TY - JOUR A1 - Palagushkina, Olga A1 - Wetterich, Sebastian A1 - Biskaborn, Boris K. A1 - Nazarova, Larisa B. A1 - Schirrmeister, Lutz A1 - Lenz, Josefine A1 - Schwamborn, Georg A1 - Grosse, Guido T1 - Diatom records and tephra mineralogy in pingo deposits of Seward Peninsula, Alaska JF - Palaeogeography, palaeoclimatology, palaeoecology : an international journal for the geo-sciences N2 - Vast areas of the terrestrial Subarctic and Arctic are underlain by permafrost. Landscape evolution is therefore largely controlled by climate-driven periglacial processes. The response of the frozen ground to late Quaternary warm and cold stages is preserved in permafrost sequences, and deducible by multi-proxy palaeoenvironmental approaches. Here, we analyse radiocarbon-dated mid-Wisconsin Interstadial and Holocene lacustrine deposits preserved in the Kit-1 pingo permafrost sequence combined with water and surface sediment samples from nine modern water bodies on Seward Peninsula (NW Alaska) to reconstruct thermokarst dynamics and determine major abiotic factors that controlled the aquatic ecosystem variability. Our methods comprise taxonomical diatom analyses as well as Detrended Correspondence Analysis (DCA) and Redundancy Analysis (RDA). Our results show, that the fossil diatom record reflects thermokarst lake succession since about 42 C-14 kyr BP. Different thermolcarst lake stages during the mid-Wisconsin Interstadial, the late Wisconsin and the early Holocene are mirrored by changes in diatom abundance, diversity, and ecology. We interpret the taxonomical changes in the fossil diatom assemblages in combination with both modern diatom data from surrounding ponds and existing micropalaeontological, sedimentological and mineralogical data from the pingo sequence. A diatom based quantitative reconstruction of lake water pH indicates changing lake environments during mid-Wisconsin to early Holocene stages. Mineralogical analyses indicate presence of tephra fallout and its impact on fossil diatom communities. Our comparison of modern and fossil diatom communities shows the highest floristic similarity of modern polygon ponds to the corresponding initial (shallow water) development stages of thermolcarst lakes. We conclude, that mid-Wisconsin thermokarst processes in the study area could establish during relatively warm interstadial climate conditions accompanied by increased precipitation due to approaching coasts, while still high continentality and hence high seasonal temperature gradients led to warm summers in the central part of Beringia. (C) 2017 Elsevier B.V. All rights reserved. KW - Microalgae assemblages KW - Palaeoenvironments KW - Thermokarst KW - Late Quaternary KW - Permafrost Y1 - 2017 U6 - https://doi.org/10.1016/j.palaeo.2017.04.006 SN - 0031-0182 SN - 1872-616X VL - 479 SP - 1 EP - 15 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Strauss, Jens A1 - Schirrmeister, Lutz A1 - Grosse, Guido A1 - Fortier, Daniel A1 - Hugelius, Gustaf A1 - Knoblauch, Christian A1 - Romanovsky, Vladimir E. A1 - Schadel, Christina A1 - von Deimling, Thomas Schneider A1 - Schuur, Edward A. G. A1 - Shmelev, Denis A1 - Ulrich, Mathias A1 - Veremeeva, Alexandra T1 - Deep Yedoma permafrost: A synthesis of depositional characteristics and carbon vulnerability JF - Earth science reviews : the international geological journal bridging the gap between research articles and textbooks N2 - Permafrost is a distinct feature of the terrestrial Arctic and is vulnerable to climate warming. Permafrost degrades in different ways, including deepening of a seasonally unfrozen surface and localized but rapid development of deep thaw features. Pleistocene ice-rich permafrost with syngenetic ice-wedges, termed Yedoma deposits, are widespread in Siberia, Alaska, and Yukon, Canada and may be especially prone to rapid-thaw processes. Freeze-locked organic matter in such deposits can be re-mobilized on short time-scales and contribute to a carbon-cycle climate feedback. Here we synthesize the characteristics and vulnerability of Yedoma deposits by synthesizing studies on the Yedoma origin and the associated organic carbon pool. We suggest that Yedoma deposits accumulated under periglacial weathering, transport, and deposition dynamics in non-glaciated regions during the late Pleistocene until the beginning of late glacial warming. The deposits formed due to a combination of aeolian, colluvial, nival, and alluvial deposition and simultaneous ground ice accumulation. We found up to 130 gigatons organic carbon in Yedoma, parts of which are well-preserved and available for fast decomposition after thaw. Based on incubation experiments, up to 10% of the Yedoma carbon is considered especially decomposable and may be released upon thaw. The substantial amount of ground ice in Yedoma makes it highly vulnerable to disturbances such as thermokarst and thermo-erosion processes. Mobilization of permafrost carbon is expected to increase under future climate warming. Our synthesis results underline the need of accounting for Yedoma carbon stocks in next generation Earth-System-Models for a more complete representation of the permafrost-carbon feedback. KW - Perennial frozen ground KW - Thermokarst KW - Arctic KW - Late Pleistocene KW - Greenhouse gas source KW - Climate feedback Y1 - 2017 U6 - https://doi.org/10.1016/j.earscirev.2017.07.007 SN - 0012-8252 SN - 1872-6828 VL - 172 SP - 75 EP - 86 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Fritz, Michael A1 - Wolter, Juliane A1 - Rudaya, Natalia A1 - Palagushkina, Olga A1 - Nazarova, Larisa B. A1 - Obu, Jaroslav A1 - Rethemeyer, Janet A1 - Lantuit, Hugues A1 - Wetterich, Sebastian T1 - Holocene ice-wedge polygon development in northern Yukon permafrost peatlands (Canada) JF - Quaternary science reviews : the international multidisciplinary research and review journal N2 - Ice-wedge polygon (IWP) peatlands in the Arctic and Subarctic are extremely vulnerable to climatic and environmental change. We present the results of a multidisciplinary paleoenvironmental study on IWPs in the northern Yukon, Canada. High-resolution laboratory analyses were carried out on a permafrost core and the overlying seasonally thawed (active) layer, from an IWP located in a drained lake basin on Herschel Island. In relation to 14 Accelerator Mass Spectrometry (AMS) radiocarbon dates spanning the last 5000 years, we report sedimentary data including grain size distribution and biogeochemical parameters (organic carbon, nitrogen, C/N ratio, delta C-13), stable water isotopes (delta O-18, delta D), as well as fossil pollen, plant macrofossil and diatom assemblages. Three sediment units (SUS) correspond to the main stages of deposition (1) in a thermokarst lake (SW : 4950 to 3950 cal yrs BP), (2) during transition from lacustrine to palustrine conditions after lake drainage (SU2: 3950 to 3120 cal yrs BP), and (3) in palustrine conditions of the IWP field that developed after drainage (SU3: 3120 cal yrs BP to 2012 CE). The lacustrine phase (pre 3950 cal yrs BP) is characterized by planktonic-benthic and pioneer diatom species indicating circumneutral waters, and very few plant macrofossils. The pollen record has captured a regional signal of relatively stable vegetation composition and climate for the lacustrine stage of the record until 3950 cal yrs BP. Palustrine conditions with benthic and acidophilic diatom species characterize the peaty shallow-water environments of the low-centered IWP. The transition from lacustrine to palustrine conditions was accompanied by acidification and rapid revegetation of the lake bottom within about 100 years. Since the palustrine phase we consider the pollen record as a local vegetation proxy dominated by the plant communities growing in the IWP. Ice-wedge cracking in water-saturated sediments started immediately after lake drainage at about 3950 cal yrs BP and led to the formation of an IWP mire. Permafrost aggradation through downward closed-system freezing of the lake talik is indicated by the stable water isotope record. The originally submerged IWP center underwent gradual drying during the past 2000 years. This study highlights the sensitivity of permafrost landscapes to climate and environmental change throughout the Holocene. (C) 2016 Elsevier Ltd. All rights reserved. KW - Permafrost peatlands KW - Arctic KW - Thermokarst KW - Talik KW - Ice-wedge polygon KW - Pollen KW - Diatoms KW - Plant macrofossils KW - Stable water isotopes KW - Deuterium excess Y1 - 2016 U6 - https://doi.org/10.1016/j.quascirev.2016.02.008 SN - 0277-3791 VL - 147 SP - 279 EP - 297 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Pestryakova, Luidmila Agafyevna A1 - Herzschuh, Ulrike A1 - Wetterich, Sebastian A1 - Ulrich, Mathias T1 - Present-day variability and Holocene dynamics of permafrost-affected lakes in central Yakutia (Eastern Siberia) inferred from diatom records JF - Quaternary science reviews : the international multidisciplinary research and review journal N2 - Thermokarst lakes are assumed to develop cyclically, driven by processes that are triggered by climate and maintained by internal feedbacks that may trigger lake drainage. However, the duration of these cycles remains uncertain, as well as whether or not they affect the stabilization of lake ecosystems in permafrost regions over millennial time scales. Our research has combined investigations into modern lake-to-lake variability with a study of the long-term development of individual lakes. We have investigated the physico-chemical and diatom compositions of a set of 101 lakes with a variety of different origins in central Yakutia (Eastern Siberia), including thermokarst lakes, fluvial-erosion thermokarst lakes, fluvial-erosion lakes, and dune lakes. We found a significant relationship between lake genesis and the present-day variability in environmental and diatom characteristics, as revealed by multi-response permutation procedures, indicator species analyses, and redundancy analyses. Environmental parameters also exhibit a significant correlation with variations in the diatom data, for which they may have been to a substantial extent responsible. Mg and SO4 concentrations, together with pH and water depth, were identified as the most important parameters, influencing the variations in the diatom data almost as much as the entire environmental parameter set. We were therefore able to establish a robust Mg-diatom transfer function, which was then applied to three Holocene lake records. From these reconstructions, together with a general interpretation of the diatom record (including, e.g., the ratio between benthic/epiphytic and planktonic taxa), we have been able to infer that all three of these lakes show (1) a continuous record with no desiccation events, (2) high lake water-levels during the early Holocene, (3) centennial to millennial scale variability, and (4) high levels of variability during the early Holocene but rather stable conditions during the late Holocene (a feature that is also known from other sites around the world). We therefore concluded that the development of these three lakes was mainly driven directly by the climate, rather than by thaw lake cycling. KW - Diatoms KW - Holocene KW - Thaw lakes KW - Thermokarst KW - Alas KW - Central Yakutia KW - Alkalinity Y1 - 2012 U6 - https://doi.org/10.1016/j.quascirev.2012.06.020 SN - 0277-3791 VL - 51 SP - 56 EP - 70 PB - Elsevier CY - Oxford ER - TY - THES A1 - Lantuit, Hugues T1 - The modification of arctic permafrost coastlines T1 - Die Veränderung der arktischen Permafrostküstenlinien N2 - The arctic region is undergoing the most rapid environmental change experienced on Earth, and the rate of change is expected to increase over the coming decades. Arctic coasts are particularly vulnerable because they lie at the interface between terrestrial systems dominated by permafrost and marine systems dominated by sea ice. An increased rise in sea level and degradation of sea-ice as predicted by the Intergovernmental Panel on Climate Change in its most recent report and as observed recently in the Arctic will likely result in greater rates of coastal retreat. An increase in coastal erosion would result in dramatic increases in the volume of sediment, organic carbon and contaminants to the Arctic Ocean. These in turn have the potential to create dramatic changes in the geochemistry and biodiversity of the nearshore zone and affect the Arctic Ocean carbon cycle. To calculate estimates of organic carbon input from coastal erosion to the Arctic Ocean, current methods rely on the length of the coastline in the form of non self-similar line datasets. This thesis however emphasizes that using shorelines drawn at different scales can induce changes in the amount of sediment released by 30% in some cases. It proposes a substitute method of computations of erosion based on areas instead of lengths (i.e. buffers instead of shoreline lengths) which can be easily implemented at the circum-Arctic scale. Using this method, variations in quantities of eroded sediment are, on average, 70% less affected by scale changes and are therefore a more reliable method of calculation. Current estimates of coastal erosion rates in the Arctic are scarce and long-term datasets are a handful, which complicates assessment and prognosis of coastal processes, in particular the occurrence of coastal hazards. This thesis aims at filling the gap by providing the first long-term dataset (1951-2006) of coastal erosion on the Bykovsky Peninsula, North-East Siberia. This study shows that the coastline, which is made of ice-rich permafrost, retreated at a mean annual rate of 0.59 m/yr between 1951and 2006. Rates were highly variable: 97.0 % of the rates observed were less than 2 m/yr and 81.6% were less than 1m/yr. However, no significant trend in erosion could be recorded despite the study of five temporal subperiods within 1951-2006. The juxtaposition of wind records could not help to explain erosion records either and this thesis emphasizes the local controls on erosion, in particular the cryostratigraphy, the proximity of the Peninsula to the Lena River Delta freshwater plume and the local topographical constraints on swell development. On ice-rich coastal stretches of the Artic, the interaction of coastal dynamics and permafrost leads to the occurrence of spectacular “C-shaped” depressions termed retrogressive thaw slumps which can reach lengths of up to 650 m. On Herschel Island and at King Point (Yukon Coastal Plain, northern Canada), topographical, sedimentological and biogeochemical surveys were conducted to investigate the present and past activity of these landforms. In particular, undisturbed tundra areas were compared with zones of former slump activity, now stabilized and re-vegetated. This thesis shows that stabilized areas are drier and less prone to plant growth than undisturbed areas and feature fundamentally different geotechnical properties. Radiocarbon dating and topographical surveys indicated until up to 300 BP a likely period of dramatic slump activity on Herschel Island, similar to the one currently observed, which led to the creation of these surfaces. This thesis hypothesizes the occurrence of a ~250 years cycle of slump activity on the Herschel Island shoreline based on the surveyed topography and cryostratigraphy and anticipates higher frequency of slump activity in the future. The variety of processes described in this thesis highlights the changing nature of the intensity and frequency of physical processes acting upon the arctic coast. It also challenges current perceptions of the threats to existing industry and community infrastructure in the Arctic. The increasing presence of humans on Artic coasts coupled with the expected development of shipping will drive an increase in economical and industrial activity on these coasts which remains to be addressed scientifically. N2 - In der Arktis sind die derzeit stärksten Umweltänderungen weltweit zu beobachten, und es wird angenommen, dass sich deren Ausmaß sogar noch verstärken wird. Aufgrund ihrer Lage zwischen terrestrischen, von Permafrost geprägten Systemen und marinen, von Meereis geprägten Systemen, sind arktische Küstenregionen im Zuge dieses Wandels besonders sensibel. Ein verstärkter Meeresspiegelanstieg und der Rückgang des Meereises, wie vom letzten Bericht des Intergovernmental Panel on Climate Change (IPCC) vorhergesagt und in letzter Zeit in der Arktis beobachtet, werden zu erhöhten Küstenrückzugsraten führen. Ein Anstieg der Küstenerosion würde zu einer drastischen Erhöhung von Sedimentfracht, organischem Kohlenstoff und von Schadstoffen im Arktischen Ozean führen. Durch diese wiederum drohen dramatische Änderungen in der Geochemie und Biodiversität der küstennahen Zone sowie Veränderungen im Kohlenstoffkreislauf des Arktischen Ozeans. Modelle zur Berechnung des Eintrags organischen Kohlenstoffs in den Arktischen Ozean infolge von Küstenerosion basieren auf der Länge der Küstenlinie in Form von „non self-similar“ Datensätzen. Die vorliegende Arbeit zeigt jedoch, dass die Nutzung von Küstenlinien unterschiedlicher Maßstäbe Abweichungen in der berechneten Sedimentfracht von bis zu 30 % zur Folge haben kann. Es wird daher eine alternative Methode zur Berechnung von Erosionsraten vorgeschlagen, die auf Flächen, nicht auf Längenangaben basiert (z.B. Pufferzonen anstelle von Küstenlinien) und die auf einfache Art und Weise für die Zirkum-Arktis angewandt werden kann. Durch diese Methode ist die Variation der berechneten Erosionsmengen um durchschnittlich 70 % weniger von Maßstabsänderungen betroffen. Damit kann eine deutlich höhere Zuverlässigkeit in den Prognosen erreicht werden. Aktuelle Abschätzungen von Küstenerosionsraten in der Arktis sind spärlich und es gibt nur sehr wenige Langzeitdatensätze, so dass Einschätzungen und Prognosen zu Prozessen im Küstenbereich, insbesondere von dessen Gefährdung, schwierig sind. Die vorliegende Arbeit soll dazu beigetragen, diese Lücke zu schließen, indem der erste Langzeitdatensatz (1951-2006) zu Küstenerosionsraten auf der Bykovsky Halbinsel in Nordost-Sibirien bereitgestellt wird. Die Arbeit zeigt, dass die Küstenlinie auf der Bykovsky Halbinsel, die durch eisreichen Permafrost geprägt ist, im Zeitraum 1951-2006 um durchschnittlich 0,59 m pro Jahr zurückging. Die Rückzugsraten waren dabei äußerst variabel: 97 % aller ermittelten Raten betrugen weniger als 2 m und 81,6 % weniger als 1 m pro Jahr. Ein signifikanter Trend in den Erosionsraten konnte dabei jedoch trotz Analyse von fünf verschiedenen zeitlichen Epochen nicht festgestellt werden. Auch die Gegenüberstellung von Winddatensätzen kann die Erosionsraten nicht erklären. Deshalb stellt diese Arbeit die Bedeutung lokaler Kontrollmechanismen wie Kryostratigraphie, die Nähe der Bykovsky Halbinsel zum Lena-Delta und seinen Süßwasservorkommen sowie die lokale Topographie und deren Einfluss auf Wellengang und Wellenbildung heraus. Innerhalb eisreicher arktischer Küstenabschnitte führt die Interaktion zwischen Küstendynamik und Permafrost zur Ausprägung eindrucksvoller, „C-förmiger“ Depressionen, sogenannten regressiven auftaubedingten Rutschungen, die Längen von bis zu 650 m erreichen können. Auf Herschel Island und am King Point (Yukon Küste, Nordkanada) wurden topographische, sedimentologische und biogeochemische Aufnahmen durchgeführt, um die rezente und vergangene Dynamik dieser Landschaftsformen nachvollziehen zu können. Insbesondere wurden ungestörte Tundrenareale mit ehemals aktiven Rutschungszonen, die heute stabil und wiederbewachsen sind, verglichen. Die vorliegende Arbeit zeigt, dass diese ehemaligen, heute stabilisierten Rutschungszonen trockenere und für Pflanzenwachstum weniger geeignete Standorte darstellen als ungestörte Bereiche und überdies fundamental andere geotechnische Eigenschaften aufweisen. Radiocarbon-Datierungen und topographische Aufnahmen weisen darauf hin, dass es auf Herschel Island und am King Point bis vor 300 Jahren eine Periode ausgeprägter, auftaubedingter Rutschungsaktivitäten ähnlich denen, die derzeit auf der Insel beobachtet werden können, gegeben haben muss, die zur Ausbildung dieser Oberflächenstrukturen geführt haben. Diese Arbeit stellt auf Grundlage der untersuchten Topographie und Kryostratigraphie die Hypothese auf, dass an der Küstenlinie von Herschel Island ein etwa 250-jähriger Zyklus von Rutschungsaktivitäten existiert und antizipiert eine höhere Frequenz im Auftreten dieser Rutschungsaktivitäten für die Zukunft. Die Vielfalt an Faktoren, die in dieser Arbeit beschrieben wurden, hebt die veränderte Intensität und Frequenz der auf arktische Küsten einwirkenden physikalischen Prozesse hervor. Dadurch werden auch aktuelle Auffassungen zur Bedrohung bestehender Industrie und Infrastruktur in der Arktis hinterfragt. Im Zusammenhang mit dem erwarteten Ausbau der Schifffahrt treibt der zunehmende anthropogene Einfluss die ökonomische und industrielle Entwicklung in arktischen Küstenregionen an, die Gegenstand einer wissenschaftlichen Betrachtung sein sollten. KW - Permafrost KW - Arktis KW - Küstenerosion KW - Thermokarst KW - permafrost KW - arctic KW - coastal erosion KW - thermokarst Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-19732 ER - TY - THES A1 - Grosse, Guido T1 - Characterisation and evolution of periglacial landscapes in Northern Siberia during the Late Quaternary : remote sensing and GIS studies T1 - Charakterisierung und Evolution periglazialer Landschaften in Nordsibirien während des Spätquartärs : Fernerkundungs- und GIS-Studien N2 - About 24 % of the land surface in the northern hemisphere are underlayed by permafrost in various states. Permafrost aggradation occurs under special environmental conditions with overall low annual precipitation rates and very low mean annual temperatures. Because the general permafrost occurrence is mainly driven by large-scale climatic conditions, the distribution of permafrost deposits can be considered as an important climate indicator. The region with the most extensive continuous permafrost is Siberia. In northeast Siberia, the ice- and organic-rich permafrost deposits of the Ice Complex are widely distributed. These deposits consist mostly of silty to fine-grained sandy sediments that were accumulated during the Late Pleistocene in an extensive plain on the then subaerial Laptev Sea shelf. One important precondition for the Ice Complex sedimentation was, that the Laptev Sea shelf was not glaciated during the Late Pleistocene, resulting in a mostly continuous accumulation of permafrost sediments for at least this period. This shelf landscape became inundated and eroded in large parts by the Holocene marine transgression after the Last Glacial Maximum. Remnants of this landscape are preserved only in the present day coastal areas. Because the Ice Complex deposits contain a wide variety of palaeo-environmental proxies, it is an excellent palaeo-climate archive for the Late Quaternary in the region. Furthermore, the ice-rich Ice Complex deposits are sensible to climatic change, i.e. climate warming. Because of the large-scale climatic changes at the transition from the Pleistocene to the Holocene, the Ice Complex was subject to extensive thermokarst processes since the Early Holocene. Permafrost deposits are not only an environmental indicator, but also an important climate factor. Tundra wetlands, which have developed in environments with aggrading permafrost, are considered a net sink for carbon, as organic matter is stored in peat or is syn-sedimentary frozen with permafrost aggradation. Contrary, the Holocene thermokarst development resulted in permafrost degradation and thus the release of formerly stored organic carbon. Modern tundra wetlands are also considered an important source for the climate-driving gas methane, originating mainly from microbial activity in the seasonal active layer. Most scenarios for future global climate development predict a strong warming trend especially in the Arctic. Consequently, for the understanding of how permafrost deposits will react and contribute to such scenarios, it is necessary to investigate and evaluate ice-rich permafrost deposits like the widespread Ice Complex as climate indicator and climate factor during the Late Quaternary. Such investigations are a pre-condition for the precise modelling of future developments in permafrost distribution and the influence of permafrost degradation on global climate. The focus of this work, which was conducted within the frame of the multi-disciplinary joint German-Russian research projects "Laptev Sea 2000" (1998-2002) and "Dynamics of Permafrost" (2003-2005), was twofold. First, the possibilities of using remote sensing and terrain modelling techniques for the observation of periglacial landscapes in Northeast Siberia in their present state was evaluated and applied to key sites in the Laptev Sea coastal lowlands. The key sites were situated in the eastern Laptev Sea (Bykovsky Peninsula and Khorogor Valley) and the western Laptev Sea (Cape Mamontovy Klyk region). For this task, techniques using CORONA satellite imagery, Landsat-7 satellite imagery, and digital elevation models were developed for the mapping of periglacial structures, which are especially indicative of permafrost degradation. The major goals were to quantify the extent of permafrost degradation structures and their distribution in the investigated key areas, and to establish techniques, which can be used also for the investigation of other regions with thermokarst occurrence. Geographical information systems were employed for the mapping, the spatial analysis, and the enhancement of classification results by rule-based stratification. The results from the key sites show, that thermokarst, and related processes and structures, completely re-shaped the former accumulation plain to a strongly degraded landscape, which is characterised by extensive deep depressions and erosional remnants of the Late Pleistocene surface. As a results of this rapid process, which in large parts happened within a short period during the Early Holocene, the hydrological and sedimentological regime was completely changed on a large scale. These events resulted also in a release of large amounts of organic carbon. Thermokarst is now the major component in the modern periglacial landscapes in terms of spatial extent, but also in its influence on hydrology, sedimentation and the development of vegetation assemblages. Second, the possibilities of using remote sensing and terrain modelling as a supplementary tool for palaeo-environmental reconstructions in the investigated regions were explored. For this task additionally a comprehensive cryolithological field database was developed for the Bykovsky Peninsula and the Khorogor Valley, which contains previously published data from boreholes, outcrops sections, subsurface samples, and subsurface samples, as well as additional own field data. The period covered by this database is mainly the Late Pleistocene and the Holocene, but also the basal deposits of the sedimentary sequence, interpreted as Pliocene to Early Pleistocene, are contained. Remote sensing was applied for the observation of periglacial strucures, which then were successfully related to distinct landscape development stages or time intervals in the investigation area. Terrain modelling was used for providing a general context of the landscape development. Finally, a scheme was developed describing mainly the Late Quaternary landscape evolution in this area. A major finding was the possibility of connecting periglacial surface structures to distinct landscape development stages, and thus use them as additional palaeo-environmental indicator together with other proxies for area-related palaeo-environmental reconstructions. In the landscape evolution scheme, i.e. of the genesis of the Late Pleistocene Ice Complex and the Holocene thermokarst development, some new aspects are presented in terms of sediment source and general sedimentation conditions. This findings apply also for other sites in the Laptev Sea region. N2 - Die vorliegende Arbeit wurde im Rahmen der multidisziplinären Deutsch-Russischen Verbundprojekte "Laptev See 2000" (1998-2002) und "Dynamik des Permafrost" (2003-2005) erstellt. Etwa 24 % der Landoberfläche der Erde sind von Permafrost unterlagert. Die ausgedehntesten Permafrostgebiete befinden sich heute in Sibirien. In Nordostsibirien, das während der letzten Eiszeit nicht von Inlandeismassen bedeckt bedeckt war, lagerten sich während dieser Zeit mächtige eisreiche Permafrostsedimente ab. Die durch den nacheiszeitlichen Meeresspiegelanstieg um ca. 120 Meter nur noch in den heutigen Küstengebieten erhaltenen Ablagerungen sind zum Teil hervorragende Paläoklimaarchive, die verschiedenste fossile organische Überreste der Eiszeitlichen Fauna und Flora konserviert haben. Aber auch die Sedimente und das enthalten Grundeis enthalten Klimainformationen z.B. die aus Mineralogie, Ablagerungsmilieu oder geochemischer und isotopenchemischer Zusammensetzung gewonnen werden können. Der hohe Eisgehalt in den Sedimenten führte mit Beginn der holozänen Warmzeit zur Bildung von Thermokarst und Thermo-Erosion, d.h. zu starken Zersetzungserscheinungen durch Auftauen und Erosion. Thermokarst beschreibt das Schmelzen des Grundeises und die gleichzeitig stattfindende tiefe Absenkung der betroffenen Landoberfläche. Thermokarst geht mit der Bildung von Thermokarstseen einher, deren Wasserkörper ein zusätzlicher Wärmespeicher ist und das Auftauen des darunter liegenden Permafrost verstärken kann. In Sibirien, aber auch anderen Regionen der Arktis, sind weite Gebiete von Thermokarst betroffen. Der Einfluss dieser klimabedingten großräumigen Landschaftsveränderungen in Permafrostgebieten auf den lokalen, regionalen und auch globalen Stoff- und Energiehaushalt ist bisher nur wenig untersucht. Die vorliegende Arbeit beschäftigt sich mit der Charakterisierung und Evolution von periglazialen Landschaften im nordsibirischen Laptevsee-Gebiet, die seit dem Beginn des Holozän von solchen klimatisch bedingten Veränderungen betroffen sind, und liefert damit ein Puzzleteil zum einen für die Rekonstruktion der Landschaft und Landschaftsentwicklung als auch Vorraussetzungen für das Verständnis der großräumig wirkenden geologischen und geomorphologischen Veränderungsprozesse. Die generellen Schwerpunkte, für die die vorliegende Arbeit Informationen liefert, sind die Charakterisierung von periglazialen Relief- und Oberflächentypen und die Bestimmung ihrer räumlichen Verbreitung, die Identifizierung und Quantifizierung einzelner geologischer und geomorphologischer Prozesse in diesen Landschaften, und die Rekonstruktion der Entwicklung periglazialer Landschaften im Spätquartär für Schlüsselgebiete im Küstengebiet der nordsibirischen Laptevsee. Um diese generellen Schwerpunkte zu erreichen, werden verschiedene Einzelziele in der Arbeit verfolgt: Die Entwicklung and Anwendung von Satellitenfernerkundungstechniken zur Analyse periglazialer Landschaften in Nordsibirien. Dazu werden hochauflösende Corona-Satellitendaten und multispektrale Landsat-7 Satellitendaten verwendet. Die Untersuchung von Satellitenbildern, mit dem Schwerpunkt auf Oberflächen, die von der Zersetzung des eisreichen Permafrosts betroffen sind Die Entwicklung von hochauflösenden digitalen Geländemodellen für die geomorphologische Analyse in zwei Schlüsselgebieten Die räumliche Untersuchung der gewonnenen Daten mit Hilfe von geographischen Informationssystemen, mit einem Schwerpunkt auf Form, Verteilung und Außmaß von holozänem Thermokarst Das Sammeln und Auswerten von Felddaten, mit Schwerpunkt auf Oberflächeneigenschaften periglazialer Landschaften und der Zusammensetzung der Permafrostablagerungen Die Anwendung der gewonnenen Daten zur Unterstützung, Verbesserung und Ausweitung der lokal gewonnenen Felddaten und Paläoumweltrekonstruktionen, sowie die datengestützte Entwicklung von Vorstellungen zur Landschaftsgenese Weite, Permafrost-dominierte Küstentiefländer der heutigen Laptevsee in Nordost-Sibirien sind durch die spätpleistozänen Ablagerungen des Eiskomplex aufgebaut. Diese zumeist schluffig bis mittelsandigen Ablagerungen sind durch einen sehr großen Eisgehalt in Form von verteiltem Grundeis und großer syngenetischer Eiskeile, sowie einem relativ hohen Anteil an organischen Resten gekennzeichnet. Mit Beginn der holozänen Klimaerwärmung kam es zur weitläufigen Bildung von Thermokarst. KW - Dauerfrostboden KW - Periglazial KW - Periglazialgeomorphologie KW - Sibirien KW - Fernerkundung KW - Optische Fernerkundung KW - Geomorphologie KW - Permafrost KW - Thermokarst KW - Sibirien KW - Klimawandel KW - Siberia KW - Global change KW - Geomorphology Y1 - 2005 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-5544 ER -