Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw

It has been shown that reactive soil minerals, specifically iron(III) (oxyhydr)oxides, can trap organic carbon in soils overlying intact permafrost, and may limit carbon mobilization and degradation as it is observed in other environments. However, the use of iron(III)-bearing minerals as terminal electron acceptors in permafrost environments and thus their stability and capacity to prevent carbon mobilization during permafrost thaw is poorly understood. We have followed the dynamic interactions between iron and carbon, using a space for time-approach, across a thaw gradient in Abisko (Sweden), where wetlands are expanding rapidly due to permafrost thaw. We show through bulk (selective extractions, EXAFS) and nanoscale analysis (correlative SEM and nanoSIMS) that organic carbon is bound to reactive Fe primarily in the transition between organic and mineral horizons in palsa underlain by intact permafrost (41.8 ± 10.8 mg carbon per g soil, 9.9 to 14.8% of total soil organic carbon). During permafrost thaw, water-logging and O2 limitation lead to reducing conditions and an increase in abundance of Fe(III)-reducing bacteria which favor mineral dissolution and drive mobilization of both iron and carbon along the thaw gradient. By providing a terminal electron acceptor, this rusty carbon sink is effectively destroyed along the thaw gradient and cannot prevent carbon release with thaw

Assoziation organischer Bodensubstanz mit mineralischen Oberflächen in einem ackerbaulich genutzten Oberboden mit unterschiedlicher Bodentextur

Die Menge und mikroskalige Verteilung mineralassoziierter organischer Bodensubstanz (engl. mineral-associated organic matter, MOM) hängt von der Verfügbarkeit und Zugänglichkeit adsorptiver Mineraloberflächen ab. In tonarmen Böden mit wenig Mineraloberfläche müsste der Bedeckungsgrad an organischer Substanz entsprechend höher sein als in tonreichen Böden bei gleicher MOM Konzentration. In dieser Arbeit wurde MOM im Oberboden (0-20 cm) einer ackerbaulich genutzten (Para-)Braunerde mit unterschiedlicher Bodentextur untersucht. Die beprobte Fläche in Scheyern (Bayern, Deutschland) wurde einheitlich bewirtschaftet und mit gleichen Mengen organischen Materials versorgt. Der Texturgradient (6-37 % Partikel in der Tonfraktion) lässt sich wahrscheinlich auf unterschiedliche Lössanteile in den grobkörnigeren Tertiärsedimenten zurückführen. Um die MOM zu untersuchen, wurde aus der schweren Dichtefraktion >1,6 g cm‑3 die Feinschluff- (2‑6,3 µm) und Tonfraktion (0,2‑2 µm) gewonnen. Neben der Konzentration mineralassoziierten Kohlenstoffs wurde die chemische Zusammensetzung der MOM durch 13C-Festkörper-Kernresonanzspektroskopie bestimmt. In der Tonfraktion wurde durch Nano Sekundärionen-Massenspektrometrie (NanoSIMS) die räumliche Verteilung der Ionen 16O‑, 12C‑ und 12C14N‑ bestimmt, welche mittels Bildbearbeitung als Indikator des räumlichen organischen Bedeckungsgrads herangezogen wurde. Röntgenbeugungsanalysen haben gezeigt, dass die mineralogische Zusammensetzung ähnlich ist, wobei die Auswirkungen eines schwankenden Vermiculitgehalts noch durch Bestimmung der Kationenaustauschkapazität näher überprüft werden. Die Konzentration mineralassoziierten Kohlenstoffs in der Feinschluff und Tonfraktion war bei 6 % Tongehalt mit 80 mg g‑1 höher als bei 15 % Tongehalt mit 40 mg g‑1. In den Böden mit Tongehalt zwischen 15 und 30 % war die Konzentration mineralassoziierten Kohlenstoffs dagegen konstant bei etwa 40 mg g‑1. Zusätzlich zeigten die NanoSIMS-Messungen einen höheren organischen Bedeckungsgrad in den tonarmen Böden als in den tonreichen Böden. Unsere Daten besagen, dass in den untersuchten tonarmen Böden unter 15 % Tongehalt die MOM Konzentration als auch der Bedeckungsgrad höher ist je niedriger der Tongehalt. In den untersuchten tonreichen Böden über 15 % Tongehalt war die MOM Konzentration und der organische Bedeckungsgrad konstant niedrig, was auf ausreichende Verfügbarkeit und Zugänglichkeit adsorptiver Mineraloberflächen ab dieser Bodentextur schließen lässt

Exploring the translational challenge for medical applications of ionising radiation and corresponding radiation protection research

This is the final version. Available on open access from BMC via the DOI in this recordAvailability of Data and Materials: The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.Background: Medical applications of ionising radiation and associated radiation protection research often encounter long delays and inconsistent implementation when translated into clinical practice. A coordinated effort is needed to analyse the research needs for innovation transfer in radiation-based high-quality healthcare across Europe which can inform the development of an innovation transfer framework tailored for equitable implementation of radiation research at scale. Methods: Between March and September 2021 a Delphi methodology was employed to gain consensus on key translational challenges from a range of professional stakeholders. A total of three Delphi rounds were conducted using a series of electronic surveys comprised of open-ended and closed-type questions. The surveys were disseminated via the EURAMED Rocc-n-Roll consortium network and prominent medical societies in the field. Approximately 350 professionals were invited to participate. Participants’ level of agreement with each generated statement was captured using a 6-point Likert scale. Consensus was defined as median ≥4 with ≥60% of responses in the upper tertile of the scale. Additionally, the stability of responses across rounds was assessed. Results: In the first Delphi round a multidisciplinary panel of 20 generated 127 unique statements. The second and third Delphi rounds recruited a broader sample of 130 individuals to rate the extent to which they agreed with each statement as a key translational challenge. A total of 60 consensus statements resulted from the iterative Delphi process of which 55 demonstrated good stability. Ten statements were identified as high priority challenges with ≥80% of statement ratings either ‘Agree’ or ‘Strongly Agree’. Conclusion: A lack of interoperability between systems, insufficient resources, unsatisfactory education and training, and the need for greater public awareness surrounding the benefits, risks, and applications of ionising radiation were identified as principal translational challenges. These findings will help to inform a tailored innovation transfer framework for medical radiation research.European Commissio

Effect of Chronic Kidney Diseases on Mortality among Digoxin Users Treated for Non-Valvular Atrial Fibrillation: A Nationwide Register-Based Retrospective Cohort Study.

PURPOSE: This study investigated the impact of chronic kidney disease on all-causes and cardiovascular mortality in patients with atrial fibrillation treated with digoxin. METHODS: All patients with non-valvular atrial fibrillation and/or atrial flutter as hospitalization diagnosis from January 1, 1997 to December 31, 2012 were identified in Danish nationwide administrative registries. Cox proportional hazard model was used to compare the adjusted risk of all-causes and cardiovascular mortality among patients with and without chronic kidney disease and among patients with different chronic kidney disease stages within 180 days and 2 years from the first digoxin prescription. RESULTS: We identified 37,981 patients receiving digoxin; 1884 patients had the diagnosis of chronic kidney disease. Cox regression analysis showed no statistically significant differences in all-causes (Hazard Ratio, HR 0.89; 95% confident interval, CI 0.78-1.03) and cardiovascular mortality (HR 0.88; 95%CI 0.74-1.05) among patients with and without chronic kidney disease within 180 days of follow-up period. No statistically significant differences was found using a 2 years follow-up period neither for all causes mortality (HR 0.90; 95%CI 0.79-1.03), nor for cardiovascular mortality (HR 0.87; 95%CI 0.74-1.02). No statistically significant differences was found comparing patients with and without estimated Glomerular Filtration Rate <30ml/min/1.73m2 and patients with different stages of chronic kidney disease, for all-causes and cardiovascular mortality within 180 days and 2 years from the first digoxin prescription. CONCLUSIONS: This study suggest no direct effect of chronic kidney disease and chronic kidney disease stages on all-causes and cardiovascular mortality within both 180 days and 2 years from the first digoxin prescription in patients treatment-naïve with digoxin for non-valvular atrial fibrillation

Lifetime study in mice after acute low-dose ionizing radiation: a multifactorial study with special focus on cataract risk

Because of the increasing application of ionizing radiation in medicine, quantitative data on effects of low-dose radiation are needed to optimize radiation protection, particularly with respect to cataract development. Using mice as mammalian animal model, we applied a single dose of 0, 0.063, 0.125 and 0.5 Gy at 10 weeks of age, determined lens opacities for up to 2 years and compared it with overall survival, cytogenetic alterations and cancer development. The highest dose was significantly associated with increased body weight and reduced survival rate. Chromosomal aberrations in bone marrow cells showed a dose-dependent increase 12 months after irradiation. Pathological screening indicated a dose-dependent risk for several types of tumors. Scheimpflug imaging of the lens revealed a significant dose-dependent effect of 1% of lens opacity. Comparison of different biological end points demonstrated long-term effects of low-dose irradiation for several biological end points

Strategic research agenda for biomedical imaging

This Strategic Research Agenda identifies current challenges and needs in healthcare, illustrates how biomedical imaging and derived data can help to address these, and aims to stimulate dedicated research funding efforts. Medicine is currently moving towards a more tailored, patient-centric approach by providing personalised solutions for the individual patient. Innovation in biomedical imaging plays a key role in this process as it addresses the current needs for individualised prevention, treatment, therapy response monitoring, and image-guided surgery. The use of non-invasive biomarkers facilitates better therapy prediction and monitoring, leading to improved patient outcomes. Innovative diagnostic imaging technologies provide information about disease characteristics which, coupled with biological, genetic and -omics data, will contribute to an individualised diagnosis and therapy approach. In the emerging field of theranostics, imaging tools together with therapeutic agents enable the selection of best treatments and allow tailored therapeutic interventions. For prenatal monitoring, the use of innovative imaging technologies can ensure an early detection of malfunctions or disease. The application of biomedical imaging for diagnosis and management of lifestyle-induced diseases will help to avoid disease development through lifestyle changes. Artificial intelligence and machine learning in imaging will facilitate the improvement of image interpretation and lead to better disease prediction and therapy planning. As biomedical imaging technologies and analysis of existing imaging data provide solutions to current challenges and needs in healthcare, appropriate funding for dedicated research is needed to implement the innovative approaches for the wellbeing of citizens and patients

Towards a new image processing system at Wendelstein 7-X: From spatial calibration to characterization of thermal events

Wendelstein 7-X (W7-X) is the most advanced fusion experiment in the stellarator line and is aimed at proving that the stellarator concept is suitable for a fusion reactor. One of the most important issues for fusion reactors is the monitoring of plasma facing components when exposed to very high heat loads, through the use of visible and infrared (IR) cameras. In this paper, a new image processing system for the analysis of the strike lines on the inboard limiters from the first W7-X experimental campaign is presented. This system builds a model of the IR cameras through the use of spatial calibration techniques, helping to characterize the strike lines by using the information given by real spatial coordinates of each pixel. The characterization of the strike lines is made in terms of position, size, and shape, after projecting the camera image in a 2D grid which tries to preserve the curvilinear surface distances between points. The description of the strike-line shape is made by means of the Fourier Descriptors

Forward modeling of collective Thomson scattering for Wendelstein 7-X plasmas: Electrostatic approximation

In this paper, we present a method for numerical computation of collective Thomson scattering (CTS). We developed a forward model, eCTS, in the electrostatic approximation and benchmarked it against a full electromagnetic model. Differences between the electrostatic and the electromagnetic models are discussed. The sensitivity of the results to the ion temperature and the plasma composition is demonstrated. We integrated the model into the Bayesian data analysis framework Minerva and used it for the analysis of noisy synthetic data sets produced by a full electromagnetic model. It is shown that eCTS can be used for the inference of the bulk ion temperature. The model has been used to infer the bulk ion temperature from the first CTS measurements on Wendelstein 7-X

Das reale Strahlenbild bei einer Röntgenthoraxaufnahme

Digital radiography, thoracic imaging, micro-dosimetry, high-resolution x-ray film, drum scanner, x-ray intensity pattern, analysis of frequency componentsMagdeburg, Univ., Fak. für Naturwiss., Diss., 2002von Christoph Hoesche