408 research outputs found
Wirkungen des Energiepflanzenanbaus auf die natürlichen Ressourcen Boden und Wasser
Maisanbau birgt u.a. aufgrund der späten Entwicklung von Mais das Risiko unerwünschter Nitratauswaschungen in das Grundwasser. Die Durchwachsene Silphie (Silphium perfoliatum L.), eine der ertragsstärksten alternativen Biogaspflanzen zum Mais, könnte dieses Risiko als perennierende Staude mit längerer Bodendeckung und intensiver Durchwurzelung des Bodens verringern. Zudem könnte aufgrund der fehlenden Bodenbearbeitung die Wasserinfiltration verbessert, der Bodenabtrag durch Erosion vermindert sowie der Gehalt an organischer Bodensubstanz im Vergleich zum Maisanbau erhöht werden.
Zur Überprüfung dieser Hypothesen wird ein seit 2012 laufender Feldversuch mit dem Ziel des Vergleichs zwischen Mais und Silphie sowie Feldgras verwendet. Als zusätzlicher Faktor wird ab 2017 die Hälfte der Parzellen einer Starkregensimulation unterzogen. Zur Messung der N-Auswaschungen wurden im Herbst 2016 Passivsammler, sogenannte Selbst-Integrierende Akkumulatoren (SIA), im Versuch eingebaut, die ebenso wie der Gehalt an organischem C, Gesamt-N sowie mineralisiertem N bis 90 cm Tiefe halbjährlich analysiert werden. Weiterhin werden der Niederschlagsabfluss von den Parzellen und die damit verbundene Bodenerosion sowie die Infiltrationskapazität, die Aggregatstabilität und die Lagerungsdichte des Bodens bestimmt.
Erste Ergebnisse aus dem Herbst 2016 zeigen mit 9,2 im Vergleich zu 8,4 g C kg-1 Boden signifikant erhöhte C-Gehalte im Oberboden der Silphie-Parzellen im Vergleich zu Mais, außerdem mit 28,6, 16,6, und 9,3 kg N ha-1 signifikant unterschiedliche Gehalte an Nmin bis 90 cm Tiefe in der Abfolge Mais > Feldgras > Silphie. Die Aggregatstabilität im Oberboden wurde durch Feldgras im Vergleich zu Mais weiterhin mit 79,7 im Vergleich zu 74,9 % signifikant erhöht. Infolge einer Schneeschmelze im Januar 2017 konnte zudem ein vielfach höherer Abfluss auf den Mais- im Vergleich zu den Feldgras- und Silphie-Parzellen festgestellt werden. Diese Ergebnisse deuten auf Vorteile sowohl der Silphie als auch des Feldgrases gegenüber Mais bezüglich des Boden- und Wasserschutzes hin. Weiterführende Untersuchungen werden detailliertere Schlussfolgerungen zulassen
GLINT: GlucoCEST in neoplastic tumors at 3 T—clinical results of GlucoCEST in gliomas
Objective: Clinical relevance of dynamic glucose enhanced (DGE) chemical exchange saturation transfer (CEST) imaging has mostly been demonstrated at ultra-high field (UHF) due to low effect size. Results of a cohort study at clinical field strength are shown herein. // Materials and methods: Motion and field inhomogeneity corrected T1ρ‐based DGE (DGE⍴) images were acquired before, during and after a D-glucose injection with 6.3 s temporal resolution to detect accumulation in the brain. Six glioma patients with clear blood–brain barrier (BBB) leakage, two glioma patients with suspected BBB leakage, and three glioma patients without BBB leakage were scanned at 3 T. // Results: In high-grade gliomas with BBB leakage, D-glucose uptake could be detected in the gadolinium (Gd) enhancing region as well as in the tumor necrosis with a maximum increase of ∆DGE⍴ around 0.25%, whereas unaffected white matter did not show any significant DGE⍴ increase. Glioma patients without Gd enhancement showed no detectable DGE⍴ effect within the tumor. // Conclusion:
First application of DGE⍴ in a patient cohort shows an association between BBB leakage and DGE signal irrespective of the tumor grade. This indicates that glucoCEST corresponds more to the disruptions of BBB with Gd uptake than to the molecular tumor profile or tumor grading
Aharonov-Bohm signature for neutral excitons in type-II quantum dot ensembles
It is commonly believed that the Aharonov-Bohm (AB) effect is a typical
feature of the motion of a charged particle interacting with the
electromagnetic vector potential. Here we present a magnetophotoluminescence
study of type-II InP/GaAs self-assembled quantum dots, unambiguously revealing
the Aharonov-Bohm-type oscillations for neutral excitons when the hole ground
state changes its angular momentum from lh = 0 to lh = 1, 2, and 3. The hole
ring parameters derived from a simple model are in excellent agreement with the
structural parameters for this system.Comment: Revised version, 10 pages, 3 figure
Soil moisture and matric potential-an open field comparison of sensor systems
Soil water content and matric potential are central hydrological state variables. A large variety of automated probes and sensor systems for state monitoring exist and are frequently applied. Most applications solely rely on the calibration by the manufacturers. Until now, there has been no commonly agreed-upon calibration procedure. Moreover, several opinions about the capabilities and reliabilities of specific sensing methods or sensor systems exist and compete. A consortium of several institutions conducted a comparison study of currently available sensor systems for soil water content and matric potential under field conditions. All probes were installed at 0.2mb.s. (metres below surface), following best-practice procedures. We present the set-up and the recorded data of 58 probes of 15 different systems measuring soil moisture and 50 further probes of 14 different systems for matric potential. We briefly discuss the limited coherence of the measurements in a cross-correlation analysis. The measuring campaign was conducted during the growing period of 2016. The monitoring data, results from pedophysical analyses of the soil and laboratory reference measurements for calibration are published in Jackisch et al. (2018, https://doi.org/10.1594/PANGAEA.892319)
Plasmodium berghei Hsp90 contains a natural immunogenic I-A<sup>b</sup>-restricted antigen common to rodent and human Plasmodium species
Thorough understanding of the role of CD4 T cells in immunity can be greatly assisted by the study of responses to defined specificities. This requires knowledge of Plasmodium-derived immunogenic epitopes, of which only a few have been identified, especially for the mouse C57BL/6 background. We recently developed a TCR transgenic mouse line, termed PbT-II, that produces CD4+ T cells specific for an MHC class II (I-Ab)-restricted Plasmodium epitope and is responsive to both sporozoites and blood-stage P. berghei. Here, we identify a peptide within the P. berghei heat shock protein 90 as the cognate epitope recognised by PbT-II cells. We show that C57BL/6 mice infected with P. berghei blood-stage induce an endogenous CD4 T cell response specific for this epitope, indicating cells of similar specificity to PbT-II cells are present in the naïve repertoire. Adoptive transfer of in vitro activated TH1-, or particularly TH2-polarised PbT-II cells improved control of P. berghei parasitemia in C57BL/6 mice and drastically reduced the onset of experimental cerebral malaria. Our results identify a versatile, potentially protective MHC-II restricted epitope useful for exploration of CD4 T cell-mediated immunity and vaccination strategies against malaria
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DNA methylation-based classification of central nervous system tumours.
Accurate pathological diagnosis is crucial for optimal management of patients with cancer. For the approximately 100 known tumour types of the central nervous system, standardization of the diagnostic process has been shown to be particularly challenging-with substantial inter-observer variability in the histopathological diagnosis of many tumour types. Here we present a comprehensive approach for the DNA methylation-based classification of central nervous system tumours across all entities and age groups, and demonstrate its application in a routine diagnostic setting. We show that the availability of this method may have a substantial impact on diagnostic precision compared to standard methods, resulting in a change of diagnosis in up to 12% of prospective cases. For broader accessibility, we have designed a free online classifier tool, the use of which does not require any additional onsite data processing. Our results provide a blueprint for the generation of machine-learning-based tumour classifiers across other cancer entities, with the potential to fundamentally transform tumour pathology
Molecular profiling of pediatric meningiomas shows tumor characteristics distinct from adult meningiomas
In contrast to adults, meningiomas are uncommon tumors in childhood and adolescence. Whether adult and pediatric meningiomas differ on a molecular level is unclear. Here we report detailed genomic analyses of 37 pediatric meningiomas by sequencing and DNA methylation profiling. Histologically, the series was dominated by meningioma subtypes with aggressive behavior, with 70% of patients suffering from WHO grade II or III meningiomas. The most frequent cytogenetic aberrations were loss of chromosomes 22 (23/37 [62%]), 1 (9/37 [24%]), 18 (7/37 [19%]), and 14 (5/37 [14%]). Tumors with NF2 alterations exhibited overall increased chromosomal instability. Unsupervised clustering of DNA methylation profiles revealed separation into three groups: designated group 1 composed of clear cell and papillary meningiomas, whereas group 2A comprised predominantly atypical meningiomas and group 2B enriched for rare high-grade subtypes (rhabdoid, chordoid). Meningiomas from NF2 patients clustered exclusively within groups 1 and 2A. When compared with a dataset of 105 adult meningiomas, the pediatric meningiomas largely grouped separately. Targeted panel DNA sequencing of 34 tumors revealed frequent NF2 alterations, while other typical alterations found in adult non-NF2 tumors were absent. These data demonstrate that pediatric meningiomas are characterized by molecular features distinct from adult tumors
Restriction of essential amino acids dictates the systemic metabolic response to dietary protein dilution
Dietary protein dilution, where protein is reduced and replaced by other nutrient sources without caloric restriction, promotes metabolic health via the hepatokine Fgf21. Here, the authors show that essential amino acids threonine and tryptophan are necessary and sufficient to induce these effects
Pulse energy packing effects on material transport during laser processing of < 1
The effects of energy pulse packing on material transport during single-pulse laser processing of silicon is studied using temporarily shaped pulses with durations from 50 to 150 ns. Six regimes of material transport were identified and disambiguated through energy packing considerations over a range of pulse durations. Energy packing has been shown to shift the interaction to energetically costlier regimes without appreciable benefit in either depth, material removal or crater morphology and quality.The authors would like to thank the UK Technology Strategy Board under project TP14/HVM/6/I/BD5665. The authors acknowledge the EPSRC Centre for Doctoral Training in Photonic Systems Development for their generous support
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