460 research outputs found

    The retarding Bessel Box an electron spectrometer designed for pump probe experiments

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    A new type of electrostatic electron spectrometer is developed, capable of particular sensitive measurements of energy spectra and time of flight distributions. This instrument is specifically designed and optimized for laser pump X ray probe measurements, where photo electrons or Auger electrons from surfaces, clusters, molecular or atomic targets are being measured with high time resolution at an extremely low detection noise level. The compact and robust cylinder symmetrical system is a strongly improved Bessel Box design, featuring electron retardation, a large detection solid angle, about 100 electron transmission gridless design and excellent time resolution. In this paper we describe the principle of operation of this type of spectrometer and various tests. We present quantitative results for electron measurements with different solid state targets and two different electron detection systems in comparison to electron trajectory simulations inside the electrostatic spectrometer fields. Picosecond pump probe operation has been tested with high laser power and even the ability to work under femtosecond pump probe conditions with electron detection at the BESSY II slicing facility has been prove

    Nestmate recognition and the genetic relatedness of nests in the ant Formica pratensis

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    Genetic relatedness of the mound-building ant Formica pratensis was determined by means of microsatellite DNA polymorphism, and its impact on nestmate recognition was tested in a population in Southern Sweden (Oeland). Recognition between nests was measured by testing aggression levels between single pairs of workers. The genetic distances of nests (Nei's genetic distance) and the spatial distance of nests were correlated and both showed a strong relation to the aggression behavior. Multiple regression analysis revealed a stronger impact of genetic relatedness rather than spatial distances on aggression behavior. Neighbouring nests were more closely related than distant nests, which may reflect budding as a possible spreading mechanism. The genetic distance data showed that nestmate recognition was strongly genetically influenced in F. pratensis

    Preliminary characterization of residual biomass from Hibiscus sabdariffa Calyces

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    Hibiscus sabdariffa calyces are mainly used for different agro-food and beverages applications. The residual biomass generated contains various useful substances that were extracted and characterized. It contained 23% (w/w) soluble pectic material, a food additive, extracted with hot acidified water (80°C, pH = 1.5) and precipitated with ethanol. The molecular weight (28.5 and 109.7 kDa), the degree of methylation (70.6 and 44.3%) and the degree of acetylation (19.0 and 4.9%) were determined for two Senegalese cultivars (koor and vimto, respectively). The effect of the extraction method on these parameters was highlighted. The residual lignocellulosic material (LCM) was chemically degraded to monosaccharides and the amount of glucose and xylose (39% of dry LCM) determined to estimate its potential as feedstock for biofuels production. However, an enzymatic degradation test revealed a recalcitrant LCM, as only 50 to 55% of its polymeric glucose content was degraded to monosaccharides without pretreatment. Xylo-oligosaccharides (XOS) are functional foods with a real market potential as prebiotics, characterized by their degree of polymerization (DP). The production of XOS synthetized by the enzymatic degradation of LCM was monitored. The results of analyses performed showed that XOS produced had mainly DP3 and DP4 values.Key words: Pectin, lignocellulosic material, enzymatic degradation, xylo-oligosaccharides

    Investigating the relationship between the inter-annual variability of satellite-derived vegetation phenology and a proxy of biomass production in the Sahel

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    In the Sahel region, moderate to coarse spatial resolution remote sensing time series are used in early warning monitoring systems with the aim of detecting unfavorable crop and pasture conditions and informing stakeholders about impending food security risks. Despite growing evidence that vegetation productivity is directly related to phenology, most approaches to estimate such risks do not explicitly take into account the actual timing of vegetation growth and development. The date of the start of the season (SOS) or of the peak canopy density can be assessed by remote sensing techniques in a timely manner during the growing season. However, there is limited knowledge about the relationship between vegetation biomass production and these variables at regional scale. This study describes a first attempt to increase our understanding of such a relationship through the analysis of phenological variables retrieved from SPOT-VEGETATION time series of the Fraction of Absorbed Photosynthetically Active Radiation (FAPAR). Two key phenological variables (growing season length, GSL; timing of SOS) and the maximum value of FAPAR attained during the growing season (Peak) are analyzed as potentially related to a proxy of biomass production (CFAPAR, the cumulative value of FAPAR during the growing season). GSL, SOS and Peak all show different spatial patterns of correlation with CFAPAR. In particular, GSL shows a high and positive correlation with CFAPAR over the whole Sahel (mean r = 0.78). The negative correlation between delays in SOS and CFAPAR is stronger (mean r = -0.71) in the southern agricultural band of the Sahel, while the positive correlation between Peak FAPAR and CFAPAR is higher in the northern and more arid grassland region (mean r = 0.75). The consistency of the results and the actual link between remote-sensing derived phenological parameters and biomass production were evaluated using field measurements of aboveground herbaceous biomass of rangelands in Senegal. This study demonstrates the potential of phenological variables as indicators of biomass production. Nevertheless, the strength of the relation between phenological variables and biomass production is not universal and indeed quite variable geographically, with large scattered areas not showing a statistically significant relationship.JRC.H.4-Monitoring Agricultural Resource

    Fortification des farines tropicales par l’introduction de proteines vegetales et de champignons comestibles

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    La fortification des aliments de base des populations constitue un moyen efficace pour contribuer à la lutte contre l’insécurité alimentaire. Le présent travail a consisté à incorporer les champignons comestibles, Pleurotus florida et la pâte de niébé dans la farine de mil. Pour y parvenir, les champignons sont produits sur des substrats à base de son de riz et de paille d’arachide. La méthode d’incorporation utilisée pour assurer le mélange est la cuisson-extrusion du type mono vis. Les farines obtenues avec ou sans ajout des champignons sont caractérisées sur le plan nutritionnel. Les résultats obtenus ont montré que les teneurs en protéines des farines varient de 13,27 % à 18,48 %, celles en minéraux de 4,68 % à 8,98 %, le fer de 92,28 % à 101,89 %, le magnésium de 3,10 % à 3,32 %, le zinc et la matière grasse de 10,75 % à 11,90 %. Au vu des résultats obtenus, la meilleure farine serait la farine composée qui présente une teneur en protéines comprise entre 15 et 22,6 %, valeur recommandée par le Codex Alimentarius pour ce type de complément alimentaire destiné aux enfants. Dans ce mélange, après extrusion, tous les minéraux ont augmenté de 5,76 mg/100g pour le fer, 101,89 mg/100g pour le magnésium, et de 3,32 mg/100g pour le zinc. Parallèlement, le taux de matière grasse est de 11,90 %, inférieur à la valeur normale (15,5 %) fixée par le Codex Alimentarius.Mots clés : Champignons comestibles, farine fortifiés, farine de mil, niéb

    Automated computer-based detection of encounter behaviours in groups of honeybees.

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    Honeybees form societies in which thousands of members integrate their behaviours to act as a single functional unit. We have little knowledge on how the collaborative features are regulated by workers' activities because we lack methods that enable collection of simultaneous and continuous behavioural information for each worker bee. In this study, we introduce the Bee Behavioral Annotation System (BBAS), which enables the automated detection of bees' behaviours in small observation hives. Continuous information on position and orientation were obtained by marking worker bees with 2D barcodes in a small observation hive. We computed behavioural and social features from the tracking information to train a behaviour classifier for encounter behaviours (interaction of workers via antennation) using a machine learning-based system. The classifier correctly detected 93% of the encounter behaviours in a group of bees, whereas 13% of the falsely classified behaviours were unrelated to encounter behaviours. The possibility of building accurate classifiers for automatically annotating behaviours may allow for the examination of individual behaviours of worker bees in the social environments of small observation hives. We envisage that BBAS will be a powerful tool for detecting the effects of experimental manipulation of social attributes and sub-lethal effects of pesticides on behaviour

    Ultrafast electronic processes in an insulator The Be and O sites in BeO

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    The short time dynamics of amorphous beryllium oxide a BeO has been investigated for electronic excitation ionization by fast incident electrons, as well as by Ar7 , Ar15 , Xe15 , and Xe31 ions at velocities of 6 10 the speed of light. Site specific Auger electron spectra induced by fast heavy ions are the central point of this investigation. Electron induced Auger spectra serve as a reference and electron energy loss EELS spectroscopy as well as resonant inelastic X ray scattering RIXS are invoked for quantitative understanding. For the heavy ion case, we observe strong variations in the corresponding spectral distributions of Be K and O K Auger lines. These are related to local changes of the electron density, of the electron temperature and even of the electronic band structure of BeO on a femtosecond time scale after the passage of highly charged heavy ions
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