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Digital outdoor cameras are increasingly used in wildlife research because they allow species inventories, population estimates, and behavior or activity observations. Which camera model is suitable and practical depends on environmental conditions, focus species and specific scientific questions posed. Here we focused on testing cameras appropriate for elusive species that can be identified visually owing to individual coat patterns. Specifically the camera should be adequate for calculating the minimum population of Eurasian Lynx (Lynx lynx) during a systematic monitoring with camera traps. Therefore we tested six digital camera models with regard to trigger speed and the image quality necessary for visual identification of pacing lynx on trails. The decision if a camera model is adequate for the scientific goal was regulated due to priority levels under laboratory conditions. Only one camera model proved to be suitable for camera-trap monitoring. Our practical camera test can be used to evaluate newer models of digital cameras as they become available. This application opens an avenue for a non-invasive population monitoring of rare and elusive species in a low mountain range area.
This paper employs stochastic simulations of the New Area-Wide Model—a microfounded open-economy model developed at the ECB—to investigate the consequences of the zero lower bound on nominal interest rates for the evolution of risks to price stability in the euro area during the recent financial crisis. Using a formal measure of the balance of risks, which is derived from policy-makers’ preferences about inflation outcomes, we first show that downside risks to price stability were considerably greater than upside risks during the first half of 2009, followed by a gradual rebalancing of these risks until mid-2011 and a renewed deterioration thereafter. We find that the lower bound has induced a noticeable downward bias in the risk balance throughout our evaluation period because of the implied amplification of deflation risks. We then illustrate that, with nominal interest rates close to zero, forward guidance in the form of a time-based conditional commitment to keep interest rates low for longer can be successful in mitigating downside risks to price stability. However, we find that the provision of time-based forward guidance may give rise to upside risks over the medium term if extended too far into the future. By contrast, time-based forward guidance complemented with a threshold condition concerning tolerable future inflation can provide insurance against the materialisation of such upside risks.
Background: A number of scientific papers on yellow fever have been published but no broad scientometric analysis on the published research of yellow fever has been reported. The aim of the article based study was to provide an in-depth evaluation of the yellow fever field using large-scale data analysis and employment of bibliometric indicators of production and quantity.
Methods: Data were retrieved from the Web of Science database (WoS) and analyzed as part of the NewQis platform. Then data were extracted from each file, transferred to databases and visualized as diagrams. Partially by means of density-equalizing mapping makes the findings clear and emphasizes the output of the analysis.
Results: In the study period from 1900 to 2012 a total of 5,053 yellow fever-associated items were published by 79 countries. The United States (USA) having the highest publication rate at 42% (n = 751) followed by far from Brazil (n = 203), France (n = 149) and the United Kingdom (n = 113). The most productive journals are the "Public Health Reports", the "American Journal of Tropical Medicine and Hygiene" and the "Journal of Virology". The gender analysis showed an overall steady increase of female authorship from 1950 to 2011. Brazil is the only country of the five most productive countries with a higher proportion of female scientists.
Conclusions: The present data shows an increase in research productivity over the entire study period, in particular an increase of female scientists. Brazil shows a majority of female authors, a fact that is confirmed by other studies.
Background: Tobacco is a leading environmental factor in the initiation of respiratory diseases and causes chronic obstructive pulmonary disease (COPD). Suppressor of cytokine signaling (SOCS) family members are involved in the pathogenesis of many inflammatory diseases and SOCS-3 has been shown to play an important role in the regulation, onset and maintenance of airway allergic inflammation indicating that SOCS-3 displays a potential therapeutic target for anti-inflammatory respiratory drugs development. Since chronic obstructive pulmonary disease (COPD) is also characterized by inflammatory changes and airflow limitation, the present study assessed the transcriptional expression of SOCS-3 in COPD.
Methods: Real-time PCR was performed to assess quantitative changes in bronchial biopsies of COPD patients in comparison to unaffected controls.
Results: SOCS-3 was significantly down-regulated in COPD at the transcriptional level while SOCS-4 and SOCS-5 displayed no change.
Conclusions: It can be concluded that the presently observed inhibition of SOCS-3 mRNA expression may be related to the dysbalance of cytokine signaling observed in COPD.
Vasoactive intestinal polypeptide (VIP) is a putative neurotransmitter of the inhibitory non-adrenergic non-cholinergic nervous system and influences the mammalian airway function in various ways. Hence known for bronchodilatory, immunomodulatory and mucus secretion modulating effects by interacting with the VIP receptors VPAC1 and VPAC2, it is discussed to be a promising target for pharmaceutical intervention in common diseases such as COPD and bronchial asthma. Here we examined the expression and transcriptional regulation of VPAC1 in the lungs of allergic mice using an ovalbumin (OVA) -induced model of allergic asthma. Mice were sensitized to OVA and challenged with an OVA aerosol. In parallel a control group was sham sensitized with saline. VPAC1 expression was examined using RT-PCR and real time-PCR studies were performed to quantify gene transcription. VPAC1 mRNA expression was detected in all samples of OVA-sensitized and challenged animals and control tissues. Further realtime analysis did not show significant differences at the transcriptional level.
Although the present studies did not indicate a major transcriptional regulation of VPAC1 in states of allergic airway inflammation, immunomodulatory effects of VPAC1 might still be present due to regulations at the translational level.
We show that market discipline, defined as the extent to which firm specific risk characteristics are reflected in market prices, eroded during the recent financial crisis in 2008. We design a novel test of changes in market discipline based on the relation between firm specific risk characteristics and debt-to-equity hedge ratios. We find that market discipline already weakened after the rescue of Bear Stearns before disappearing almost entirely after the failure of Lehman Brothers. The effect is stronger for investment banks and large financial institutions, while there is no comparable effect for non-financial firms.
Long-distance seed dispersal is a crucial process allowing the dispersal of fleshy-fruited tree species among forest fragments. In particular, large frugivorous bird species have a high potential to provide inter-patch and long-distance seed transport, both important for maintaining fundamental genetic and demographic processes of plant populations in isolated forest fragments. In the face of increasing worldwide forest fragmentation, the investigation of long-distance seed dispersal and the factors influencing seed dispersal processes has recently become a central issue in ecology. In my thesis, I studied the movement behaviour and the seed dispersal patterns of the trumpeter hornbill (Bycanistes bucinator), a large obligate frugivorous bird, in KwaZulu-Natal, South Africa. I investigated (i) the potential of trumpeter hornbills to provide long-distance seed dispersal within different landscape structures, (ii) seasonal variations in ranging behaviour of this species, and (iii) the potential of this species to enhance the functional connectivity of a fragmented landscape. I used highresolution GPS-data loggers to record temporally and spatially fine-scaled movement data of trumpeter hornbills within both continuous forests and fragmented agricultural landscapes during the breeding- and the non-breeding season. First, combining these data with data on seed-retention times, I calculated seed dispersal kernels, able to distinguish between seed dispersal kernels from the continuous forests and those from the fragmented agricultural landscapes. The seed dispersal distributions showed a generally high ability of trumpeter hornbills to generate seed transport over a distance of more than 100 m and for potential dispersal distances of up to 14.5 km. Seed dispersal distributions were considerably different between the two landscape types, with a bimodal distribution showing larger dispersal distances for fragmented agricultural landscapes and a unimodal one for continuous forests. My results showed that the landscape structure strongly influenced the movement behaviour of trumpeter hornbills, and this variation in behaviour is likely reflected in the shape of the seed dispersal distributions. Second, for each individual bird I calculated daily ranges and investigated differences in daily ranging behaviour and in the process of range expansion comparatively between the breeding- and the non-breeding season. I considered differences in habitat use and possible consequences resulting for seed dispersal function during different seasons. I found that within the breeding season multi-day ranges were built from strongly overlapping and nearly stationary daily ranges which were almost completely restricted to continuous forest. In the non-breeding season, however, birds assembled multi-day ranges by shifting their range site to a generally different area, frequently utilizing the fragmented agricultural landscape. Thereby, several small daily ranges and few large daily ranges composed larger multi-day ranges within the non-breeding season. Seasonal differences in ranging behaviour and range assembly processes resulted in important consequences for seed dispersal function, with short distances and less spatial variation during the breeding season and more inter-patch dispersal across the fragmented landscape during the non-breeding season. Last, I used a projection of simulated seed dispersal events on a high-resolution habitat map to assess the extent to which trumpeter hornbills potentially facilitate functional connectivity between plant populations of isolated forest fragments. About 7% of dispersal events resulted in potential between-patch dispersal and trumpeter hornbills connected a network of about 100 forest patches with an overall extent of about 50 km. Trumpeter hornbills increased the potential of functional connectivity of the landscape more than twofold and seed dispersal pathways revealed certain forest patches as important stepping-stones for seed dispersal among forest fragments. Overall, my study highlights the overriding role that large frugivorous bird species, like trumpeter hornbills, play in seed dispersal in fragmented landscapes. In addition, it shows the importance of fine-scaled movement data combined with high-resolution habitat data and consideration of different landscape structures and seasonality for a comprehensive understanding of seed dispersal function.
In der vorliegenden Arbeit wurden mikroskopische Studien zur Äquilibrierung von partonischer und hadronischer Materie im Rahmen einer Nichtgleichgewichts-Transporttheorie durchgeführt, die sowohl hadronische als partonische Freiheitsgrade enthält und den Übergang zwischen beiden Phasen dynamisch beschreibt. Des Weiteren wurden die thermischen Eigenschaften des Gleichgewichtszustandes der stark wechselwirkenden Materie untersucht, insbesondere Fluktuationen in der Teilchenzahl wie auch höhere Momente von Observablen und deren Verhältnisse. Besonderes Interesse galt dabei den Transportkoeffizienten wie Scher- und Volumenviskosität sowie der elektrischen Leitfähigkeit.
Die Methode der Nichtgleichgewichts-Green'schen Funktionen - initiiert von Schwinger sowie Kadanoff und Baym - wurde vorgestellt um hochenergetische Kern-Kern Kollisionen zu beschreiben. Weiterhin wurde der Schwinger-Keldysh Formalismus benutzt um im Sinne einer Zweiteilchen-irrediziblen Näherung (2PI) die Dynamik von 'resummierten' Propagatoren und Kopplungen in konsistenter Weise zu beschreiben. Des Weiterhin wurden generalisierte Transportgleichungen auf der Basis der Kadanoff-Baym Gleichungen (in Phasenraumdarstellung) abgeleitet und ein Testteilchenverfahren zur Lösung dieser Gleichungen vorgestellt. Damit wurde der formale Rahmen der Parton-Hadron-String Dynamik (PHSD) abgesteckt.
Das PHSD Transportmodell wurde sodann für die Lösung der expliziten Fragestellungen in dieser Arbeit verwendet. Die 'Eingangsgrößen' des Modells wurden in Kapitel 3 aufgeführt. Weiterhin wurde aufgezeigt, dass das Transportmodell alle Phasen einer relativistischen Schwerionenkollision konsistent beschreibt, d.h. angefangen von den primären harten Stoßprozessen und der Bildung von 'Strings' zur Formierung einer partonischen Phase, den Wechselwirkungen in dieser Phase sowie die
dynamische Beschreibung der Hadronisierung. Weiterhin enthält das Modell zudem die hadronischen Endzustandswechselwirkungen bis zum Ausfrieren der hadronischen Freiheitsgrade bei geringer Dichte. ...
Ultrarelativistic Quantum Molecular Dynamics is a physics model to describe the transport, collision, scattering, and decay of nuclear particles. The UrQMD framework has been in use for nearly 20 years since its first development. In this period computing aspects, the design of code, and the efficiency of computation have been minor points of interest. Nowadays an additional issue arises due to the fact that the run time of the framework does not diminish any more with new hardware generations.
The current development in computing hardware is mainly focused on parallelism. Especially in scientific applications a high order of parallelisation can be achieved due to the superposition principle. In this thesis it is shown how modern design criteria and algorithm redesign are applied to physics frameworks. The redesign with a special emphasise on many-core architectures allows for significant improvements of the execution speed.
The most time consuming part of UrQMD is a newly introduced relativistic hydrodynamic phase. The algorithm used to simulate the hydrodynamic evolution is the SHASTA. As the sequential form of SHASTA is successfully applied in various simulation frameworks for heavy ion collisions its possible parallelisation is analysed. Two different implementations of SHASTA are presented.
The first one is an improved sequential implementation. By applying a more concise design and evading unnecessary memory copies, the execution time could be reduced to the half of the FORTRAN version’s execution time. The usage of memory could be reduced by 80% compared to the memory needed in the original version.
The second implementation concentrates fully on the usage of many-core architectures and deviates significantly from the classical implementation. Contrary to the sequential implementation, it follows the recalculate instead of memory look-up paradigm. By this means the execution speed could be accelerated up to a factor of 460 on GPUs.
Additionally a stability analysis of the UrQMD model is presented. Applying metapro- gramming UrQMD is compiled and executed in a massively parallel setup. The resulting simulation data of all parallel UrQMD instances were hereafter gathered and analysed. Hence UrQMD could be proven of high stability to the uncertainty of experimental data.
As a further application of modern programming paradigms a prototypical implementa- tion of the worldline formalism is presented. This formalism allows for a direct calculation of Feynman integrals and constitutes therefore an interesting enhancement for the UrQMD model. Its massively parallel implementation on GPUs is examined.
Life-attenuated measles virus (MV) vaccines have revealed their capacity to routinely induce life-long immunity against MV after just a single or two low-dose injections. Moreover, MV vaccines have been shown to be extensively safe and well tolerated, in general. Thus, MV is a prime candidate for a recombinant vaccine platform to protect also against other pathogens after vaccination. For this purpose, foreign genes can be inserted into additional transcription units (ATU) in recombinant MV genomes so that the encoded foreign proteins are co-expressed with MV proteins in infected cells. These so-called bivalent MV should protect against infection by MV or the pathogen, which the encoded foreign protein had been derived from. Bivalent MVs have already been shown to be effective vaccines against e.g. dengue virus or hepatitis B virus infections by inducing humoral and sometimes also cellular immune responses. In most of these studies, soluble or soluble versions of the pathogens' antigens were used for generation of bivalent MVs.
We hypothesized that the form of the antigen expressed by bivalent MVs is crucial for the potency and constitution of the induced immune responses. Therefore, three different forms of an antigen expressed by bivalent MVs were analyzed, here. The model antigen chosen for this purpose has been the envelope protein (Env) of SIVsmmPBj1.9. In its natural mature form, Env is composed of the surface unit gp120 and the transmembrane unit gp41, which stay non-covalently linked after proteolytic processing of the common precursor protein gp160. However, gp120 can be shed by infected cells or virus particles. Therefore, natural gp160 antigen was used as shedding form. Furthermore, stabilized covalently-linked gp160 variants and soluble gp140 variants were used in this thesis. These different antigen forms were inserted either behind the P or behind the H expression cassettes into the MV genome. The respective bivalent MVs were rescued and characterized. Expression of SIVsmmPBj1.9 Env variants by the bivalent MVs was confirmed by immuno blot and in situ immunoperoxidase assays. Replication curves of bivalent MV showed that growth of MVs expressing the different Env variants was slightly delayed by approximately 24 h compared to control viruses.
For immunization of transgenic, MV-susceptible IFNAR-/--CD46Ge mice, which are the current standard to analyze MV vaccines in a small animal model, an optimal dose of 1x105 TCID50 was determined. For the evaluation of humoral immune responses in transgenic mice, two ELISA systems for the detection of total α-MV and α-SIV antibodies and neutralization assays for detection of neutralizing antibodies against MV and SIV in sera of immunized mice were established. Mice immunized with any of the bivalent MVs showed significant humoral immune responses against MV comparable to those elicited by the parental MV vaccine strain without further genetic modifications. Mice immunized with MVvac2-gp140(P) expressing the soluble gp140 variant revealed highest α-SIV titers with a maximal OD of up to 0.4. Second highest levels of α-SIV antibodies were detected in mice that were immunized with the shedding variants or soluble Env in other positions. MVs expressing the stabilized variants induced only very low α-SIV antibody titers. Neutralizing antibodies directed against SIV could be detected in sera of mice immunized with MVs expressing the soluble or shedding variants, but not in sera of mice immunized with MVs expressing the stabilized variants. In sera of control mice immunized with PBS no antibodies could be detected, as expected. Thus, soluble and shedding antigens induced humoral immune responses, whereas stabilized antigens induced only weak humoral immune responses but no neutralizing antibodies. Analysis of cellular immune responses is still ongoing.
Besides Env, further SIV antigens could be tested for their potency to induce humoral as well as cellular immune responses.
Besides being used as a vaccine platform, recombinant MVs are evaluated as future agent for cancer therapy due to their significant inherent tumor-lytic, so-called oncolytic activity. Currently, the anti-tumoral activity of MV is analyzed in clinical phase I trials. MV strains with high fusion activity are used as oncolytic agents. The fusion protein F of MV strain NSe is highly fusogenic, in contrast to e.g. F of MVwt323, a clone of the pathogenic strain IC-B. Sequence analysis of these two proteins identified one coding nucleotide difference at aa 94 in the F2 domain: a valine (V) in FNSe and a methionine (M) in Fwt323. To evaluate impact of this difference, residues at aa 94 were exchanged. After transient-transfection of MV F and H expression plasmids in receptor-positive cells, V94 in the F2 subunit of FNSe or Fwt323 led to about 6-fold higher fusion activity compared to F proteins with M94. The co-expressed H protein (HNSe or Hwt323) did not influence fusion activity, indicating that the receptor (CD46 or SLAM) bound by H does not quantitatively affect the F proteins' activation. Analysis of F and H showed that formation and transport of MV glycoprotein complexes are not altered by substitution in aa 94 of FNSe or Fwt323.
Furthermore, recombinant MVNSe, MVNSe-F-M94, MVwt323, or MVwt323-F-V94 were rescued. Viral replication revealed slightly higher titers for recombinant MVs expressing M94 in F after 96 h of replication, compared to MVs expressing V94. MVs expressing V94 in F2 showed 2.5-fold higher fusion activity on CD46- and SLAM-positive Vero-hSLAM cells and 2-fold higher fusion activity on B95a cells expressing only SLAM compared to MVs expressing F with M94. Fusion activity of recombinant MVs can thus be modulated by substituting a single aa. V94 in the F protein results in highly fusion active MVs with possibly increased direct cytotoxicity in infected tumors, whereas M94 in F could be associated with decreased fusion activity for therapies, where higher virus titers are required.