TY - GEN A1 - Müller-Schöll, A. A1 - Klopp-Schulze, Lena A1 - Huisinga, Wilhelm A1 - Jörger, M. A1 - Neven, P. A1 - Koolen, S. L. A1 - Mathijssen, R. H. J. A1 - Schmidt, S. A1 - Kloft, Charlotte T1 - Patient-tailored tamoxifen dosing based on an increased quantitative understanding of its complex pharmacokinetics: A novel integrative modelling approach T2 - Annals of Oncology Y1 - 2019 SN - 0923-7534 SN - 1569-8041 VL - 30 PB - Oxford Univ. Press CY - Oxford ER - TY - GEN A1 - Sullivan, Mitchell A. A1 - Nitschke, Silvia A1 - Steup, Martin A1 - Minassian, Berge A. A1 - Nitschke, Felix T1 - Pathogenesis of Lafora disease BT - transition of soluble glycogen to insoluble polyglucosan T2 - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Lafora disease (LD, OMIM #254780) is a rare, recessively inherited neurodegenerative disease with adolescent onset, resulting in progressive myoclonus epilepsy which is fatal usually within ten years of symptom onset. The disease is caused by loss-of-function mutations in either of the two genes EPM2A (laforin) or EPM2B (malin). It characteristically involves the accumulation of insoluble glycogen-derived particles, named Lafora bodies (LBs), which are considered neurotoxic and causative of the disease. The pathogenesis of LD is therefore centred on the question of how insoluble LBs emerge from soluble glycogen. Recent data clearly show that an abnormal glycogen chain length distribution, but neither hyperphosphorylation nor impairment of general autophagy, strictly correlates with glycogen accumulation and the presence of LBs. This review summarizes results obtained with patients, mouse models, and cell lines and consolidates apparent paradoxes in the LD literature. Based on the growing body of evidence, it proposes that LD is predominantly caused by an impairment in chain-length regulation affecting only a small proportion of the cellular glycogen. A better grasp of LD pathogenesis will further develop our understanding of glycogen metabolism and structure. It will also facilitate the development of clinical interventions that appropriately target the underlying cause of LD. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1080 KW - lafora disease KW - laforin KW - malin KW - polyglucosan body KW - chain length distribution KW - glycogen phosphorylation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-474622 SN - 1866-8372 IS - 1080 ER - TY - JOUR A1 - Tejos, Ricardo A1 - Rodriguez-Furlan, Cecilia A1 - Adamowski, Maciej A1 - Sauer, Michael A1 - Norambuena, Lorena A1 - Friml, Jiri T1 - PATELLINS are regulators of auxin-mediated PIN1 relocation and plant development in Arabidopsis thaliana JF - Journal of cell science N2 - Coordinated cell polarization in developing tissues is a recurrent theme in multicellular organisms. In plants, a directional distribution of the plant hormone auxin is at the core of many developmental programs. A feedback regulation of auxin on the polarized localization of PIN auxin transporters in individual cells has been proposed as a self-organizing mechanism for coordinated tissue polarization, but the molecular mechanisms linking auxin signalling to PIN-dependent auxin transport remain unknown. We used a microarray-based approach to find regulators of the auxin-induced PIN relocation in Arabidopsis thaliana root, and identified a subset of a family of phosphatidylinositol transfer proteins (PITPs), the PATELLINs (PATLs). Here, we show that PATLs are expressed in partially overlapping cell types in different tissues going through mitosis or initiating differentiation programs. PATLs are plasma membrane-associated proteins accumulated in Arabidopsis embryos, primary roots, lateral root primordia and developing stomata. Higher order patl mutants display reduced PIN1 repolarization in response to auxin, shorter root apical meristem, and drastic defects in embryo and seedling development. This suggests that PATLs play a redundant and crucial role in polarity and patterning in Arabidopsis. KW - PATELLIN KW - Auxin KW - Arabidopsis thaliana KW - Auxin transport KW - Canalization Y1 - 2018 U6 - https://doi.org/10.1242/jcs.204198 SN - 0021-9533 SN - 1477-9137 VL - 131 IS - 2 PB - Company of Biologists Limited CY - Cambridge ER - TY - JOUR A1 - Stark, Markus A1 - Bach, Moritz A1 - Guill, Christian T1 - Patch isolation and periodic environmental disturbances have idiosyncratic effects on local and regional population variabilities in meta-food chains JF - Theoretical ecology N2 - While habitat loss is a known key driver of biodiversity decline, the impact of other landscape properties, such as patch isolation, is far less clear. When patch isolation is low, species may benefit from a broader range of foraging opportunities, but are at the same time adversely affected by higher predation pressure from mobile predators. Although previous approaches have successfully linked such effects to biodiversity, their impact on local and metapopulation dynamics has largely been ignored. Since population dynamics may also be affected by environmental disturbances that temporally change the degree of patch isolation, such as periodic changes in habitat availability, accurate assessment of its link with isolation is highly challenging. To analyze the effect of patch isolation on the population dynamics on different spatial scales, we simulate a three-species meta-food chain on complex networks of habitat patches and assess the average variability of local populations and metapopulations, as well as the level of synchronization among patches. To evaluate the impact of periodic environmental disturbances, we contrast simulations of static landscapes with simulations of dynamic landscapes in which 30 percent of the patches periodically become unavailable as habitat. We find that increasing mean patch isolation often leads to more asynchronous population dynamics, depending on the parameterization of the food chain. However, local population variability also increases due to indirect effects of increased dispersal mortality at high mean patch isolation, consequently destabilizing metapopulation dynamics and increasing extinction risk. In dynamic landscapes, periodic changes of patch availability on a timescale much slower than ecological interactions often fully synchronize the dynamics. Further, these changes not only increase the variability of local populations and metapopulations, but also mostly overrule the effects of mean patch isolation. This may explain the often small and inconclusive impact of mean patch isolation in natural ecosystems. KW - Metacommunity dynamics KW - Dispersal KW - Patch isolation KW - Stability KW - Synchronization KW - Disturbance Y1 - 2021 U6 - https://doi.org/10.1007/s12080-021-00510-0 SN - 1874-1738 SN - 1874-1746 VL - 14 IS - 3 SP - 489 EP - 500 PB - Springer CY - Dordrecht ER - TY - JOUR A1 - Eilers, Elisabeth Johanna A1 - Heger, Tina T1 - Past Competition Affects Offspring Foliar Terpenoid Concentrations, Seed Traits, and Fitness in the Invasive Forb Erodium cicutarium (Geraniaceae) JF - Frontiers in Ecology and Evolution N2 - (1) Environmental conditions experienced in the past may lead to intraspecific differences in ecological and chemical traits of plants, which likely affect future responses to altered or new environments. Whether competition by neighbors is such a trait-shaping factor is not yet well-known. We aimed to understand how the level of ancestral plant competition affects traits related to plant fitness and resource allocation, reproduction, and (phyto-)toxin accumulation in offspring, and whether a potential differentiation in these traits can be found in different geographic origins of which one belongs to the native and one to the invaded range. (2) We compared differentiation of the following traits in offspring plants of multiple populations in Erodium cicutarium (Geraniaceae): biomass, seed production, seed traits related to dispersal and germination, and concentrations of foliar mono- and sesquiterpenes. We tested the allelopatic potential of aqueous extracts of the same E. cicutarium plants on seeds of five different plant families. (3) In plants originating from populations that experienced high levels of competition, we found twice as high monoterpene concentrations. These plants also produced more biomass and a higher proportion of ripe to unripe seeds until harvesting. Seeds originating from high competition sites were shorter. Aqueous E. cicutarium leaf extracts with high terpenoid content reduced radicle length of Zea mays and radicle and hypocotyl length of E. cicutarium seedlings. (4) The results of this study provide first evidence that the surrounding vegetation may shape chemo-ecological plant traits that may be fundamental for competitive ability. Our study calls for more research testing whether competition experienced in the native range may lead to an enhanced capability of plants to establish populations and spread in a new range. KW - resource allocation KW - specialized metabolites KW - gas chromatography-mass spectrometry KW - seed morphology KW - plant interactions KW - eco-evolutionary experience Y1 - 2019 U6 - https://doi.org/10.3389/fevo.2019.00392 SN - 2296-701X VL - 7 PB - Frontiers Research Foundation CY - Lausanne ER - TY - THES A1 - Huang, Sichao T1 - Past and present biodiversity in northeastern Siberia inferred from sedimentary DNA metabarcoding N2 - The arctic-boreal treeline is a transition zone from taiga to tundra covering a vast area in Siberia. It often features large environmental gradients and reacts sensitively to changes in the environment. For example, the expansion of shrubs and a northward movement of the treeline are observable in Siberia as a response to the warming climate. The changes in vegetation across the treeline are known to influence the water chemistry in the lakes. This causes further alteration to the composition and diversity of sensitive aquatic organisms such as diatoms and macrophytes. Despite the rising awareness of the complex climate-feedback mechanisms of terrestrial plants, the understanding of their assembly rules and about responses of aquatic biomes in the surrounding treeline lakes is still limited. The goal of this thesis is to examine the previous and present biodiversity of terrestrial and freshwater biomes from the Siberian treeline ecotone, as well as their reactions to environmental changes. In particular, this thesis attempts to examine the performance of applying sedimentary DNA metabarcoding in terrestrial plants, aquatic macrophytes and diatoms, their spatial patterns along the environmental gradients and their temporal patterns throughout the climate transition from the late Pleistocene to Holocene. Sedimentary DNA metabarcoding combined with next-generation sequencing is applied as a primary tool to explore the composition and diversity of terrestrial plants, diatoms and aquatic macrophytes. The main study area is located in Chukotka of northeastern Siberia in the Arctic, a biodiversity hotspot due to its continental location and the diverse habitats of the glacial refugium. The modern diatom diversity was assessed with a specific diatom metabarcoding marker and morphological identification. Both approaches agree to a dominance of Fragilariaceae and Aulacoseiraceae, as well as on the environmental influential indicators of the diatom community. The high diversity of Fragilariaceae identified in the thermokarst lakes is found to follow the vegetation gradient along the treeline, suggesting that diatom metabarcoding can decipher relationships between diatom assemblage shifts and the relevant environmental changes. In particular, the metabarcoding approach detects diversification of fragilarioids in glacial lakes which is not visible using morphology. Sedimentary ancient DNA records indicate a vegetation mosaic of forb-dominated steppe-tundra during 28-19 ka, followed by a shift to dwarf-shrub tundra during 19-14 ka. During the most recent 14 thousand years, the vegetation consists of deciduous shrublands, then a change to boreal forest is observed. Investigations on the alpha diversity of the vegetation show that species richness is unexpectedly highest during pre-LGM, which is likely related to the extensive area that allows for more taxa. The optimum Holocene warming during 9-6 ka is not accompanied by a high richness as widely believed, but with an evenly distributed community by the fulfilment of erect shrubs. Furthermore, changes in taxonomic and phylogenetic diversity show complementary results in understanding community diversity. The composition and richness in the modern macrophytes community from Siberian Arctic and Chinese alpine are best co-influenced by July temperature and electrical conductivity.. Past macrophyte turnover during the late Pleistocene-Holocene is less noticeable in Siberia, whereas a pronounced community change from emergent to submerged plants is detected from Chinese alpine regions at about 14 ka due to increasing temperature and varying water conductivity. Finally, sedimentary DNA metabarcoding is a cost-effective and powerful proxy for ecological application, whereas completeness of the reference library, coverage and resolution of the metabarcoding marker are the major limitations of sedimentary DNA based diversity monitoring. The composition and richness in modern vegetation and macrophytes across broad spatial gradients is constrained by environmental variables, suggesting a potential usage for environmental monitoring. Diatom distributions are driven by different water variables along the treeline. Past records indicate that the shrub coverage has a noticeable influence on the assemblies of both terrestrial plants and aquatic macrophytes, though the shift in macrophyte community is relatively minor in the past 28 thousand years. In the long-term, the shrub expansion may eventually result in a genetically more diverse vegetation community but reduced species richness. When exceeding the optimal temperatures, further warming may lead to a decrease and putative loss of macrophytes and diatoms. N2 - Die arktisch-boreale Baumgrenze ist eine Übergangszone von Taiga zu Tundra, die ein weites Gebiet in Sibirien abdeckt. Es weist häufig große Umweltgradienten auf und reagiert empfindlich auf Änderungen in der Umwelt. Beispielsweise sind in Sibirien als Reaktion auf das sich erwärmende Klima die Ausdehnung von Sträuchern und eine Bewegung der Baumgrenze nach Norden zu beobachten. Es ist bekannt, dass die Veränderungen der Vegetation entlang der Baumgrenze die Wasserchemie in den Seen beeinflussen. Dies führt zu einer weiteren Veränderung der Zusammensetzung und Vielfalt empfindlicher Wasserorganismen wie Kieselalgen und Makrophyten. Trotz des zunehmenden Bewusstseins für die komplexen Klimarückkopplungsmechanismen von Landpflanzen ist das Verständnis ihrer Zusammensetzung und der Reaktionen aquatischer Biome in den umliegenden Baumseen immer noch begrenzt. Ziel dieser Arbeit ist es, die bisherige und gegenwärtige Artenvielfalt von Land- und Süßwasserbiomen aus dem sibirischen Baumlinien-Ökoton sowie deren Reaktionen auf Umweltveränderungen zu untersuchen. In dieser Arbeit wird insbesondere versucht, die Leistung der Anwendung der sedimentären DNA-Metabarkodierung in Landpflanzen, aquatischen Makrophyten und Kieselalgen, ihre räumlichen Muster entlang der Umweltgradienten und ihre zeitlichen Muster während des Klimaübergangs vom späten Pleistozän zum Holozän zu untersuchen. Die metabolische DNA-Metabarkodierung in Kombination mit der “Next generation Sequencing” wird als primäres Instrument zur Untersuchung der Zusammensetzung und Vielfalt von Landpflanzen, Kieselalgen und aquatischen Makrophyten eingesetzt. Das Hauptuntersuchungsgebiet befindet sich in Chukotka im Nordosten Sibiriens in der Arktis, einem Hotspot für Artenvielfalt aufgrund seiner kontinentalen Lage und der vielfältigen Lebensräume des Gletscher-Refugiums. Die moderne Diatomeendiversität wurde mit einem spezifischen Diatom-Metabarcoding Marker und einer morphologischen Identifizierung bewertet. Beide Ansätze stimmen mit einer Dominanz von Fragilariaceae und Aulacoseiraceae sowie mit den umweltbeeinflussenden Indikatoren der Kieselalgengemeinschaft überein. Die hohe Vielfalt der in den Thermokarstseen identifizierten Fragilariaceae folgt dem Vegetationsgradienten entlang der Baumgrenze, was darauf hindeutet, dass die Metabarkodierung von Kieselalgen Beziehungen zwischen Verschiebungen der Kieselalgenassemblage und den relevanten Umweltveränderungen entschlüsseln kann. Insbesondere erkennt der Metabarcoding-Ansatz eine Diversifikation von Fragilarioiden in Gletscherseen, die unter Verwendung der Morphologie nicht sichtbar ist. Sedimentäre alte DNA-Aufzeichnungen weisen auf ein Vegetationsmosaik der von Forb dominierten Steppentundra zwischen 28 und 19 ka hin, gefolgt von einer Verschiebung in die Zwergstrauch-Tundra zwischen 19 und 14 ka. In den letzten 14.000 Jahren besteht die Vegetation aus Laubbäumen, dann wird eine Veränderung des borealen Waldes beobachtet. Untersuchungen zur Alpha-Diversität der Vegetation zeigen, dass der Artenreichtum vor der LGM unerwartet am höchsten ist, was wahrscheinlich mit dem ausgedehnten Gebiet zusammenhängt, das mehr Taxa zulässt. Die optimale Erwärmung des Holozäns während 9-6 ka geht nicht mit einem hohen Reichtum einher, wie allgemein angenommen wird, sondern mit einer gleichmäßig verteilten Gemeinschaft durch die Erfüllung aufrecht stehender Sträucher. Darüber hinaus zeigen Änderungen der taxonomischen und phylogenetischen Vielfalt komplementäre Ergebnisse für das Verständnis der Vielfalt in der Gemeinschaft. Die Zusammensetzung und der Reichtum der modernen Makrophytengemeinschaft aus der sibirischen Arktis und den chinesischen Alpen werden am besten von der Temperatur im Juli und der elektrischen Leitfähigkeit beeinflusst. Der vergangene Makrophytenumsatz während des späten Pleistozän-Holozäns ist in Sibirien weniger auffällig, während in chinesischen Alpenregionen bei etwa 14 ka aufgrund der steigenden Temperatur und der unterschiedlichen Wasserleitfähigkeit ein ausgeprägter Wechsel der Gemeinschaft von emergenten zu untergetauchten Pflanzen festgestellt wird. Schließlich ist die Sediment-DNA-Metabarkodierung ein kostengünstiger und leistungsfähiger Proxy für die ökologische Anwendung, während die Vollständigkeit der Referenzbibliothek, die Abdeckung und die Auflösung des Metabarkodierungsmarkers die Hauptbeschränkungen der auf Sediment-DNA basierenden Diversitätsüberwachung darstellen. Die Zusammensetzung und der Reichtum an moderner Vegetation und Makrophyten über breite räumliche Gradienten hinweg werden durch Umgebungsvariablen eingeschränkt, was auf eine mögliche Verwendung für die Umweltüberwachung hindeutet. Die Verteilung der Kieselalgen wird durch verschiedene Wasservariablen entlang der Baumgrenze gesteuert. Frühere Aufzeichnungen zeigen, dass die Strauchbedeckung einen spürbaren Einfluss auf die Ansammlungen von Landpflanzen und Wassermakrophyten hat, obwohl die Verschiebung der Makrophytengemeinschaft in den letzten 28.000 Jahren relativ gering ist. Langfristig kann die Strauchausdehnung letztendlich zu einer genetisch vielfältigeren Vegetationsgemeinschaft führen, die jedoch den Artenreichtum verringert. Wenn die optimalen Temperaturen überschritten werden, kann eine weitere Erwärmung zu einer Abnahme und einem mutmaßlichen Verlust von Makrophyten und Kieselalgen führen. KW - metabarcoding KW - plant diversity KW - iatom diversity KW - phylogenetic diversity KW - ancient DNA Y1 - 2021 ER - TY - GEN A1 - Geißler, Katja A1 - Heblack, Jessica A1 - Uugulu, Shoopala A1 - Wanke, Heike A1 - Blaum, Niels T1 - Partitioning of Water Between Differently Sized Shrubs and Potential Groundwater Recharge in a Semiarid Savanna in Namibia T2 - Postprints der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe N2 - Introduction: Many semiarid regions around the world are presently experiencing significant changes in both climatic conditions and vegetation. This includes a disturbed coexistence between grasses and bushes also known as bush encroachment, and altered precipitation patterns with larger rain events. Fewer, more intense precipitation events might promote groundwater recharge, but depending on the structure of the vegetation also encourage further woody encroachment. Materials and Methods: In this study, we investigated how patterns and sources of water uptake of Acacia mellifera (blackthorn), an important encroaching woody plant in southern African savannas, are associated with the intensity of rain events and the size of individual shrubs. The study was conducted at a commercial cattle farm in the semiarid Kalahari in Namibia (MAP 250 mm/a). We used soil moisture dynamics in different depths and natural stable isotopes as markers of water sources. Xylem water of fifteen differently sized individuals during eight rain events was extracted using a Scholander pressure bomb. Results and Discussion: Results suggest the main rooting activity zone of A. mellifera in 50 and 75 cm soil depth but a reasonable water uptake from 10 and 25 cm. Any apparent uptake pattern seems to be driven by water availability, not time in the season. Bushes prefer the deeper soil layers after heavier rain events, indicating some evidence for the classical Walter’s two-layer hypothesis. However, rain events up to a threshold of 6 mm/day cause shallower depths of use and suggest several phases of intense competition with perennial grasses. The temporal uptake pattern does not depend on shrub size, suggesting a fast upwards water flow inside. d2H and d18O values in xylem water indicate that larger shrubs rely less on upper and very deep soil water than smaller shrubs. It supports the hypothesis that in environments where soil moisture is highly variable in the upper soil layers, the early investment in a deep tap-root to exploit deeper, more reliable water sources could reduce the probability of mortality during the establishment phase. Nevertheless, independent of size and time in the season, bushes do not compete with potential groundwater recharge. In a savanna encroached by A. mellifera, groundwater will most likely be affected indirectly. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 798 KW - bush encroachment KW - groundwater recharge KW - rooting depth KW - Savannas KW - stable isotopes KW - shrub size KW - Acacia mellifera KW - rain event depth Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-441110 SN - 1866-8372 IS - 798 ER - TY - JOUR A1 - Geißler, Katja A1 - Heblack, Jessica A1 - Uugulu, Shoopala A1 - Wanke, Heike A1 - Blaum, Niels T1 - Partitioning of Water Between Differently Sized Shrubs and Potential Groundwater Recharge in a Semiarid Savanna in Namibia JF - Frontiers in Plant Science N2 - Introduction: Many semiarid regions around the world are presently experiencing significant changes in both climatic conditions and vegetation. This includes a disturbed coexistence between grasses and bushes also known as bush encroachment, and altered precipitation patterns with larger rain events. Fewer, more intense precipitation events might promote groundwater recharge, but depending on the structure of the vegetation also encourage further woody encroachment. Materials and Methods: In this study, we investigated how patterns and sources of water uptake of Acacia mellifera (blackthorn), an important encroaching woody plant in southern African savannas, are associated with the intensity of rain events and the size of individual shrubs. The study was conducted at a commercial cattle farm in the semiarid Kalahari in Namibia (MAP 250 mm/a). We used soil moisture dynamics in different depths and natural stable isotopes as markers of water sources. Xylem water of fifteen differently sized individuals during eight rain events was extracted using a Scholander pressure bomb. Results and Discussion: Results suggest the main rooting activity zone of A. mellifera in 50 and 75 cm soil depth but a reasonable water uptake from 10 and 25 cm. Any apparent uptake pattern seems to be driven by water availability, not time in the season. Bushes prefer the deeper soil layers after heavier rain events, indicating some evidence for the classical Walter’s two-layer hypothesis. However, rain events up to a threshold of 6 mm/day cause shallower depths of use and suggest several phases of intense competition with perennial grasses. The temporal uptake pattern does not depend on shrub size, suggesting a fast upwards water flow inside. d2H and d18O values in xylem water indicate that larger shrubs rely less on upper and very deep soil water than smaller shrubs. It supports the hypothesis that in environments where soil moisture is highly variable in the upper soil layers, the early investment in a deep tap-root to exploit deeper, more reliable water sources could reduce the probability of mortality during the establishment phase. Nevertheless, independent of size and time in the season, bushes do not compete with potential groundwater recharge. In a savanna encroached by A. mellifera, groundwater will most likely be affected indirectly. KW - bush encroachment KW - groundwater recharge KW - rooting depth KW - Savannas KW - stable isotopes KW - shrub size KW - Acacia mellifera KW - rain event depth Y1 - 2019 U6 - https://doi.org/10.3389/fpls.2019.01411 SN - 1664-462X VL - 10 PB - Frontiers Media CY - Lausanne ER - TY - GEN A1 - Rieck, Angelika A1 - Herlemann, Daniel P. R. A1 - Jürgens, Klaus A1 - Grossart, Hans-Peter T1 - Particle-associated differ from free-living bacteria in surface waters of the Baltic Sea T2 - Frontiers in microbiology N2 - Many studies on bacterial community composition (BCC) do not distinguish between particle associated (PA) and free-living (FL) bacteria or neglect the PA fraction by pre-filtration removing most particles. Although temporal and spatial gradients in environmental variables are known to shape BCC, it remains unclear how and to what extent PA and FL bacterial diversity responds to such environmental changes. To elucidate the BCC of both bacterial fractions related to different environmental settings, we studied surface samples of three Baltic Sea stations (marine, mesohaline, and oligohaline) in two different seasons (summer and fall/winter). Amplicon sequencing of the 16S rRNA gene revealed significant differences in BCC of both bacterial fractions among stations and seasons, with a particularly high number of PA operational taxonomic units (OTUs at genus-level) at the marine station in both seasons. "Shannon and Simpson indices" showed a higher diversity of PA than FL bacteria at the marine station in both seasons and at the oligohaline station in fall/winter. In general, a high fraction of bacterial OTUs was found exclusively in the PA fraction (52% of total OTUs). These findings indicate that PA bacteria significantly contribute to overall bacterial richness and that they differ from FL bacteria. Therefore, to gain a deeper understanding on diversity and dynamics of aquatic bacteria, PA and FL bacteria should be generally studied independently. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 428 KW - microbial communities KW - microbial diversity KW - particle-associated and free-living bacteria KW - Baltic Sea KW - salinity gradient KW - seasons KW - 454-pyrosequencing Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-406442 ER - TY - JOUR A1 - Barlow, Axel A1 - Cahill, James A. A1 - Hartmann, Stefanie A1 - Theunert, Christoph A1 - Xenikoudakis, Georgios A1 - Gonzalez-Fortes, Gloria M. A1 - Paijmans, Johanna L. A. A1 - Rabeder, Gernot A1 - Frischauf, Christine A1 - Garcia-Vazquez, Ana A1 - Murtskhvaladze, Marine A1 - Saarma, Urmas A1 - Anijalg, Peeter A1 - Skrbinsek, Tomaz A1 - Bertorelle, Giorgio A1 - Gasparian, Boris A1 - Bar-Oz, Guy A1 - Pinhasi, Ron A1 - Slatkin, Montgomery A1 - Dalen, Love A1 - Shapiro, Beth A1 - Hofreiter, Michael T1 - Partial genomic survival of cave bears in living brown bears JF - Nature Ecology & Evolution N2 - Although many large mammal species went extinct at the end of the Pleistocene epoch, their DNA may persist due to past episodes of interspecies admixture. However, direct empirical evidence of the persistence of ancient alleles remains scarce. Here, we present multifold coverage genomic data from four Late Pleistocene cave bears (Ursus spelaeus complex) and show that cave bears hybridized with brown bears (Ursus arctos) during the Pleistocene. We develop an approach to assess both the directionality and relative timing of gene flow. We find that segments of cave bear DNA still persist in the genomes of living brown bears, with cave bears contributing 0.9 to 2.4% of the genomes of all brown bears investigated. Our results show that even though extinction is typically considered as absolute, following admixture, fragments of the gene pool of extinct species can survive for tens of thousands of years in the genomes of extant recipient species. Y1 - 2018 U6 - https://doi.org/10.1038/s41559-018-0654-8 SN - 2397-334X VL - 2 IS - 10 SP - 1563 EP - 1570 PB - Nature Publ. Group CY - London ER -