydrogenotrophen Methanogenen beobachtet, mit Ausnahme der ältesten interglazialen Ablagerungen aus dem Eem, die eine potenzielle Dominanz von acetoklastischen Methanogenen aufwiesen. Das Eem, das als Analogon zu den aktuellen Klimabedingungen diskutiert wird, enthielt hochaktive methanogene Gemeinschaften. iii) Anreicherungen aus Boden der saisonalen Auftauschicht zeigten, dass die enthaltene Plasmid-DNA („Metaplasmidom“) Stress-Reaktions-Gene trägt. Insbesondere codierte die Plasmid-DNA Antibiotikaresistenzgene, Schwermetallresistenzgene, Kälteschock-proteine und Gene, für den UV-Schutz, also Funktionen, die direkt an der Anpassung mikrobieller Gemeinschaften an Stress in polaren Umgebungen beteiligt sind. Weiterhin stammten die Metaplasmidome der saisonalen Auftauschicht Sibiriens hauptsächlich von Gammaproteobakterien. Durch die Anreicherung von Kulturen, gefolgt von einer Extraktion der Plasmid-DNA, war es möglich, eine höhere durchschnittliche Contig-Länge und eine signifikant höhere Wiederherstellung von Plasmidsequenzen zu erhalten als durch Extrahieren von Plasmidsequenzen aus Metagenomen. Der in dieser Arbeit etablierte Ansatz zur Analyse von „Metaplasmidomen“ ist ein geeigneter Ansatz zur Untersuchung der ökologischen Rolle von Plasmiden in polaren Regionen insgesamt. Diese Dissertation hebt hervor, wie wichtig es ist, die Abundanz, Zusammensetzung und Funktionen der mikrobiellen Gemeinschaft in Permafrost-Kohlenstoff-Projektionen einzubeziehen, und zwar nicht nur, da die mikrobiell vermittelte Methanfreisetzung aus Permafrostablagerungen das Potenzial hat, den zukünftigen Klimawandel erheblich zu beeinflussen. Vielmehr wurden in dieser Arbeit Abhängigkeiten methanogener Gemeinschaftsstrukturen, Abundanz und Aktivität identifiziert. Abschließend verdeutlicht diese Arbeit, wie wichtig es ist zu untersuchen, wie sich die derzeitige Erwärmung der Arktis auf mikrobielle Gemeinschaften auswirkt, um Einblicke in mikrobielle Reaktions- und Anpassungsstrategien zu erhalten. KW - methanogenic archaea KW - methane KW - glacial and interglacial permafrost KW - Permafrost carbon feedback KW - carbon density KW - Siberia KW - Herschel Island Qikiqtaruk KW - active layer KW - plasmidome KW - stress-tolerance genes Y1 - 2020 ER - TY - THES A1 - Menges, Johanna T1 - Organic Carbon Storage, Transfer and Transformation in the Himalaya BT - insights from the Kali Gandaki Valley in Central Nepal N2 - The transfer of particulate organic carbon from continents to the ocean is an important component of the global carbon cycle. Transfer to and burial of photosynthetically fixed biospheric organic carbon in marine sediments can effectively sequester atmospheric carbon dioxide over geological timescales. The exhumation and erosion of fossil organic carbon contained in sedimentary rocks, i.e. petrogenic carbon, can result in remineralization, releasing carbon to the atmosphere. In contrast, eroded petrogenic organic carbon that gets transferred back to the ocean and reburied does not affect atmospheric carbon content. Mountain ranges play a key role in this transfer since they can source vast amounts of sediment including particulate organic carbon. Globally, the export of both, biospheric and petrogenic organic carbon has been linked to sediment export. Additionally, short transfer times from mountains to the ocean and high sediment concentrations have been shown to increase the likelihood of organic carbon burial. While the importance of mountain ranges in the organic carbon cycle is now widely recognized, the processes acting within mountain ranges to influence the storage, cycling and mobilization of organic carbon, as well as carbon fluxes from mountain ranges remain poorly constrained. In this thesis, I employ different methods to assess the nature and fate of particulate organic carbon in mountain belts, ranging from the molecular to regional landscape scale. These studies are located along the Trans-Himalayan Kali Gandaki River in Central Nepal. This river traverses all major geological and climatic zones of the Himalaya, from the dry northern Tibetan plateau to the high-relief, monsoon dominated steep High Himalaya and the lower relief and abundant vegetation of the Lesser Himalayan region. First, I document how biospheric organic matter has accumulated during the Holocene in the headwaters of the Kali Gandaki River valley, by combining compound specific isotope measurements with different dating methods and grain size data, and investigate the stability of this organic carbon reservoir on millennial timescales. I show, that around 1.6 ka an eco-geomorphic tipping point occurred leading to a destabilization of the landscape resulting in today’s high erosion rates and the excavation of the aged organic carbon reservoir. This study highlights the climatic and geomorphic controls on biospheric organic carbon storage and release from mountain ranges. Second, I systematically investigate the spatial variation of particulate organic carbon fluxes across the Himalaya along the Kali Gandaki River, using bulk stable and radioactive isotopes combined with a new Bayesian modeling approach. The detailed dataset allows the distinction of aged and modern biospheric organic carbon as well as petrogenic organic carbon across the Himalayan mountain range and the investigation of the role of climatic and geomorphic factors in their riverine export. The data suggest a decoupling of the particulate organic carbon from the sediment yield along the Kali Gandaki River, partially driven by climatic and geomorphic processes. In contrast to the suspended sediment, a large part of the particulate organic carbon exported by the river originates from the Tibetan part of the catchment and is dominated by petrogenic organic carbon derived from Jurassic shales with only minor contributions of modern and aged biospheric organic carbon. These findings emphasize the importance of organic carbon source distribution and erosion mechanisms in determining the organic carbon export from mountain ranges. In a third step, I explore the potential of ultra-high resolution mass spectrometry for particulate organic carbon transport studies. I have generated a novel and unprecedented high-resolution molecular dataset, which contains up to 103 molecular formulas of the lipid fraction of particulate organic matter for modern and aged biospheric carbon, petrogenic organic carbon and river sediments. First, I test if this dataset can be used to better resolve different organic carbon sources and to identify new geochemical tracers. Using multivariate statistics, I identify up to 10² characteristic molecular formulas for the major organic carbon sources in the upper part of the Kali Gandaki catchment, and trace their transfer from the surrounding landscape into the river sediment. Second, I test the potential of the molecular dataset to trace molecular transformations along source-to-sink pathways. I identify changes in molecular metrics derived from the dataset, which are characteristic of transformation processes during incorporation of litter into soil, the aging of soil material, and the mobilization of the organic carbon into the river. These two studies demonstrate that high-resolution molecular datasets open a promising analytical window on particulate organic carbon and can provide novel insights into the composition, sourcing and transformation of riverine particulate organic carbon. Collectively, these studies advance our understanding of the processes contributing to the storage and mobilization of organic carbon in the Central Himalaya, the mountain belt that dominates global erosional fluxes. They do so by identifying the major sources of particulate organic carbon to the Trans-Himalayan Kali Gandaki River, by elucidating their sensitivity to climate and geomorphic processes, and by identifying some of the transformations of this material on the molecular scale. As a result, the thesis demonstrates that the amount and composition of organic carbon routed from mountain belts is a function of the dynamic interactions of geologic, biologic, geomorphic and climatic processes within the mountain belt. This understanding will ultimately help in answering whether the build-up and erosion of mountain ranges over geological time represents a net carbon source or sink to the atmosphere. Beyond this, the thesis contributes to our technical ability to characterize organic matter and attribute it to sources by scoping the potential of high-end molecular analysis. KW - organic carbon cycle KW - biomarker KW - isotopes KW - Himalaya KW - rivers Y1 - 2020 ER - TY - THES A1 - Schimpf, Stefan T1 - Herkunft und Ablagerungsmilieu quartärer Sedimente im Einzugsgebiet des Heihe, NW China N2 - Der zentralasiatische Naturraum, wie er sich uns heute präsentiert, ist das Ergebnis eines Zusammenwirkens vieler verschiedener Faktoren über Jahrmillionen hinweg. Im aktuellen Kontext des Klimawandels zeigt sich jedoch, wie stark sich Stoffflüsse auch kurzfristig ändern und dabei das Gesicht der Landschaft verwandeln können. Die Gobi-Wüste in der Inneren Mongolei (China), als Teil der gleichnamigen Trockenregionen Nordwestchinas, ist aufgrund der Ausgestaltung ihrer landschaftsprägenden Elemente sowie ihrer Landschaftsdynamik, im Zusammenhang mit der Lage zum Tibet-Plateau, in den Fokus der klimageschichtlichen Grundlagenforschung gerückt. Als großes Langzeitarchiv unterschiedlichster fluvialer, lakustriner und äolischer Sedimente stellt sie eine bedeutende Lokalität zur Rekonstruktion von lokalen und regionalen Stoffflüssen dar.. Andererseits ist die Gobi-Wüste zugleich auch eine bedeutende Quelle für den überregionalen Staubtransport, da sie aufgrund der klimatischen Bedingungen insbesondere der Erosion durch Ausblasung preisgegeben wird. Vor diesem Hintergrund erfolgten zwischen 2011 und 2014, im Rahmen des BMBF-Verbundprogramms WTZ Zentralasien – Monsundynamik & Geoökosysteme (Förderkennzeichen 03G0814), mehrere deutsch-chinesische Expeditionen in das Ejina-Becken (Innere Mongolei) und das Qilian Shan-Vorland. Im Zuge dieser Expeditionen wurden für eine Bestimmung potenzieller Sedimentquellen erstmals zahlreiche Oberflächenproben aus dem gesamten Einzugsgebiet des Heihe (schwarzer Fluss) gesammelt. Zudem wurden mit zwei Bohrungen im inneren des Ejina-Beckens, ergänzende Sedimentbohrkerne zum bestehenden Bohrkern D100 (siehe Wünnemann (2005)) abgeteuft, um weit reichende, ergänzende Informationen zur Landschaftsgeschichte und zum überregionalen Sedimenttransfer zu erhalten. Gegenstand und Ziel der vorliegenden Doktorarbeit ist die sedimentologisch-mineralogische Charakterisierung des Untersuchungsgebietes in Bezug auf potenzielle Sedimentquellen und Stoffflüsse des Ejina-Beckens sowie die Rekonstruktion der Ablagerungsgeschichte eines dort erbohrten, 19m langen Sedimentbohrkerns (GN100). Schwerpunkt ist hierbei die Klärung der Sedimentherkunft innerhalb des Bohrkerns sowie die Ausweisung von Herkunftssignalen und möglichen Sedimentquellen bzw. Sedimenttransportpfaden. Die methodische Herangehensweise basiert auf einem Multi-Proxy-Ansatz zur Charakterisierung der klastischen Sedimentfazies anhand von Geländebeobachtungen, lithologisch-granulometrischen und mineralogisch-geochemischen Analysen sowie statistischen Verfahren. Für die mineralogischen Untersuchungen der Sedimente wurde eine neue, rasterelektronenmikroskopische Methode zur automatisierten Partikelanalyse genutzt und den traditionellen Methoden gegenübergestellt. Die synoptische Betrachtung der granulometrischen, geochemischen und mineralogischen Befunde der Oberflächensedimente ergibt für das Untersuchungsgebiet ein logisches Kaskadenmodell mit immer wiederkehrenden Prozessbereichen und ähnlichen Prozesssignalen. Die umfangreichen granulometrischen Analysen deuten dabei auf abnehmende Korngrößen mit zunehmender Entfernung vom Qilian Shan hin und ermöglichen die Identifizierung von vier texturellen Signalen: den fluvialen Sanden, den Dünensanden, den Stillwassersedimenten und Stäuben. Diese Ergebnisse können als Interpretationsgrundlage für die Korngrößenanalysen des Bohrkerns genutzt werden. Somit ist es möglich, die Ablagerungsgeschichte der Bohrkernsedimente zu rekonstruieren und in Verbindung mit eigenen und literaturbasierten Datierungen in einen Gesamtkontext einzuhängen. Für das Untersuchungsgebiet werden somit vier Ablagerungsphasen ausgewiesen, die bis in die Zeit des letzten glazialen Maximums (LGM) zurückreichen. Während dieser Ablagerungsphasen kam es im Zuge unterschiedlicher Aktivitäts- und Stabilitätsphasen zu einer kontinuierlichen Progradation und Überprägung des Schwemmfächers. Eine besonders aktive Phase kann zwischen 8 ka und 4 ka BP festgestellt werden, während der es aufgrund zunehmender fluvialer Aktivitäten zu einer deutlich verstärkten Schwemmfächerdynamik gekommen zu sein scheint. In den Abschnitten davor und danach waren es vor allem äolische Prozesse, die zu einer Überprägung des Schwemmfächers geführt haben. Hinsichtlich der mineralogischen Herkunftssignale gibt es eine große Variabilität. Dies spiegelt die enorme Heterogenität der Geologie des Untersuchungsgebietes wider, wodurch die räumlichen Signale nicht sehr stark ausgeprägt sind. Dennoch, können für das Einzugsgebiet drei größere Bereiche deklariert werden, die als Herkunftsgebiet in Frage kommen. Das östliche Qilian Shan Vorland zeichnet sich dabei durch deutlich höhere Chloritgehalte als primäre Quelle für die Sedimente im Ejina-Becken aus. Sie unterscheiden sich insbesondere durch stark divergierende Chloritgehalte in der Tonmineral- und Gesamtmineralfraktion, was das östliche Qilian Shan Vorland als primäre Quelle für die Sedimente im Ejina-Becken auszeichnet. Dies steht in Zusammenhang mit den Grünschiefern, Ophioliten und Serpentiniten in diesem Bereich. Geochemisch deutet vor allem das Cr/Rb-Verhältnis eine große Variabilität innerhalb des Einzugsgebietes an. Auch hier ist es das östliche Vorland, welches aufgrund seines hohen Anteils an mafischen Gesteinen reich an Chromiten und Spinellen ist und sich somit vom restlichen Untersuchungsgebiet abhebt. Die zeitliche aber auch die generelle Variabilität der Sedimentherkunft lässt sich in den Bohrkernsedimenten nicht so deutlich nachzeichnen. Die mineralogisch-sedimentologischen Eigenschaften der erbohrten klastischen Sedimente zeugen zwar von zwischenzeitlichen Änderungen bei der Sedimentherkunft, diese sind jedoch nicht so deutlich ausgeprägt, wie es die Quellsignale in den Oberflächensedimenten vermuten lassen. Ein Grund dafür scheint die starke Vermischung unterschiedlichster Sedimente während des Transportes zu sein. Die Kombination der Korngrößenergebnisse mit den Befunden der Gesamt- und Schwermineralogie deuten darauf hin, dass es zwischenzeitlich eine Phase mit überwiegend äolischen Prozessen gegeben hat, die mit einem Sedimenteintrag aus dem westlichen Bei Shan in Verbindung stehen. Neben der Zunahme ultrastabiler Schwerminerale wie Zirkon und Granat und der Abnahme opaker Schwerminerale, weisen vor allem die heutigen Verhältnisse darauf hin. Der Vergleich der traditionellen Schwermineralanalyse mit der Computer-Controlled-Scanning-Electron-Microscopy (kurz: CCSEM), die eine automatisierte Partikelauswertung der Proben ermöglicht, zeigt den deutlichen Vorteil der modernen Analysemethode. Neben einem zeitlichen Vorteil, den man durch die automatisierte Abarbeitung der vorbereiteten Proben erlangen kann, steht vor allem die deutlich größere statistische Signifikanz des Ergebnisses im Vordergrund. Zudem können mit dieser Methode auch chemische Varietäten einiger Schwerminerale bestimmt werden, die eine noch feinere Klassifizierung und sicherere Aussagen zu einer möglichen Sedimentherkunft ermöglichen. Damit ergeben sich außerdem verbesserte Aussagen zu Zusammensetzungen und Entstehungsprozessen der abgelagerten Sedimente. Die Studie verdeutlicht, dass die Sedimentherkunft innerhalb des Untersuchungsgebietes sowie die ablaufenden Prozesse zum Teil stark von lokalen Gegebenheiten abhängen. Die Heterogenität der Geologie und die Größe des Einzugsgebietes sowie die daraus resultierende Komplexität der Sedimentgenese, machen exakte Zuordnungen zu klar definierten Sedimentquellen sehr schwer. Dennoch zeigen die Ergebnisse, dass die Sedimentzufuhr in das Ejina-Becken in erster Linie durch fluviale klastische Sedimente des Heihe aus dem Qilian Shan erfolgt sein muss. Die Untersuchungsergebnisse zeigen jedoch ebenso die Notwendigkeit einer ergänzenden Bearbeitung angrenzender Untersuchungsgebiete, wie beispielsweise den Gobi-Altai im Norden oder den Beishan im Westen, sowie die Verdichtung der Oberflächenbeprobung zur feineren Auflösung von lokalen Sedimentquellen. N2 - The Central Asian natural space, as it presents itself today, is the result of a combination of many different factors over millions of years. However, in the current context of climate change it becoming obvious how strongly material fluxes can change in the short-term and thereby transform the face of the landscape. As a large long-term archive of different fluvial, lacustrine and aeolian sediments, the Gobi Desert in Inner Mongolia (China) represents a significant locality for the reconstruction of local and regional material flows as well as an important source for supra-regional dust transport due to erosion by aeolian processes. This, in connection with its location to the Tibetan Plateau, has moved the Gobi Desert into the focus of climate-historical basic research. Against this background, several German-Chinese expeditions to Ejina Basin (Inner Mongolia) and the Qilian Shan foreland were accomplished between 2011 and 2014. They were part of the BMBF joint program WTZ Central Asia - Monsoon Dynamics & Geo-Ecosystems (Grant No. 03G0814). In the course of these expeditions numerous surface samples from the entire catchment area of the Heihe (Black River) were collected for the determination of potential sediment sources. Additionally, two drillings in the interior of the Ejina Basin were conducted as a continuation of the existing drill-core D100 (see Wünnemann (2005)) and for gathering complementary information on landscape history and supra-regional sediment transfer. The goals of this doctoral thesis are a sedimentological-mineralogical characterization of the study area with regard to potential sediment sources and material fluxes of the Ejina Basin as well as the reconstruction of the sedimentation history of a 19 m sediment drill-core (GN100) drilled in the northern part of the basin. The main focus is on the clarification of the sediment provenance within the drill core as well as the designation of provenance signals and possible sediment sources or sediment transport paths. The methodological approach is based on a multi-proxy approach to characterize the clastic sedimentary facies using field observations, lithological-granulometric and mineralogical-geochemical analyses as well as statistical methods. For the mineralogical investigations of the sediments, a new scanning electron microscopic method for automated particle analysis was used and compared with traditional methods. The synoptic analysis of the granulometric, geochemical and mineralogical findings of the surface sediments result in a logical cascade model with recurring process areas and similar process signals. The results of the extensive granulometric analyses indicate decreasing grain sizes as the distance from the Qilian Shan increases and allow the identification of four textural signals: fluvial sands, dune sands, still water sediments and dusts. They can be used as the basis of interpretation for the grain size analyses of the drill core. This makes it possible to reconstruct the depositional history of the core sediments and to put them in an overall context in conjunction with own and literature-based datings. For the study area four depositional phases can be identified which date back until the time of the Last Glacial Maximum (LGM). During these depositional phases, various phases of activity and stability led to a continuous progradation and overprinting of the alluvial fan. A particularly active phase can be observed between 8 ka and 4 ka BP. During this period there seems to have been a significant increase in alluvial fan dynamics due to increasing fluvial activity. In the periods before and after mainly aeolian processes have led to an overprinting of the alluvial fan. Regarding the mineralogical provenance signals there is a great variability. This reflects the enormous geological heterogeneity of the study area, by which the spatial signals are not very pronounced. Nonetheless, within the catchment three larger areas can be declared which can be considered as possible sediment sources. These are the eastern and western foreland of the Qilian Shan mountains as wells as the Bei Shan in the west of the Ejina basin. They differ, in particular, from strongly diverging chlorite contents in the clay mineral and total mineral fraction. The eastern Qilian Shan foreland is characterized by significantly higher chlorite contents as the primary source for the sediments in the Ejina Basin. This is related to the greenschists, ophiolites and serpentinites in this area. Geochemically, the Cr/Rb-ratio in particular indicates a large variability within the catchment area. In this case its again the eastern Qilian Shan foreland which stands out from the rest of the study area with high values due to its high proportion of mafic rocks which are rich in chromites and spinels. Within the drill core sediments of GN100 the temporal but also the general variability of the sediment provenance according to the surface sediment results cannot be clearly traced. The mineralogical-sedimentological characteristics of the drilled clastic sediments exhibit meantime changes in sediment provenance. However, they are not as pronounced as the source signals within the surface sediments suggest. One reason seems to be the strong mixing of different sediments during transport. The combination of the particle size results with the results of the total and heavy mineralogy indicate that there must have been a phase in the meantime with predominantly aeolian processes.. These processes were connected with a sediment input from the Bei Shan mountains in the west. In addition to the increase in ultrastable heavy minerals such as zirconium and garnet and the decline of opaque heavy minerals, mainly present conditions point to this. The comparison of the traditional heavy mineral analysis (polarized light microscopy) with computer-controlled scanning electron microscopy (short: CCSEM) shows the clear advantage of the modern analysis method. Above all is the significant greater statistical significance of the counting results. In addition, this method can also be used to determine chemical varieties of some heavy minerals, which allows an even finer classification and more reliable conclusions about a possible sediment provenance. Furthermore, better statements can be made about the composition and the development process of the deposited sediments. This thesis shows that the sediment provenance within the study area as well as the ongoing processes partly depend strongly on local conditions. Therefore, the heterogeneity of the geology and the size of the catchment as well as the resulting complexity of the sediment genesis makes it very difficult to make exact assignments to clearly defined sediment sources. Nevertheless, the results indicate a primary input of fluvial clastic sediments of the Heihe coming from the Qilian Shan mountains. However, the findings also indicate the need to complement the study with adjacent study areas such as the Gobi Altai in the north or the Beishan in the west as well as a densification of the surface sampling for a better resolution of possible local sediment sources. KW - Heihe KW - Ejina Becken KW - Gaxun Nur KW - Schwerminerale KW - China KW - CCSEM KW - Herkunftsanalyse KW - Tonminerale KW - Heihe KW - Ejina Basin KW - Gaxun Nur KW - Heavy Minerals KW - China KW - CCSEM KW - Provenance Analysis KW - Clay Minerals Y1 - 2020 ER - TY - THES A1 - Scheffler, Franziska T1 - Selenite pseudomorphs BT - from formation to metamorphism - the "Rosetta Marble", Anatolia Y1 - 2019 ER - TY - THES A1 - Kneier, Fabian T1 - Subsea permafrost in the Laptev Sea BT - Influences on degradation, state and distribution BT - Einflüsse auf Degradation, Zustand und Verbreitung N2 - During lower sea levels in glacial periods, deep permafrost formed on large continental shelf areas of the Arctic Ocean. Subsequent sea level rise and coastal erosion created subsea permafrost, which generally degrades after inundation under the influence of a complex suite of marine, near-shore processes. Global warming is especially pronounced in the Arctic, and will increase the transition to and the degradation of subsea permafrost, with implications for atmospheric climate forcing, offshore infrastructure, and aquatic ecosystems. This thesis combines new geophysical, borehole observational and modelling approaches to enhance our understanding of subsea permafrost dynamics. Three specific areas for advancement were identified: (I) sparsity of observational data, (II) lacking implementation of salt infiltration mechanisms in models, and (III) poor understanding of the regional differences in key driving parameters. This study tested the combination of spectral ratios of the ambient vibration seismic wavefield, together with estimated shear wave velocity from seismic interferometry analysis, for estimating the thickness of the unfrozen sediment overlying the ice-bonded permafrost offshore. Mesoscale numerical calculations (10^1 to 10^2 m, thousands of years) were employed to develop and solve the coupled heat diffusion and salt transport equations including phase change effects. Model soil parameters were constrained by borehole data, and the impact of a variety of influences during the transgression was tested in modelling studies. In addition, two inversion schemes (particle swarm optimization and a least-square method) were used to reconstruct temperature histories for the past 200-300 years in the Laptev Sea region in Siberia from two permafrost borehole temperature records. These data were evaluated against larger scale reconstructions from the region. It was found (I) that peaks in spectral ratios modelled for three-layer, one-dimensional systems corresponded with thaw depths. Around Muostakh Island in the central Laptev Sea seismic receivers were deployed on the seabed. Derived depths of the ice-bonded permafrost table were between 3.7-20.7 m ± 15 %, increasing with distance from the coast. (II) Temperatures modelled during the transition to subsea permafrost resembled isothermal conditions after about 2000 years of inundation at Cape Mamontov Klyk, consistent with observations from offshore boreholes. Stratigraphic scenarios showed that salt distribution and infiltration had a large impact on the ice saturation in the sediments. Three key factors were identified that, when changed, shifted the modelled permafrost thaw depth most strongly: bottom water temperatures, shoreline retreat rate and initial temperature before inundation. Salt transport based on diffusion and contribution from arbitrary density-driven mechanisms only accounted for about 50 % of observed thaw depths at offshore sites hundreds to thousands of years after inundation. This bias was found consistently at all three sites in the Laptev Sea region. (III) In the temperature reconstructions, distinct differences in the local temperature histories between the western Laptev Sea and the Lena Delta sites were recognized, such as a transition to warmer temperatures a century later in the western Laptev Sea as well as a peak in warming three decades later. The local permafrost surface temperature history at Sardakh Island in the Lena Delta was reminiscent of the circum-Arctic regional average trends. However, Mamontov Klyk in the western Laptev Sea was consistent to Arctic trends only in the most recent decade and was more similar to northern hemispheric mean trends. Both sites were consistent with a rapid synoptic recent warming. In conclusion, the consistency between modelled response, expected permafrost distribution, and observational data suggests that the passive seismic method is promising for the determination of the thickness of unfrozen sediment on the continental Arctic shelf. The quantified gap between currently modelled and observed thaw depths means that the impact of degradation on climate forcing, ecosystems, and infrastructure is larger than current models predict. This discrepancy suggests the importance of further mechanisms of salt penetration and thaw that have not been considered – either pre-inundation or post-inundation, or both. In addition, any meaningful modelling of subsea permafrost would have to constrain the identified key factors and their regional differences well. The shallow permafrost boreholes provide missing well-resolved short-scale temperature information in the coastal permafrost tundra of the Arctic. As local differences from circum-Arctic reconstructions, such as later warming and higher warming magnitude, were shown to exist in this region, these results provide a basis for local surface temperature record parameterization of climate and, in particular, permafrost models. The results of this work bring us one step further to understanding the full picture of the transition from terrestrial to subsea permafrost. N2 - Als zu glazialen Zeiten der Meeresspiegel niedriger lag, konnte sich tiefer Permafrost (Dauerfrostboden) in weiten Teilen der Kontinentalschelfgebiete des arktischen Ozeans bilden. Durch den darauf folgenden Meeresspiegelanstieg und Küstenerosion wurde dieser überflutet und es entstand submariner Permafrost. Seit der Überflutung wird dieser durch eine Reihe komplexer mariner Prozesse in der küstennahen Zone degradiert. Die Klimaerwärmung ist in der Arktis besonders ausgeprägt, wodurch sich die Überflutung durch Küstenerosion sowie diese Degradationsprozesse in Zukunft weiter intensivieren werden. Dies wird weitreichende Konsequenzen für das Klimasystem (Freisetzung von Treibhausgasen), Offshore-Infrastruktur als auch aquatische Ökosysteme haben. Diese Dissertation kombiniert neue geophysikalische, Bohrlochbeobachtungs-basierte und Modellierungsansätze, um unser Verständnis der speziellen Dynamik des submarinen Permafrosts zu verbessern. Drei spezifische Bereiche wurden identifiziert, welche das derzeitige Verständnis zum submarinen Permafrost maßgeblich einschränken, und in dieser Arbeit gezielt weiterentwickelt wurden: (I) Die spärliche Verfügbarkeit von Beobachtungsdaten, (II) die fehlende Implementation von Salzinfiltrationsmechanismen in Modelbeschreibungen und (III) das mangelnde Verständnis der regionalen Unterschiede von treibenden Einflußparametern. Hierfür wurde die Kombination spektraler Amplitudenverhältnisse der Umgebungsschwingungen im seismischen Wellenfeld (seismisches Hintergrundrauschen) mit der aus seismischer Interferometrie abgeschätzten Scherwellengeschwindigkeit zur Bestimmung der Mächtigkeit der aufgetauten Sedimentschicht oberhalb des eisgebundenen Permafrosts im Meeresboden getestet. Numerische Simulationen (auf der Skala von 10^1 bis 10^2 m, tausende Jahre) wurden zur Entwicklung und Lösung der gekoppelten Wärmeleitungs- und Salztransportgleichungen unter Berücksichtigung von Phasenübergängen angewandt. Hierbei wurden die Modelparameter zur Untergrundbeschaffenheit aus Bohrlochdaten bestimmt und die Auswirkungen verschiedener Parameter während der Meeresüberflutung untersucht. Zusätzlich wurden zwei Inversionsalgorithmen (Partikelschwarmoptimierung und ein Verfahren der kleinsten Quadrate) verwendet, um die Temperaturen der letzten 200-300 Jahre in der Laptewsee-Region in Sibirien anhand zweier Temperaturdatensätze aus Permafrostbohrlöchern zu rekonstruieren. Diese Daten wurden im Vergleich zu größerskaligen Rekonstruktionen aus der Region ausgewertet. Es konnte gezeigt werden, (I) dass die Höchstwerte im spektralen Amplitudenverhältnis, die für den eindimensionalen Fall eines 3-Schicht-Systems modelliert wurden, mit der Auftautiefe zusammenhingen. Seismische Instrumente wurden auf dem Meeresboden um die Insel Muostakh, in der zentralen Laptewsee gelegen, ausgebracht. Die gefundenen Tiefen der eisgebundenen Permafrosttafel lagen zwischen 3.7-20.7 m ± 15 %, und nahmen mit zunehmender Entfernung zur Küste zu. (II) Die modellierten Temperaturen während des Übergangs zum submarinen Permafrost entsprachen ab etwa 2000 Jahren nach der Überflutung isothermischen Bedingungen bei Cape Mamontov Klyk, in Übereinstimmung zu den Beobachtungen in den Bohrlöchern. Stratigrafische Szenarien zeigten, dass die Salzverteilung und -infiltration großen Einfluß auf den Sättigungszustand des Poreneises im Sediment hatte. Drei Schlüsselfaktoren wurden identifiziert, welche, wenn diese verändert wurden, die modellierte Auftautiefe des Permafrosts am stärksten beeinflussten: Die Temperaturen am Meeresboden, die Küstenerosionsrate und die Anfangstemperatur zum Zeitpunkt der Überflutung. Salztransport unter Berücksichtigung von Diffusion und beliebigen dichte-getriebenen Mechanismen unterschätzte die beobachteten Auftautiefen um circa 50 % über hunderte bis tausende von Jahren nach der Überflutung. Diese Abweichung wurde konsistent an allen drei Untersuchungsstandorten in der Laptewsee-Region gefunden. (III) In den Temperaturrekonstruktionen wurden deutliche Unterschiede im lokalen Temperaturverlauf zwischen den Standorten in der westlichen Laptewsee und im Lena Delta festgestellt. Dazu gehörte ein Übergang zu wärmeren Temperaturen ein Jahrhundert später in der westlichen Laptewsee, sowie ein Maximum der Erwärmung drei Jahrzehnte später als im Lena Delta. Die lokale Permafrost-Oberflächentemperaturhistorie auf der Insel Sardakh im Lena Delta glich den zirkumarktischen mittleren Trends. Im Gegensatz dazu stimmte Mamontov Klyk in der westlichen Laptewsee nur im jüngsten Jahrzehnt mit den arktischen Trends überein und glich vielmehr dem mittleren Trend der Nordhemisphäre. Beide Standorte stimmten mit einer schnellen, synoptischen und kürzlichen Erwärmung überein. Abschließend lässt sich festhalten, dass auf Grund der Übereinstimmung zwischen modelliertem Verhalten, erwarteter Permafrostverteilung und Beobachtungsdaten die passiv-seismische Methode vielversprechend für die Dickebestimmung der ungefrorenen Sedimente im arktischen Meeresboden ist. Durch die hier quantifizierte Diskrepanz zwischen aktuell modellierter und beobachteter Auftautiefen wird klar, dass die Auswirkung der Degradation auf Klimaantrieb, Ökosysteme und Infrastruktur größer ist als dies von aktuellen Modellen vorhergesagt wird. Um diese Diskrepanz zu eliminieren, müssen weitere bisher unberücksichtigte Mechanismen der Salzeindringung und des Auftauens vor oder nach der Überflutung in zukünftigen Modellen mit einbezogen werden. Des weiteren folgt aus dieser Arbeit, dass Modellierungen des submarinen Permafrosts die hier identifizierten Schlüsselfaktoren und ihre regionalen Unterschiede berücksichtigen müssen, um ihre Aussagekraft sicher zu stellen. Die Permafrostbohrlöcher liefern bisher fehlende, auf kurzer Zeitskala gut-aufgelöste Temperaturinformationen in der arktischen Küstentundra. Da lokale Abweichungen von zirkumarktischen Rekonstruktionen in dieser Region nachgewiesen werden konnten, stellen die Ergebnisse eine Grundlage für lokale Temperaturverlaufs-Parametrisierungen in Klima- und insbesondere Permafrostmodellen zur Verfügung. Die Ergebnisse dieser Arbeit weisen die Richtung für zukünftige Forschungs- und Modellierungsvorhaben und stellen einen wichtigen Schritt dar, um den Übergang von terrestrischem zu submarinem Permafrost zu verstehen. T2 - Submariner Permafrost in der Laptewsee KW - Subsea permafrost KW - Submarine permafrost KW - Inundation KW - Ambient noise KW - Passive seismic interferometry KW - H/V ratio KW - Coupled heat and mass transport KW - Salt transport KW - Diffusion KW - Temperature reconstruction KW - Borehole reconstruction KW - GST KW - Submariner Permafrost KW - Überflutung KW - seismisches Hintergrundrauschen KW - Passiv-seismische Interferometrie KW - H/V Verhältnis KW - Gekoppelter Wärme- und Massetransport KW - Salztransport KW - Diffusion KW - Temperaturerekonstruktion KW - Bohrloch-Rekonstruktion KW - GST Y1 - 2019 ER - TY - THES A1 - von Specht, Sebastian T1 - Likelihood - based optimization in strong-motion seismology Y1 - 2019 ER - TY - THES A1 - Caesar, Levke T1 - The evolution of the Atlantic Meridional Overturning Circulation and its implications for surface warming N2 - The Atlantic Meridional Overturning Circulation (AMOC) is likely the most well-known system of ocean currents on Earth, redistributing heat, nutrients and carbon over a large part of the Earth’s surface and affecting global climate as a result. Due to enhanced freshwater fluxes into the subpolar North Atlantic as a response to global warming, the AMOC is expected, and may have already started, to weaken and these changes will likely have global impacts. It is therefore of considerable relevance to improve our understanding of past and future AMOC changes. My thesis tries to answer some of the open questions in this field by giving strong evidence that the AMOC has already weakened over the last century, by narrowing future projections of this slowdown and by studying the impacts on global surface warming. While there have been various studies trying to reconstruct the strength of the overturning circulation in the past, often based on model simulations in combination with observations (Jackson et al., 2016, Kanzow et al., 2010) or proxies (Frajka-Williams, 2015, Latif et al., 2006), the results so far, due to lack of direct measurements, have been inconclusive. In the first paper I build on previous work that links the anomalously low sea surface temperatures (SSTs) in the North Atlantic with the reduced meridional heat transport due to a weaker AMOC. Using the output of a high-resolution global climate model, I derive a characteristic spatial and seasonal SST fingerprint of an AMOC slowdown and an improved SST-based AMOC index. The same fingerprint is seen in the observational SSTs since the late 19th Century, giving strong evidence that since then the AMOC has slowed down. In addition, the reconstruction of the historical overturning strength with the new AMOC index agrees well with and extends the results of earlier studies as well as the direct measurements from the RAPID project and shows a strong decline of the AMOC by about 15% (3±1 Sv) since the mid-20th Century (Caesar et al., 2018). The reconstruction of the historical overturning strength with the AMOC index enables us to weight future AMOC projections based on their skill in modeling the historical AMOC as described in the second paper of this thesis (Olson et al., 2018). Using Bayesian model averaging we considerably narrow the projections of the CMIP5 ensemble to a decrease of -4.0 Sv and -6.8 Sv between the years 1960-1999 and 2060-2099 for the RCP4.5 and RCP8.5 emission scenarios, respectively. These values fit to, yet are at the lower end of, previously published estimates. In the third paper I examine how the AMOC slowdown affects the global mean surface temperature (GMST) with a focus on how it will change the ocean heat uptake (OHC). Accounting for the effect of changes in the radiative forcing on the GMST, I test how AMOC variations correlate with the residual part of surface temperature changes in the past. I find that the correlation is positive which fits the understanding that the deep-water formation that is important in driving the AMOC cools the deep ocean and therefore warms the surface (Caesar et al., 2019). The future weakening of the overturning circulation could therefore delay global surface warming. Due to nonlinear behavior and scale specific changes it can be difficult to study the dominant processes and modes that drive climate variability. In the fourth paper we develop and test a new technique based on the wavelet multiscale correlation (WMC) similarity measure to study climate variability on different temporal and spatial scales (Agarwal et al., 2018). In a fifth contribution to my thesis this method is applied to the observed sea surface temperatures. The results reconfirm well-known relations between SST anomalies such as the El Niño-Southern Oscillation (ENSO) and the Pacific Decadal Oscillation (PDO) on inter-annual and decadal timescales, respectively. They furthermore give new insights into the characteristics and origins of long-range teleconnections, for example, that the teleconnection between ENSO and Indian Ocean dipole exist mainly between the northern part of the ENSO tongue and the equatorial Indian Ocean, and provides therefore valuable knowledge about the regions that are necessary to include when modeling regional climate variability at a certain scale (Agarwal et al., 2019). In summary, my PhD thesis investigates past and future AMOC variability and its effects on global mean surface temperature by utilizing a combination of observational sea surface data and the output of historical and future climate model simulations from both the high-resolution CM2.6 model as well as the CMIP5 ensemble. It further includes the development and validation of a new method to study climate variability, that, applied to the observed sea surface temperatures, gives new insight about teleconnections in the Earth System. My findings provide evidence that the AMOC has already slowed down, will continue to do so in the future, and will impact the global mean temperature. Further impacts of an AMOC slowdown may include increased sea-level rise at the U.S. east coast (Ezer, 2015), heat extremes in Europe (Duchez et al., 2016) and increased storm activity in the North Atlantic region (Jackson et al., 2015), all of which have significant socio-economic implications. KW - Climate Change KW - Ocean Circulation KW - AMOC Y1 - 2019 CY - Potsdam ER - TY - THES A1 - Coch, Caroline T1 - The changing Arctic freshwater system BT - the biogeochemistry of small Arctic coastal catchments Y1 - 2019 ER - TY - THES A1 - Fuchs, Matthias T1 - Soil organic carbon and nitrogen pools in thermokarst-affected permafrost terrain Y1 - 2019 ER - TY - THES A1 - Darmawan, Herlan T1 - Morphometric changes at the Merapi lava dome between 2012 and 2017 BT - observations and relevance for hazard assessment Y1 - 2018 ER - TY - THES A1 - Besendörfer, Christian René T1 - Innovationen im nachhaltigen Landmanagement BT - Sichtweisen, Prozesse und Unterstützungsmöglichkeiten Y1 - 2018 ER - TY - THES A1 - Nitze, Ingmar T1 - Remote sensing of rapid permafrost landscape dynamics Y1 - 2017 ER - TY - THES A1 - Irrgang, Anna Maria T1 - Temporal and spatial dynamics of Arctic coastal changes and the resulting impacts: Yukon Territory, Canada Y1 - 2017 ER - TY - THES A1 - Brell, Maximilian T1 - Physically based fusion of airborne hyperspectral and lidar data BT - towards a holistic structural and spectral object characterization Y1 - 2018 ER - TY - THES A1 - Heinecke, Liv T1 - Environmental change in the Eastern Pamir Mountains during last 28 cal ka BP BT - a multi-proxy study investigating sediments from Lake Karakul Y1 - 2018 ER - TY - THES A1 - Tanski, George T1 - Fate of organic matter mobilized from eroding permafrost coasts Y1 - 2017 ER - TY - THES A1 - Wambura, Frank Joseph T1 - Analysis of anthropogenic impacts on water resources in the Wami River basin, Tanzania Y1 - 2017 ER - TY - THES A1 - Richter, Nicole T1 - Investigating hazards and the evolution of volcanic landscapes by means of terrestrial and satellite remote sensing data and modelling Y1 - 2017 ER - TY - THES A1 - Wieczorek, Mareike T1 - Stand structure patterns in the Siberian treeline under climate change Y1 - 2017 ER - TY - THES A1 - Horn, Juliane T1 - A modelling framework for exploration of a multidimensional factor causing decline in honeybee health BT - towards a better understanding how forage availability in agricultural landscapes affects honeybee colony persistence Y1 - 2017 ER - TY - THES A1 - Molkenthin, Christian T1 - Sensitivity analysis in seismic Hazard assessment using algorithmic differentiation Y1 - 2016 ER - TY - THES A1 - Rieckh, Helene T1 - Hydropedological analysis of erosion-affected soils in a hummocky ground-moraine landscape - interactions of water flow, dissolved carbon and particle transport, grop growth, and pedogenesis Y1 - 2016 ER - TY - THES A1 - Wolter, Juliane T1 - Mid- to Late Holocene environmental dynamics on the Yukon Coastal Plain and Herschel Island (Canada) - envidence from polygonal peatlands and lake sediment Y1 - 2016 ER - TY - THES A1 - Niemeyer, Bastian T1 - Vegetation reconstruction and assessment of plant diversity at the treeline ecotone in northern Siberia Y1 - 2016 ER - TY - THES A1 - Hannemann, Katrin T1 - Seismological investigation of the oceanic crust und upper mantle using an ocean bottom station array in the vicinity of the Gloria fault (easter mid Atlantic) Y1 - 2016 ER - TY - THES A1 - Serno, Sascha T1 - Marine productivity and eolian dust supply in the subarctic north pacific : proxy development and evaluation in marine sediments Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Maghsoudi, Samira T1 - Spatiotemporal microseismicity patterns and detection performance in mining environments Y1 - 2014 CY - Potsdam ER - TY - THES A1 - Buhl, Elmar T1 - Brittle deformation of porous sandstone in hypervelocity impact experiments Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Wulf, Sabine T1 - Methods and applications of tephrochronology in sedimentary archives Y1 - 2012 CY - Potsdam ER - TY - THES A1 - Duesterhoeft, Erik T1 - The impact of metamorphic processes on physical properties: a view from thermodynamiccs to geodynamics Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Donner, Stefanie T1 - Seismotectonic implications for the Alborz mountains, Iran, from regional moment tensors Y1 - 2013 CY - POtsdam ER - TY - THES A1 - Pantaleo, Michele T1 - Geothermal and deformation activity observed at volcanoes by using high resolution imaging Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Günther, Frank T1 - Thermo-erosion of permafrost coasts in East Siberia Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Anis, Muhammad Rehan T1 - Climate change effects on overland flow Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Delgado, Jose Miguel Martins T1 - Explaning change in flood hazard in the Mekong river : the hypothesis of nonstationary variance Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Münzel, Sandra T1 - Aspekte der Evolution von aufgespühltem Abraummaterial des Platinerzbergbaus Y1 - 2013 CY - Potsdam ER - TY - THES A1 - Waha, Katharina T1 - Climate change impacts on agricultural vegetation in sub-saharan africa Y1 - 2012 CY - Potsdam ER - TY - THES A1 - Dulanya, Zuze T1 - Environmental impact on shallow-lake fisheries in Malawi : a coupled catchment-based and palaeolimnological approach Y1 - 2012 CY - Potsdam ER - TY - THES A1 - Opitz, Stephan T1 - Late Glacial to Holocene paleoenvironment on the north-eastern Tibetan Plateau inferred from lake sediments Y1 - 2012 CY - Potsdam ER - TY - THES A1 - Biskaborn, Boris T1 - Holocene environmental variability inferred from lake diatoms and sediment geochemistry in northeastern Siberia, Russia Y1 - 2012 CY - Potsdam ER - TY - THES A1 - Paschke, Marco T1 - A highly resolved P-velocity image of the Messum igneous complex in Namibia obtained by waveform tomography Y1 - 2012 CY - Potsdam ER -