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Background: Levels or fluctuations in the partial pressure of CO<sub>2</sub> (PCO<sub>2</sub>) may affect outcomes for extremely low birth weight infants. Objectives: In an exploratory analysis of a randomized trial, we hypothesized that the PCO<sub>2</sub> values achieved could be related to significant outcomes. Methods: On each treatment day, infants were divided into 4 groups: relative hypocapnia, normocapnia, hypercapnia, or fluctuating PCO<sub>2</sub>. Ultimate assignment to a group for the purpose of this analysis was made according to the group in which an infant spent the most days. Statistical analyses were performed with analysis of variance (ANOVA), the Kruskal-Wallis test, the χ<sup>2</sup> test, and the Fisher exact test as well as by multiple logistic regression. Results: Of the 359 infants, 57 were classified as hypocapnic, 230 as normocapnic, 70 as hypercapnic, and 2 as fluctuating PCO<sub>2</sub>. Hypercapnic infants had a higher average product of mean airway pressure and fraction of inspired oxygen (MAP × FiO<sub>2</sub>). For this group, mortality was higher, as was the likelihood of having moderate/severe bronchopulmonary dysplasia (BPD), necrotizing enterocolitis (NEC), and poorer neurodevelopment. Multiple logistic regression analyses showed an increased risk for BPD or death associated with birth weight (p < 0.001) and MAP × FiO<sub>2</sub> (p < 0.01). The incidence of adverse neurodevelopment was associated with birth weight (p < 0.001) and intraventricular hemorrhage (IVH; p < 0.01). Conclusions: Birth weight and respiratory morbidity, as measured by MAP × FiO<sub>2</sub>, were the most predictive of death or BPD and NEC, whereas poor neurodevelopmental outcome was associated with low birth weight and IVH. Univariate models also identified PCO<sub>2</sub>. Thus, hypercapnia seems to reflect greater disease severity, a likely contributor to differences in outcomes.
Based on the latest gnomAD dataset, the prevalence of symptomatic hereditary cerebral cavernous malformations (CCMs) prone to cause epileptic seizures and stroke-like symptoms was re-evaluated in this review and calculated to be 1:5,400-1:6,200. Furthermore, state-of-the-art molecular genetic analyses of the known CCM loci are described which reach an almost 100% mutation detection rate for familial CCMs if whole genome sequencing is performed for seemingly mutation-negative families. An update on the spectrum of CCM1, CCM2, and CCM3 mutations demonstrates that deep-intronic mutations and submicroscopic copy-number neutral genomic rearrangements are rare. Finally, this review points to current guidelines on genetic counselling, neuroimaging, medical as well as neurosurgical treatment and highlights the formation of active patient organizations in various countries.
The glioblastoma multiforme (GBM) not only presents the most common tumor of the central nervous system in adults, it is also the most aggressive brain tumor. Although patients suffering from GBM standardly receive a combination of multiple treatments including surgery, radiotherapy and chemotherapy, its prognosis is still poor with a median survival time of only 12-15 months. Therefore, new and effective treatment methods are urgently needed.
A signaling molecule which is both involved in proliferation, migration and invasion of a broad range of healthy and malignant cells is the lipid mediator sphingosine-1-phosphate (S1P). Previous studies have confirmed that sphingosine-1-phosphate (S1P) receptor 1 (S1PR1) is involved in the regulation of proliferation, invasion, metastasis, vascular maturation and angiogenesis of GBM cells, and is closely related to the occurrence and development of tumors. Thus, ACT-209905 (provided by Actelion Pharmaceuticals) as a selective S1PR1 modulator was applied to gain insights into the molecular processes activated by S1PR1 in GBM cells using two human (LN18, U87MG) and one murine (GL261) GBM cell line.
In our in vitro cell viability analyses, we found that ACT-209905 significantly reduced viability of LN18 cells in a concentration dependent manner. A combined administration of ACT-209905 with S1PR2 inhibitors (Compound 16, Compound 16ME – both provided by ONO Pharmaceuticals, and JTE-013 – commercially available) showed a stronger effect than the single administration demonstrating that both S1PR1 and S1PR2 are involved in growth of GBM cells and may interact with each other. Our results also demonstrated that ACT-209905 can induce apoptosis in GBM cells since caspase 3 activity was induced by the S1PR1 modulator which might therefore play an important role in inhibiting the proliferation of GBM cells. Further, we found a significant inhibitory effect of ACT-209905 on the migration and invasion of LN18 and U87MG GBM cells arguing for a participation of S1PR1 signaling in migration and invasion of GBM cells, too. Stimulation of S1P receptors results in the activation of several kinases such as AKT1 and ERK1/2, correspondingly our immunoblot analyses showed a strong activation of both kinases by S1P which was reduced by ACT-209905 in LN18 cells but not in GL261 cells suggesting that different pathways are activated by S1P in these GBM cell lines. Further studies have to be performed to clarify the role of AKT1 and ERK1/2 in the inhibitory effects of ACT-209905 on GBM proliferation, migration and invasion.
Currently, GBM stem cells are discussed as a reason for resistance against the radiochemotherapy and the recurrence of the tumor. Our immunoblot analyses showed that Nestin and CD133, two marker proteins for GBM stem cells, were higher expressed in GBM cells treated with ACT-209905 compared to control or S1P treated LN18 cells. Further investigations in the future might contribute to the elucidation of an involvement of the S1P receptors in the stem cell behavior of GBM cells. Paradoxically to the up-regulation of CD133 and Nestin by ACT-209905, treatment of LN18 stem-like neurospheres with ACT-209905 showed a significant cytotoxic effect of the compound which was even more pronounced in the stem-like neurosphere cells compared to the adherent parental LN18 cells.
Overall, the studies of this work improve our understanding of the complex mechanisms of S1P signaling in GBM cells and might drive the development of its pharmacological modulation as a new therapeutic principle in GBM. Furthermore, an extended knowledge about the molecular effects of ACT-209905 on GBM cells will broaden the understanding for possible future applications and clinical indications.
African swine fever virus (ASFV) is one of the most threatening animal viruses which has dramatically expanded its distribution range within the last years. ASFV was first described and is endemic in sub-Saharan Africa where it is transmitted in a sylvatic cycle between indigenous suids and Ornithodoros soft ticks. Therefore, ASFV is the only known DNA-arbovirus and, in addition to that, the only member of the genus Asfivirus within the family Asfarviridae. Being highly infectious to domestic pigs and wild boar, the virus was introduced into Georgia in 2007 and has subsequently spread throughout eastern Europe reaching the European Union in 2014. Despite almost 100 years of intensive research and the occurrence of African swine fever (ASF) on four continents including Europe, many aspects of its epidemiology, vector dynamics and virus evolution are unknown. In our study, first evidence is presented on endogenous ASFV-like (EASFL)- elements which are integrated into the genome of ASFV natural vectors, O. moubata soft ticks. Through a series of experiments including next-generation sequencing, infection experiments, phylogenetic and BEAST analyses as well as PCR-screening, evidence is provided that these elements belong to an ancestral ASFV strain that might have existed 50,000 to 30,000 years BCE. Further results suggest that the EASFL-elements are involved in protecting ticks against ASFV infection and might belong to a generalised tick defence mechanism. In order to evaluate factors influencing ASFV epidemiology in eastern Europe, experiments were conducted on possible indigenous vector species and circulating virus isolates. In the absence of the natural tick vector, blow fly larvae were considered as possible mechanical vectors involved in ASFV transmission and persistence. Results are presented that even after feeding on highly infectious wild boar tissue, fly larvae and pupae showed no contamination with infectious virus. On the contrary, the maggots appeared to have inactivated the virus in the organ tissue through their salivary secretions. Further experiments conducted on an ASFV-strain isolated from northeastern Estonia resulted in the first report of an ASFV-strain with attenuated phenotype isolated in Eastern Europe. Results from NGS-analyses provided evidence for a major genome reorganisation in that strain that included a large deletion and a duplication of multiple ASFV genes.
Taken together, this study provides novel insights into the epidemiology of ASF and evolution of ASFV one of the major threats to animal health worldwide and therefore does not only contribute significantly to basic research but possibly also to specific knowledge necessary for future disease management.
In the current era of anthropogenic climate change is the long-term survival of all organisms dependent on their ability to respond to changing environmental conditions either by (1) phenotypic plasticity, which allows species to tolerate novel conditions, (2) genetic adaptation, or (3) dispersal to more suitable habitats. The third option, dispersal, allows individuals to escape unfavorable conditions, the colonization of new areas (resulting in range shifts), and affects patterns of local adaptation. It is a complex process serving different functions and involving a variety of underlying mechanisms, but its multi-causality though has been fully appreciated in recent years only. Thus, the aim of this doctoral thesis was to disentangle the relative importance of the multiple factors relevant to dispersal in the copper butterfly Lycaena tityrus, including the individual condition (e.g. morphology, physiology, behavior) and the environmental context (e.g. habitat quality, weather). L. tityrus is a currently northward expanding species, which makes it particularly interesting to investigate traits underlying dispersal. In the first experiment, the influence of weather and sex on movement patterns under natural conditions was investigated. Using the Metatron, a unique experimental platform consisting of interconnected habitat patches, the second experiment aimed to examine the influence of environmental factors (resources, sun) on emigration propensity in experimental metapopulations. Human-induced global change (e.g. climate change, agricultural intensification) poses a substantial challenge to many herbivores due to a reduced availability or quality of feeding resources. Therefore, in the third experiment, the impact of larval and adult food stress on traits related to dispersal ability was investigated. Additionally, the effect of different ambient temperatures was tested. In the fourth experiment, core (Germany) and recently established edge (Estonia) populations were compared in order to explore variation in dispersal ability and life history traits indicative of local adaptation. Dispersal is often related to flight performance, and morphological and physiological traits, which was investigated in experiments 2-4. Butterflies were additionally subjected to behavioral experiments testing for the individual’s exploratory behavior (experiments 3 and 4).
Males and females differed substantially in morphology, with males showing traits typically associated with a better flight performance, which most likely result from selection on males for an increased flight ability to succeed in aerial combats with rivalling males and competition for females. This pattern could be verified by mobility measures under natural conditions and flight performance tests. Interestingly, although females showed traits associated with diminished flight performance, they had a higher emigration propensity than males (though in a context dependent manner). Reasons might be the capability of single mated females to found new populations, to spread their eggs over a wide range or to escape male harassment. Conditions indicative of poor habitat quality such as shade and a lack of resources promoted emigration propensity. The environmental context also affected condition and flight performance. The presence of resources increased the butterflies’ condition and flight performance. Larval and adult food stress in turn diminished flight performance, despite some reallocation of somatic resources in favor of dispersal-related traits. These detrimental effects seem to be mainly caused by reductions in body mass and storage reserves. A similar pattern was found for exploratory behavior. Furthermore, higher temperatures increased flight performance and mobility in the field, demonstrating the strong dependence of flight, and thus likely dispersal, on environmental conditions. Flight performance and exploratory behavior were positively correlated, probably indicating the existence of a dispersal syndrome. The population comparison revealed several differences between edge and core populations indicative of local adaptation and an enhanced dispersal ability in edge populations. For instance, edge populations were characterized by shorter development times, smaller size, and a higher sensitivity to high temperatures, which seem to reflect adaptations to the cooler Estonian climate and a shorter vegetation period. Moreover, Estonian individuals had an enhanced exploratory behavior, which can be advantageous in all steps of the dispersal process and may have facilitated the current range expansion.
In summary, these findings may have important implications for dispersal in natural environments, which should be considered when trying to forecast future species distributions. First, dispersal in this butterfly seems to be a highly plastic, context-dependent trait triggered largely by habitat quality rather than by individual condition. This suggests that dispersal in L. tityrus is not random, but an active process. Second, fast development and an enhanced exploratory behavior seem to facilitate the current range expansion. But third, while deteriorating habitat conditions are expected to promote dispersal, they may at the same time impair flight ability (as well as exploratory
behavior) and thereby likely dispersal rates. For a complete understanding of a complex process such as dispersal, further research is required.
What shapes the prospect for democracy in the aftermath of civil conflicts? Some authors claim a successful transition from violence to elections mainly depends on the ability of political institutions, such as power-sharing arrangements, to mitigate the security dilemma among former battlefield adversaries. Drawing on a broader literature, others point to potential effects of foreign aid on democratic development.
This predominant focus on elections and the security dilemma, however, limits our understanding in a number of ways. We do not know how the choice of post-conflict elites to hold elections is strategically intertwined with their willingness to reform other state institutions. We also have only begun to understand how post-conflict power-sharing governments function as revenue source for elites. Knowing how this economic function drives or obstructs post-conflict democratic development is particularly helpful if we shift our attention to a major source of income for post-conflict elites: foreign aid, and the democratic conditions donors attach to it.
Addressing these gaps, I argue that both the economic utility from office as well as political conditionalities give rise to a rent-seeking/democracy dilemma for post-conflict elites: they can either hold elections and face uncertainty over their access to power, but secure economic rents from aid. Or they refuse to democratize, secure their hold on power, but risk losing revenues when donors withdraw aid. In this situation, their optimal strategy is to agree to democratic reforms in the area on which donors place most value, elections. But to maximize their chances of electoral victory and continued access to rents from office, elites simultaneously restrain an independent rule of law and narrowly distribute private goods to their supporters.
This rent-seeking/democracy dilemma is particularly prevalent in one of the most popular forms of post-conflict institutions: power-sharing governments. Including rebel groups in post-conflict cabinets increases the number of constituencies that need to be sustained from the government budget. In addition, the interim nature of transitional power-sharing cabinets leads elites to steeply discount the future and increase rent-seeking in the short term. My main hypothesis is therefore that large aid flows to extensive power-sharing governments should be associated with improved elections, but limits in the rule of law and more provision of private instead of public goods.
To test this prediction quantitatively, I combine data on aid flows and rebel participation in post-conflict cabinets between 1990 and 2010 with indicators for democratic development, election quality, rule of law, and public goods provision. Results from a wide range of regression models provide empirical support for my argument. Individually, extensive power-sharing governments and large aid flows do not seem to have strong effects. Models that introduce an interaction term between aid and power-sharing, however, yield strong evidence of a rent-seeking/democracy dilemma: Power-sharing and foreign aid jointly predict a positive, but small change in democracy scores as well as cleaner elections. At the same time, they are jointly associated with a limited rule of law and stronger distribution of private goods. For each indicator, I document evidence for mechanisms and changes in the effect over time.
The theory and empirical results presented in this dissertation have a number of implications for future research. They highlight the importance of moving away from a singular focus on post-conflict elections and looking also at other institutional dimensions of post-conflict politics. My political economy model of power-sharing also demonstrates the utility of explicitly including economic functions of post-conflict institutions into power-sharing and broader peacebuilding research. And I introduce novel evidence into research and practice of aid delivery; this helps not only to clarify academic debates under which conditions aid can be effective, but also informs practitioners who help conflict-affected countries in their transition from war to democracy.
Glacitectonic deformation in the Quaternary caused the tectonic framework of large-scale folds and displaced thrust sheets of Maastrichtian (Upper Cretaceous) chalk and Pleistocene glacial deposits in the southwestern Baltic Sea area.
A wide spectrum of methods has been compiled to unravel the structural evolution of the Jasmund Glacitectonic Complex. The analyses of digital elevation models (DEM) suggest a division into two structural sub-complexes – a northern part with morphological ridges striking NW–SE and a southern part with SW–NE trending ridges. Geological cross sections from the eastern coast (southern sub-complex) were constructed and restored using the software Move™ and the complementary module 2D Kinematic Modelling™.
The final geometric model of the southern sub-complex shows a small-scale fold-and-thrust belt. It includes three different orders of architectural surfaces (see PEDERSEN, 2014): erosional surfaces and the décollement (1st order), thrust faults (2nd order), and beds outlining hanging-wall anticlines as well as footwall synclines (3rd order). Thrust faults of the southern structural sub-complex are mainly inclined towards south, which indicates a local glacier push from the S/SE.
The glacitectonic structures have a surface expression in form of sub-parallel ridges and elongated valleys in between. Geomorphological mapping and detailed landform analyses together with the structural investigations provide an insight into the chronology of sub-complexes formation. The northern part of the glacitectonic complex is suggested to have been formed before the southern one, considering the partly truncated northerly ridges and their superimposition by the southern sub-complex.
Although there is a high number of scientific publications on the glacitectonic evolution of Jasmund, these presented models often lack a consistent theory for the development integrating all parts of the 100 km2 large complex. Therefore, the combination of all results leads to a more self-consistent genetic model for the entire Jasmund Glacitectonic Complex.
Self-affine tiles and fractals are known as examples in analysis and topology, as models of quasicrystals and biological growth, as unit intervals of generalized number systems, and as attractors of dynamical systems. The author has implemented a software which can find new examples and handle big databases of self-affine fractals. This thesis establishes the algebraic foundation of the algorithms of the IFStile package. Lifting and projection of algebraic and rational iterated function systems and many properties of the resulting attractors are discussed.
The Flavivirus genus (Flaviviridae family) comprises the most important arboviruses in the world such as dengue virus, West Nile virus (WNV), Zika virus (ZIKV), Japanese encephalitis virus and yellow fever virus (YFV). Every year, several outbreaks caused by flaviviruses are reported worldwide (i.e.: ZIKV and YFV outbreaks in South America) with a huge impact on economy and public health. In the last few decades, many aspects of the flavivirus biology and the interaction of flaviviruses with host cells have been elucidated. However, many underlying mechanisms concerning receptor usage, entry process and viral interaction with host cell factors are still not completely understood. Integrins, the major class of cell adhesion molecules have been implicated in the infectious cycle of different viruses including flaviviruses. A previous report proposed that a particular integrin, the αVβ3 integrin, might act as a cellular receptor for WNV. However, this hypothesis was not confirmed by other groups. In the present study, murine cell lines lacking the expression of one or more integrin subunits were used to evaluate the involvement of different integrins in the flavivirus infection cycle. Mouse fibroblasts lacking the expression of β1 integrin (MKF-β1-/-) or β3 integrin (MEF-β3-/-) subunits or αVβ3 integrin (MEF-αVβ3-/-) as well as their corresponding wild-type cells were utilized. A second model using Chinese hamster ovary cells (CHO-K1), a cell line that has been described to be refractory to some flaviviruses, were modified to express either αV (CHO-αV+/+) or β3 (CHO-β3+/+) integrin subunits. All cell lines were first characterized by confocal laser microscopy, flow cytometry and functional assays prior to infection to assess their integrin expression. The cell lines were then inoculated with different flaviviruses of public health relevance: WNV, YFV-17D, Usutu virus (USUV), Langat virus (LGTV) and ZIKV. Infection assays were designed in order to evaluate whether integrins influence i) cell susceptibility; ii) binding; iii) internalization and iv) replication of the investigated flaviviruses. Our findings clearly demonstrate that β1, β3 and αVβ3 integrins do not act as flavivirus cellular receptor or attachment factor since their ablation does not completely abrogate flavivirus infection in the investigated cell lines. Flavivirus binding to the cell surface of MEFs, MKFs and CHO cells was not disturbed by the genomic deletion of the above-mentioned integrins. The deletion of β1 and β3 integrin subunit did not affect internalization of any of the flaviviruses tested. In contrast to that, loss of αVβ3 integrin in the MEF-αVβ3-/- cells showed a statistically significant decrease in WNV and USUV internalization while ZIKV, YFV-17D and LGTV internalization remained unaffected suggesting that αVβ3 integrin might be involved in the internalization process of at least some flaviviruses. On the other hand, flavivirus replication was substantially impaired in the integrin-deficient cell lines in comparison to their corresponding wild-type cells. Both, MEF-β3-/- and MKF-β1-/- cells showed a statistically significant reduction on viral load for all flaviviruses tested in comparison to their respective wild-type cells. The MEF-αVβ3-/- cells in particular, showed a strong inhibition of flavivirus replication with a reduction of up to 99% on viral loads for all flaviviruses tested. Levels of flavivirus negative-strand RNA were substantially decreased in MEF-αVβ3-/- cells indicating that integrins might influence flavivirus RNA replication. The ectopic expression of either αV or β3 integrin subunits in CHO cells slightly increased the replication of all flaviviruses tested. Taken together, this is the first report highlighting the involvement of integrins in ZIKV, USUV, LGTV and YFV infection. The results strongly indicate that the investigated integrins play an important role in flavivirus infection and might represent a novel host cell factor that enhances flavivirus replication. Although the exact mechanism of interaction between integrins and flaviviruses is currently unknown, the results provided in this study deepen our insight into flavivirus - host cell interactions and open doors for further investigations.
Sexual selection favours traits that confer a competitive advantage in access to mates and to their gametes. This results in males evolving a wide array of adaptations that may be conflictual with female’s interests and even to collateral negative effects on female’s lifespan or reproductive success. Harmful male adaptations are diverse and can be extreme. For example, males of various species evolved adaptations that incur physical damage to the female during copulation, referred to as traumatic mating. Most of these adaptations provide males with a competitive fertilization advantage due to the injection of sperm or non-sperm compounds through the wound. In the spider taxonomical literature, alterations of external genital structures have been reported in females and may result from male inflicted damage during copulation. Contrarily to other cases of traumatic mating, the transfer of sperm or non-sperm compounds does not seem to be the target of selection for external female genital mutilation (EFGM) to evolve. Therefore, investigating EFGM may provide valuable information to extend our understanding of the evolution of harmful male adaptations. In this thesis, I explore this newly discovered phenomenon and combine empirical and theoretical approaches to investigate the causes and consequences of EFGM evolution from male and female perspectives. My findings suggest that EFGM is a natural phenomenon and is potentially widespread throughout spider taxa. I demonstrate the proximal mechanism by which the male copulatory organ mutilates the external female genitalia during genital coupling and show that the mutilation results in full monopolization of the female as mutilated females are unable to remate. Using a theoretical approach, I investigated the conditions for the evolution of EFGM. The model developed suggests that EFGM evolution is favoured for last male sperm precedence and for costs to females that can be relatively high as the male-male competition increases. I present the results of physiological measurements that suggest there is no physiological cost of genital mutilation resulting from healing and immune responses for the female. Finally, I report the results of a behavioural experiment that suggest that females have control over the mutilation and selectively allow or avoid mutilation. These findings suggest that EFGM benefits males by securing paternity, that males and females may have evolved to reduce the costs incurred by the female and that female choice may also play a role in EFGM evolution.
The rapid anthropogenic climate change that is projected for the 21st century is predicted to have severe impacts on ecosystems and on the provision of ecosystem services. With respect to the longevity of trees, forestry in particular has to adapt now to future climate change. This requires profound multidisciplinary knowledge on the direct and indirect climate sensitivity of forest ecosystems on various spatial scales. Predictions on growth declines due to increasing drought exposition during climate change are widely recognized for European beech (Fagus sylvatica L.), which is the major forest tree in European temperate deciduous forests. However, research from other continents or other biomes has shown that winter climate change may also affect forest growth dynamics due to declining snow cover and increased soil cooling. So far, this winter cold sensitivity is largely unexplored in Europe. Thus, particularly focussing on forest growth dynamics and winter cold sensitivity, the goal of this PhD-project was to explore how climate sensitivity of forest ecosystems differs regionally. By doing so, the project aimed to deliver insights about possibilities and limits of upscaling regional knowledge to a global understanding of climate sensitivity. To achieve these goals, this PhD-project integrated five studies (Manuscripts 1–5) that investigated the climate sensitivity of biogeochemical cycles, plant species composition in forests, and forest growth dynamics across spatial scales. In particular, a large-scale gradient-design field experiment simulated the influence of winter climate change on forest ecosystems by snow cover and soil temperature manipulations (Manuscript 1). This study indicated that soil cooling and decreased root nutrient uptake may indirectly reduce growth of adult forest trees. Moreover, this study indicated uniform ecological sensitivity to soil temperature changes across sites along a large winter temperature gradient (ΔT = 4 K across 500 km), irrespective of the site-specific history of snow cover conditions, which motivates upscaling from local winter climate change studies to the regional scale. Although regional climate drives growth of adult forest trees, local factors, such as site-specific edaphic conditions, might control plants in the forest understory. This assumption was tested by mapping the forest understory composition along the same winter temperature gradient as introduced above (Manuscript 2). Across sites, this study found that edaphic conditions explained the spatial turnover in the forest understory composition more than climate, which might moderate direct climate change impacts on the forest understory composition. However, edaphic conditions, forest structure, and climate are linked by triangular interactions. Thus, climate change might still indirectly affect the forest vegetation dynamics. Moreover, a dendroecological study focussed on the same winter temperature gradient from central to cold-marginal beech populations as above in order to identify gradual changes in summer drought and winter cold sensitivity in tree growth (Manuscript 3). Towards the cold distribution margin, the influence of drought on tree growth gradually decreased, while growth reductions were increasingly related to winter cold due to harsher winter climate. By a large-scale dendroecological network study assessed the relationship of growth dynamics to climate and reproductive effort in beech forests across Europe (Manuscript 4). Indeed, this study found the general pattern across the distribution range of beech that high temperature controlled growth indirectly via resource allocation to reproduction. However, the strong, direct drought signal that could be generally detected from dry-marginal to central populations vanished towards the cold-marginal populations, where the more focussed study of Manuscript 3 identified a stronger relationship of tree growth to winter cold. Further extending the scope of this PhD-thesis to global scales, litter decomposition rates were assessed across biomes (Manuscript 5). This study found a robust relationship between climate and decomposition rates, but it also demonstrated large within-biome variability on a local scale. These local scale differences might depend on habitat conditions that, in turn, could be modulated by climate change, which calls for a better exploration of indirect climate sensitivity. In conclusion, this PhD-thesis highlighted that multidisciplinary research can advance the understanding of ecological interactions in forest ecosystems under changing climate scenarios. In this PhD-project, a winter climate change experiment, where site-representative target trees were selected by means of dendroecology, contributed to a mechanistic understanding of winter cold sensitivity in forest growth dynamics. Dendroecological investigations then put the findings in a broader temporal and spatial context by describing local climate sensitivity of tree growth on different spatial scales. This thesis further shows that global generalizations about the relationship of climate and ecological processes in ecosystem models have to be critically reviewed for the need of local and regional adjustment because these processes might experience considerable regional- or local-scale variation. However, this thesis reports uniform sensitivity of ecological processes to altered winter soil temperature regimes across a large winter temperature gradient. Thus, upscaling from insights of previous winter climate change experiments to regional scales is encouraged.
Chemosymbiosis in marine bivalves – unravelling host-symbiont interactions and symbiotic adaptions
(2018)
Symbiosis essentially forms the cornerstone of complex life on earth. Spearheading
symbiosis research in the last few decades include the exploration of diverse mutualistic
animal-bacterial associations from marine habitats. Yet, many facets of symbiotic
associations remain under-examined. Here we investigated marine bivalves of the genera
Bathymodiolus and Codakia, inhabiting hydrothermal vents and shallow water
ecosystems, respectively, and their bacterial symbionts. The symbionts reside
intracellularly within gill epithelia and supply their host with chemoautotrophically fixed
carbon. They oxidize reduced substrates like sulfide (thiotrophic symbionts) and methane
(methanotrophic symbionts) from surrounding fluids for energy generation. The nature of
interactions between host and symbiont at the metabolic and physical level, as well as
between the holobiont and its environment remain poorly understood. In vitro cultivations
of both symbiont and host are difficult till date, hampering the feasibility of targeted
molecular investigations.
We bypassed culture-based experiments by proteogenomically investigating physically
separated fractions of host and symbiont cell components for the bivalves Bathymodiolus
azoricus, Bathymodiolus thermophilus and Codakia orbicularis. Using these
enrichments, we sequenced the symbionts’ genomes and established semi-quantitative
host-symbiont (meta-) proteomic profiles. This combined approach enabled us to resolve
symbiosis-relevant metabolic pathways and adaptations, detect molecular factors
mediating physical interactions amongst partners and to understand the association of
symbiotic traits with the environmental factors prevailing within habitats of the respective
bivalve.
Our results revealed intricate metabolic interdependence between the symbiotic partners.
In Bathymodiolus, these metabolic interactions included (1) the concentration of essential
substrates like CO2 and thiosulfate by the host for the thiotrophic symbiont, and (2) the
host’s replenishment of essential TCA cycle intermediates for the thiotroph that lacks
biosynthetic enzymes for these metabolites. In exchange (3), the thiotroph compensates
the host’s putative deficiency in amino acid and cofactor biosynthesis by cycling aminoacids
derived from imported precursors back to the host. In case of Codakia orbicularis,
the symbionts may metabolically supplement their host with N-compounds derived from
fixation of molecular nitrogen, a trait that was hitherto unknown in chemosynthetic
thiotrophic symbionts.
Individual proteogenomic investigations of the bivalves Bathymodiolus azoricus and
Bathymodiolus thermophilus showed that their symbionts are able to exploit a multitude
of energy sources like sulfide, thiosulfate, methane and hydrogen to fuel chemosynthesis.
The bivalves and their thiotrophic symbionts, however, are particularly adapted to
thiosulfate-utilization, as indicated by mitochondrial production and concentration of
thiosulfate by host and dominant expression of thiosulfate oxidation enzymes in the
symbiont. This may be advantageous, because thiosulfate is less toxic to the host than
sulfide. The central metabolic pathways for energy generation, carbon and nitrogen
assimilation and amino acid biosynthesis in thiotrophic symbionts of both Bathymodiolus
host species are highly conserved. Expression levels of these pathways do, however, vary
between symbionts of both species, indicating differential regulation of enzyme synthesis,
possibly to accommodate differences in host morphology and environmental factors.
Systematic comparison of symbiont-containing and symbiont-free sample types within
and between B. azoricus and B. thermophilus revealed the presence of ‘symbiosisspecific’
features allowing direct host-symbiont physical interactions. Host proteins
engaged in symbiosis-specific functions include 1) a large repertoire of host digestive
enzymes predominant in the gill, possibly facilitating symbiont population control and
carbon acquisition via direct enzymatic digestion of symbiont cells and 2) a set of host
pattern-recognition receptors, which may enable the host to selectively recognize
pathogens or even symbionts “ripe” for consumption. Symbiont proteins engaged in
symbiosis-specific interactions included 3) an enormous set of adhesins and toxins,
putatively involved in symbiont colonization, persistence and host-feeding.
Bathymodiolus symbionts also possess repertoires of CRISPR-Cas and restrictionmodification
genes for phage defense that are unusually large for intracellular symbionts.
Genomic and proteomic comparisons of thiotrophic symbionts of distinct Bathymodiolus
host species from different vent sites revealed a conserved core genome but divergent
accessory genomes. The B. thermophilus thiotroph’s accessory genome was notably more
enriched in genes encoding adhesins, toxins and phage defense proteins than that of other
Bathymodiolus symbionts. Phylogenetic analyses suggest that this enrichment possibly
resulted from horizontal gene acquisition followed by multiple internal gene duplication
events. In others symbionts, these gene functions may be substituted by alternate
mechanisms or may not be required at all: The methanotrophic symbionts of B. azoricus,
for example, has the genetic potential to supplement phage defense functions. Thus, the
accessory genomes of Bathymodiolus symbionts are species- or habitat-associated,
possibly facilitating adaptation of the bivalves to their respective micro- and macroenvironments.
In support of this, we show that symbiont biomass in B. thermophilus,
which hosts only one thiotrophic symbiont phylotype, is considerably higher than in B.
azoricus that hosts thiotrophic and methanotrophic symbionts. This suggests that different
symbiont compositions in each species produce distinct microenvironments within the
holobiont.
Our study presents an exhaustive assessment of the genes and proteins involved in this
bivalve-microbe interaction, hinting at intimate host-symbiont interdependencies and
symbiotic crosstalk between partners. The findings open novel prospects for
microbiologists with regard to mechanisms of host-symbiont interplay within highly
specialized niches, origin and distribution of prokaryote-eukaryote interaction factors
across both mutualistic and pathogenic associations.
This dissertation focusses on the numerical modelling of resonant destabilization of Alfvén eigenmodes by fast ions in fusion plasmas. It especially addresses non-linear simulations of stellarator plasmas in which particle collisions are retained. It is shown that collisions are required for a realistic description of Alfvén waves in plasmas relevant to nuclear fusion.
We start by carefully verifying the implementation of the collision operators into the electromagnetic version of the gyro-kinetic delta-f particle-in-cell code EUTERPE. After these initial benchmarks are completed successfully, the code is in a position to be applied to realistic tokamak and stellarator scenarios.
Since every collision operator needs to fulfil conservation laws, a momentum-conserving version of the pitch-angle scattering operator is implemented. This is in particular important for neoclassical transport simulations aimed at computing flux-surface variations of the electrostatic potential in stellarators.
Using the simplified CKA-EUTERPE model (employing a fixed-mode-structure approximation), we perform non-linear simulations in tokamaks and stellarators. We show that the non-linear dynamics of fast-ion-driven Alfvén eigenmodes is significantly influenced by collisions. They have the potential to enhance the saturation level and to affect the frequency chirping of the modes.
It is thus concluded that collisions play an essential role in determining Alfvén-eigenmode-induced fast-ion transport - an important issue for future fusion devices. In order to address this issue the CKA-EUTERPE model is extended to evolve multiple modes at the same time. First results of this multi-mode version (which enhances the level of realism of the simulations) are shown in the Appendix of the thesis.
Cerebral palsy (CP) remains one of the most common debilitating diseases in the world.
Factors such as neuromuscular incoordination, use of soft diet and delayed oral
clearance of food make maintenance of optimum oral hygiene a challenging task in
these children. The compromised oral hygiene in turn make these children highly
vulnerable to dental disease. Maintaining optimal oral/dental health in CP children is of
utmost importance as these children usually suffer from several associated general
health problems in addition to their primary condition. Poor dental health further
compromises their general health. Nevertheless, CP children often suffer from dental
diseases including dental caries more than healthy children. This underscores the need
for improvement in oral health of the CP children. The CP children are dependent on
those around them for their oral hygiene maintenance and dietary intake. CP children
spend most of their time with health care workers in special centers for them or with
their parents/care takers at home. Therefore, the attitude of special health care workers
and parents towards their dental health is of prime importance. The purpose of this
project included to determine the attitude of special health care workers towards their
dental health and oral health comprehension by parents of CP children. In addition, a
study on caries experience of CP children and associated risk factors was also completed.
The final objective was to identify various potential areas of improvement with ultimate
goal of improving dental health of the CP children.
The study involving special health care workers in a Disabled Children’s Center revealed
that oral health knowledge and practices among the workers could generally be labeled
as satisfactory, however some weak areas (such as trend towards symptom-oriented
utilization of oral health care and lack of knowledge about fluoridated water) were
identified. There is a need to enhance the workers’ knowledge in these areas.
The study involving parents of the CP children showed mixed results. Some areas of
strong oral health comprehension (such as importance of good dental health, harmful
effects of sweetened foods), others satisfactory (such as need for routine dental visits,
use of fluoride) and some weak areas (use of flavored fizzy drinks, bottled/canned juices
and sweetened/flavored milks, seeking early treatment) were identified among parents
of CP children. The results strongly indicated a need for enhanced efforts towards
improvement of oral health comprehension in the parents of the CP children.
The study about caries experience and risk factors in CP children has provided useful
information in an area where literature has been scarce. Almost all the studied children
had clinical dental caries, and most of the caries were untreated. Very few children in
the present study had optimal oral hygiene. This study confirmed the strong correlation
between high dental caries experience and poor oral hygiene. Routine dental check-up
visits and topical fluoride application clearly resulted in lower caries experience. Bottled
juices and crispy potato chips were the two predictors for high caries experience.
As stated before, the goal of the project was to identify various potential areas of
improvement in oral health attitude of special health care workers, oral health
comprehension of the parents of CP children and risk factors for dental caries in CP
children. It is contemplated that by addressing the identified weak areas, an
improvement in dental health and care of the CP children is expected. It is also expected
that the collected information will help in improvement of clinical preventive as well as
restorative services for the CP children. CP children and their parents lead a challenging
life. This project was an effort to assist these children and their parents/care takers with
ultimate goal of improving their oral health and in turn their overall quality of life.
There is an increasingly urgent need to understand and predict how organisms will cope with the environmental consequences of global climate change. Adaptation in any form can be mediated by genetic adaptation and/or by phenotypic plasticity. Disentangling these two adaptive processes is critical in understanding and predicting adaptive responses to environmental change. Usually, disentangling genetic adaptation from phenotypic plasticity requires common garden experiments conducted under controlled laboratory conditions. While these experiments are powerful, it is often difficult to translate the results into natural populations and extrapolate to naturally occurring phenotypic variation. One solution to this problem is provided by the many examples of invasive species that exhibit wide phenotypic variation and that reproduce asexually. Besides selecting the appropriate in situ model, one must carefully choose a relevant trait to investigate. Ecomorphology has been a central theme in evolutionary biology because it reflects how organisms can adapt to their environment through their morphology. Intraspecific ecomorphological studies are especially well suited to identify adaptive pressures and provide insights into the microevolutionary mechanisms leading to the phenotypic differentiation.
One excellent candidate for an intraspecific ecomorphological study aiming to understand adaptation through genetic adaptation and phenotypic plasticity is the invasive New Zealand mudsnail Potamopyrgus antipodarum Gray (1853). This ovoviviparous snail features high variability in shell morphology and has successfully invaded a wide range of fresh- and brackish water habitats around the world. The evolutionary and ecological situations in this species’ native and invasive ranges is drastically different. In New Zealand, P. antipodarum’s native range, sexual and asexual individuals coexist and experience selective pressure by sterilizing endoparasites. By contrast, only a few asexual lineages have been established in invaded regions around the globe, where parasite infection is extremely rare. Here, we took advantage of the low genetic diversity among asexually reproducing European individuals in an attempt to characterize the relative contribution of genetic variation and phenotypic plasticity to the wide variation in shell morphology of this snail.
Analysing the ecomorphology of 425 European P. antipodarum in a geometric-morphometric framework, using brood size as proxy for fecundity, and mtDNA and nuclear SNPs to account for relatedness and identify reproductive mode, we hypothesized that 1) shell variation in the invasive range should be adaptive with respect to colonization of novel habitats, and 2) at least some of the variation might be caused by phenotypic plasticity. We then expanded our ecomorphological scope by analysing 996 native specimens, expecting 1) genetic and morphological diversity to be higher in the native range compared to invaded regions; 2) morphological diversity to be higher in sexual compared to asexual individuals according to the frozen niche hypothesis; and 3) shell morphology to be habitat specific, hence adaptative. In a last part, we used computational fluid dynamics simulations to calculate relative drag and lift forces of three shell morphologies (globular, intermediate, and slender). Here, we tested the overall hypothesis that shell morphology in gastropods is an adaptation against dislodgement through lift rather than drag forces, which would explain the counterintuitive presence of wider shells with shorter spires in lotic environments. With a final flow tank experiment, we tested the specific hypothesis that the dislocation velocity of living snails is positively linked to foot size, and that the latter can be predicted by shell morphology, in particular the aperture area as assumed by several authors.
As expected, we found genetic and morphological diversity to be higher in native than in invasive snails, but surprisingly no higher morphological diversity in sexual versus asexual individuals. The relationships between shell morphology, habitat, and fecundity were complex. Shape variation was primarily linked to genetic relatedness, but specific environmental factors including flow rate induced similar shell shapes. By contrast, shell size was largely explained by environmental factors. Fecundity was correlated with size, but showed trade-offs with shape in increasingly extreme conditions. With increasing flow and in smaller habitats such as springs, the trend of shell shape becoming wider was reversed, i.e. snails with slender shells were brooding more embryos. This increase in fitness was explained by our CFD simulations: in lotic habitats, slender shells experience less drag and lift forces compared to globular shells. We found no correlation between foot size and shell shape or aperture area showing that the assumed aperture/foot area correlation should be used with caution and cannot be generalized for all aquatic gastropod species. Finally, shell morphology and foot size were not related to dislodgement speed in our flow tank experiment. We concluded that the relationship of shell morphology and flow velocity is more complex than assumed. Hence, other traits must play a major role in decreasing dislodgement risk in stream gastropods, e.g. specific behaviours or pedal mucus stickiness. Although we did not find that globular shells are adaptations decreasing dislodgement risk, we cannot rule out that they are still flow related adaptations. For instance, globular shells are more crush-resistant and might therefore represent a flow adaptation in terms of diminishing damage caused by tumbling after dislodgement or against lotic specific crush-type predators.
At this point, we can conclude that shell morphology in P. antipodarum varies at least in part as an adaptation to specific environmental factors. This study shows how essential it is to reveal how plastic, genetically as well as phenotypically, adaptive traits in species can be and to identify the causal factors and how these adaptations affect the fitness in order to better predict how organisms will cope with changing environmental conditions.
Many intrastate conflicts see more than one mediation effort. As the sequencing of mediation efforts in intrastate conflicts is neglected in existing research, this project addresses the question how and why previous mediation outcomes have an impact on subsequent mediation onset and subsequent mediation success. Drawing on bargaining theory, it is argued that governments and rebel groups engaged in intrastate conflicts account for previous mediation outcomes in their cost-benefit calculations on subsequent mediation onset, and, should subsequent talks set on, their behaviour during subsequent mediation efforts, which influences subsequent mediation success.
If mediation did not produce an agreement, the persistence of the private information problem is noted by the conflict parties. Yet, no new costs of mediation are uncovered, and hence the conflict parties will agree to subsequent mediation onset. Being aware of the necessity to overcome the private information and the commitment problem, the mediator will seek to account for the concerns of the conflict parties, and thereby work towards subsequent mediation success. If mediation produced a partial agreement, the benefits of mediation are underlined. The private information and the commitment problem seem solved with the assistance of the mediator. Subsequent mediation onset and eventually subsequent mediation success are observed. If a mediated agreement was reneged on by the rebel group, the government will refrain from further talks, pointing out the rebel group’s illegitimacy. If the government reneged on the agreement itself, it will also decide against subsequent mediation, as the previous mediation effort produced an agreement which did not mirror the power distribution in the dyad. Costs of mediation, which outweigh the benefits of it, were highlighted. Rebel groups will opt for mediation regardless which side reneged on an agreement. As both governments and rebel groups have to agree to subsequent mediation for talks to set on, subsequent mediation onset is unlikely if a mediated agreement was reneged on. Given the onset of subsequent mediation after a mediated agreement was reneged on, subsequent mediation success is unlikely to be observed, due to the previously underlined hazards of sharing private information and the persistence of the commitment problem.
The theoretical argument is tested with a mixed-methods approach. The quantitative analysis accounts for mediation efforts in African intrastate conflicts between 1993 and 2007. The qualitative analysis scrutinises the mediation efforts between the Government of Uganda and the Lord’s Resistance Army. The results of both parts of analysis largely go hand-in-hand, and show that partial mediation success and mediation which did not produce an agreement have a positive impact on subsequent mediation onset in particular, but also on subsequent mediation success. Reneged on mediated agreements have a severe negative impact on subsequent mediation onset and subsequent mediation success though.
By addressing the question which impact previous mediation outcomes have on subsequent mediation efforts, this research shows that mediation which does not produce an agreement is not the mediation outcome which needs to be feared by the international community. Instead, the deteriorating impact of short-lived agreements, a mediation outcome which is unaccounted for in existing research as an explanatory variable, becomes apparent. This research has important policy implications, especially for mediators, as it suggests that accepting mediation efforts to end without an agreement is more conducive for subsequent mediation efforts. Moreover, this research points towards the necessity of including reneged on agreements in mediation research as an explanatory variable more extensively, thereby shedding more light onto the dynamics at play in consecutive mediation efforts.