Robust Soil Water Potential Sensor to Optimize Irrigation in Agriculture

Extreme weather phenomena are on the rise due to ongoing climate change. Therefore, the need for irrigation in agriculture will increase, although it is already the largest consumer of water, a valuable resource. Soil moisture sensors can help to use water efficiently and economically. For this reason, we have recently presented a novel soil moisture sensor with a high sensitivity and broad measuring range. This device does not measure the moisture in the soil but the water available to plants, i.e., the soil water potential (SWP). The sensor consists of two highly porous (>69%) ceramic discs with a broad pore size distribution (0.5 to 200 μm) and a new circuit board system using a transmission line within a time-domain transmission (TDT) circuit. This detects the change in the dielectric response of the ceramic discs with changing water uptake. To prove the concept, a large number of field tests were carried out and comparisons were made with commercial soil water potential sensors. The experiments confirm that the sensor signal is correlated to the soil water potential irrespective of soil composition and is thus suitable for the optimization of irrigation systems

FID GEO: Digital transformation and Open Access in Germany's geoscience research community

Poster presented at EGU General Assembly 2017 Abstract: http://meetingorganizer.copernicus.org/EGU2017/EGU2017-17673.pdf The ‘Specialized Information Service for Solid Earth Sciences’ (FID GEO) supports Germany’s geoscience research community in 1) electronic publishing of i) institutional and “grey” literature not released in publishing houses and ii) pre- and postprints of research articles 2) digitising geoscience literature and maps and 3) addressing the publication of research data associated with peer-reviewed research articles (data supplements). Established in 2016, FID GEO is funded by the German Research Foundation (DFG) and is run by the Göttingen State and University Library (SUB Göttingen) and the GFZ German Research Centre for Geosciences

Application-oriented Method for Determining the Adhesion between Insulated Flat Copper Wire and Impregnation Resin

In the field of hairpin stator technology, increasing demands are currently being made on the semi-finished product of insulated flat copper wire. In particular, the focus is on the electrical requirements against the background of increasing voltage levels to 800 V and more. The test procedures described in the standards IEC 60317 & 60851 for verifying the properties of insulated flat copper wires only partially map the requirements from the point of automotive industry. An example for insufficiently considered properties lays in the correlation between wire and insulation resin. In addition to electrical and thermal benefits, impregnation helps to mechanically stabilize the winding and protect it from ambient factors. Adhesion between the winding and the impregnating resin is a key parameter here, but is not considered in material pre-selection today. The adhesion of the impregnation resin to the insulated wire is essential to ensure the lifetime of electric motors. This paper describes a method for determining the adhesion of the impregnating resin to the insulation of the wire. It could be shown that there is a correlation between the material of the wire insulation and the impregnating resin in terms of adhesion. Further on the described method can be used for an application-oriented specification of insulated copper flat wires to ensure a consistent composition of the insulation material

Impact of Ventilation Modes on Bronchoscopic Chartis Assessment Outcome in Candidates for Endobronchial Valve Treatment

Background: Endobronchial valve therapy has proven to reduce lung hyperinflation and decrease disease burden in patients with severe lung emphysema. Exclusion of collateral ventilation (CV) of the targeted lobe by using an endobronchial assessment system (Chartis; PulmonX, Drive Redwood City, CA, USA) in combination with software-based fissure integrity analysis (FCS [fissure completeness score]) of computed tomography scans of the lung are established tools to select appropriate patients for endobronchial valve treatment. So far, there is no conclusive evidence if the ventilation mode during bronchoscopy impacts the outcome of Chartis assessments. Methods: Patients with Chartis assessments and software-based quantification of FCS (StratX; PulmonX, Drive Redwood City, CA, USA) were enrolled in this retrospective study. During bronchoscopy, pulmonary fissure integrity was evaluated with the Chartis assessment system in each patient first under spontaneous breathing and subsequently under high-frequency (HF) jet ventilation. Results: In total, 102 patients were analyzed. Four Chartis phenotypes CV positive (CV+), CV negative (CV-), low flow, and low plateau in spontaneous breathing and HF jet ventilation were identified. The frequency of each Chartis phenotype per lobe was similar in both settings. When comparing Chartis assessments in spontaneous breathing and HF jet ventilation, there was an overall good concordance rate for all analyzed fissures. In agreement, receiver operating characteristic analysis of the FCS showed an almost similar prediction for CV+ and CV- status independent of the ventilation modes. Conclusion: Chartis assessment in spontaneous breathing and HF jet ventilation had similar rates in detecting CV in lung emphysema. Our results suggest that both modes are equivalent for the assessment of CV

Intramyocardial Sprouting Tip Cells Specify Coronary Arterialization.

The elaborate patterning of coronary arteries critically supports the high metabolic activity of the beating heart. How coronary endothelial cells coordinate hierarchical vascular remodeling and achieve arteriovenous specification remains largely unknown. Understanding the molecular and cellular cues that pattern coronary arteries is crucial to develop innovative therapeutic strategies that restore functional perfusion within the ischemic heart. Results: We discover that coronary arteries originate from cells that have previously transitioned through a specific tip cell phenotype. We identify nonoverlapping intramyocardial and subepicardial tip cell populations with differential gene expression profiles and regulatory pathways. Esm1-lineage tracing confirmed that intramyocardial tip cells selectively contribute to coronary arteries and endocardial tunnels, but not veins. Notably, prearterial cells are detected from development stages to adulthood, increasingly in response to ischemic injury, and in human embryos, suggesting that tip cell-to-artery specification is a conserved mechanism. Conclusions: A tip cell-to-artery specification mechanism drives arterialization of the intramyocardial plexus and endocardial tunnels throughout life and is reactivated upon ischemic injury. Differential sprouting programs govern the formation and specification of the venous and arterial coronary plexus.This project was supported by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation, SFB1366—B06 and SFB1470—A04) and by the Deutsches Zentrum für Herz-Kreislauf-Forschung (DZHK; German Center for Cardiovascular Research). E. Cano was also supported by a Postdoctoral Fellowship from Ramon Areces Foundation

iTRAQ – An Integrated Traffic Management and Air Quality Control System Using Space Services

There is a strong need for local authorities to meet the challenges of sustainable transport as well as complying with air quality targets. iTRAQ - Integrated Traffic Management and Air Quality using Space Services is a European Space Agency funded project. During the course of a feasibility study a consortium of UK industry, academic and local authority partners developed and validated a dynamic system for optimising the use of the road network balanced with the need to sustain high standards of air quality. iTRAQ uses a number of inputs that enable it to sense the current situation in near-real-time and provide accurate forecasts using a computational intelligence module. Traffic flow, queues, and congestion are gathered using traditional ground-based sensors as well as Global Navigation Satellite Systems based vehicle data. Air quality information is obtained from in situ monitors, a City-wide Gaussian dispersion model (Airviro), a European-scale ensemble model (MACC), and direct measurements from low-earth orbit satellites (OMI and GOME-2). The concept has been tested and validated using near-real-time data and a simulation environment, providing enhanced strategies to the local authority. Following a successful feasibility study, a larger demonstration phase is now being planned and other local authorities are being encouraged to participate. This paper gives an overview of this novel system and presents some initial test results that confirm the feasibility of this integrated system, reducing the traffic delay, increasing the flow and optimising the local air quality levels

Global transcriptome analysis of murine embryonic stem cell-derived cardiomyocytes

Microarray analysis reveals that the specific pattern of gene expression in cardiomyocytes derived from embryonic stem cells reflects the biological, physiological and functional processes occurring in mature cardiomyocytes

Transcriptomic and phenotypic analysis of murine embryonic stem cell derived BMP2+ lineage cells: an insight into mesodermal patterning

Transcriptome analysis of BMP2+ cells in comparison to the undifferentiated BMP2 ES cells and the control population from 7-day old embryoid bodies led to the identification of 479 specifically upregulated and 193 downregulated transcripts