Genetic variation of durum wheat landraces using morphological and protein markers

Genetic variations of cultivars are very interesting in reducing genetic vulnerability and lead to stable control of production. The aim of this research was to study genetic diversity among six durum wheat cultivars. For the first assay we evaluated seven morphological traits which are: spikelet per spike, spike length, spike width, beard length, plant height, width of truncation and barb length. The tested genotypes were classified in three groups according to the linkage distance analysis. The genetic variability was also evaluated for seed storage-proteins by sodium dodecylsulphate polyacrylamide gel electrophoresis (SDS-PAGE). Electrophoregram allowed the estimation of the durum wheat genetic similarity (GS). This GS analysis based on Unweighted Pair Group Method with Arithmetic averages (UPGMA), permits to obtain the same genotypic clustering. No significant correlation was observed among the two methods tested. It is concluded that seed storage protein profiles could be useful markers in the studies of genetic diversity and genotypes classification, which can be used to improve the efficiency of wheat breeding programs.Key words: Wheat genotypes, SDS-PAGE, genetic diversity, cluster analysis

Polynomial Chaos Expansion method as a tool to evaluate and quantify field homogeneities of a novel waveguide RF Wien Filter

For the measurement of the electric dipole moment of protons and deuterons, a novel waveguide RF Wien filter has been designed and will soon be integrated at the COoler SYnchrotron at J\"ulich. The device operates at the harmonic frequencies of the spin motion. It is based on a waveguide structure that is capable of fulfilling the Wien filter condition ($\vec{E} \perp \vec{B}$) \textit{by design}. The full-wave calculations demonstrated that the waveguide RF Wien filter is able to generate high-quality RF electric and magnetic fields. In reality, mechanical tolerances and misalignments decrease the simulated field quality, and it is therefore important to consider them in the simulations. In particular, for the electric dipole moment measurement, it is important to quantify the field errors systematically. Since Monte-Carlo simulations are computationally very expensive, we discuss here an efficient surrogate modeling scheme based on the Polynomial Chaos Expansion method to compute the field quality in the presence of tolerances and misalignments and subsequently to perform the sensitivity analysis at zero additional computational cost.Comment: 12 pages, 19 figure

Regularization of the Roy Equations with a Smooth Cut-Off

The Roy equations for ππ scattering are combined with unitarity to give a nonlinear system of equations for the determination of the low‐energy amplitudes. A Hölder continuous interpolation between the input high‐energy absorptive parts and the output low‐energy absorptive parts is implemented; and the resultant singular equations are regularized by means of an effective inelastic N/D method. If the scattering lengths, the CDD parameters, and the high‐energy absorptive parts satisfy certain constraints, then there exists a locally unique solution of the system

Electromagnetic Simulation and Design of a Novel Waveguide RF Wien Filter for Electric Dipole Moment Measurements of Protons and Deuterons

The conventional Wien filter is a device with orthogonal static magnetic and electric fields, often used for velocity separation of charged particles. Here we describe the electromagnetic design calculations for a novel waveguide RF Wien filter that will be employed to solely manipulate the spins of protons or deuterons at frequencies of about 0.1 to 2 MHz at the COoler SYnchrotron COSY at J\"ulich. The device will be used in a future experiment that aims at measuring the proton and deuteron electric dipole moments, which are expected to be very small. Their determination, however, would have a huge impact on our understanding of the universe.Comment: 10 pages, 10 figures, 4 table

Klimaatdijk een verkenning

IntroductionClimate change, land subsidence and the increasing economic value of property and activities in flood-prone areas justify the question of how we can maintain flood protection in the Netherlands at its current level, or even improve it. The changing social, scientific and technical developments and insights of our day mean that the time is ripe to consider alternatives for flood protection, other than the customary call to raise the dikes yet higher, time and again.The Climate DikeThe Climate Dike is a logical addition to the current practice of raising and reinforcing dikes. A Climate Dike is defined here as ¿a collective term for design components that result in flood defences so robust that they are virtually impossible to breach, and thus offer lasting protection, even in the face of ongoing climate change The Climate Dike concerns a type of dike that allows some wave overflow and even a limited amount of flooding, but which prevents the uncontrolled catastrophic dike breaks associated with devastating flooding of the hinterland. The number of potential victims and the resulting damage are therefore in no way comparable to those incurred when a traditional dike breaks. The risk, calculated as a product of the probability of occurrence and the resulting damage, is therefore drastically reduced.Another feature of the Climate Dike is its integrated multi-functional character. On it, a wider range of socio-economic interests can be built than on traditional dikes. This means that greater opportunities for financing also become available.Before the Climate Dike can be approached as a serious alternative, clarity is needed on the relevant information, experience, policy and knowledge that exists (and does not yet exist). The current inventory was conducted with that requirement in mind.The authors looked at, among others, projects that presented problems and challenges similar to those expected in development of a Climate Dike. These relate, among others, to technical,economic, social and spatial issues.A long time horizonBecause of its more multidisciplinary character, development of a Climate Dike requires a longer time horizon than a traditional dike. The current system of 5-yearly testing, in which dikes that fail to meet current safety standards are immediately subjected to an urgent upgrade trajectory, provides an inadequate framework for developing the Climate Dike.In the current system, evolving scientific insights, environmental conditions and safety requirements could mean that even immediately after a dike has been strengthened, the next reinforcement is just around the corner. Such a situation is clearly undesired for a multifunctional Climate Dike with, for example, buildings on it. Also, after its construction, a Climate Dike has to be able to guarantee safety for many more decades than a traditional dike, and to do so in a way that other interests can build on, literally and figuratively. A longer planning horizon and new means of anticipating on future developments are therefore essential.ChallengingThe Climate Dike has no set dimensions or form, though it does tend to be wider and less steep than traditional dikes and include a protection zone parallel to existing flood defences. It goes without saying that not every aspect of the Climate Dike concept, which is often broad in both functional and physical terms, will be applicable at every location.One of the many challenges arising in applying the Climate Dike concept is the question of how to effectively look ahead over an extremely long stretch of time (for example, a century), since we cannot predict with any certainty how society will look after such a long period. How can ideas and procedures be tailored to as yet unknown future developments? How can we best ensure the ability to adapt to new situations and insights?One of the complexities involved in developing a Climate Dike is the use of space. How can the required space be secured without having to demolish large numbers of buildings and infrastructure and without excluding large zones of land from any possible socio-economic activity, perhaps for many decades?Costs and benefitsA Climate Dike is costly, if one limits the field of vision to the safety aspect and the traditional time horizon of 50 years. Broaden the view to bring in multiple interests that over a longer time period can, literally and figuratively, build on the presence of the Climate Dike, then this form of flood protection becomes much more financially attractive. Certainly when considering other options for flood protection, such as compartmentalisation dikes or the raising of immense tracts of land.Law and legislationTo give designers and managers of flood defences more opportunity to develop the Climate Dike, modifications are required in current design guidelines and technical prerequisites. Also, it must be made clear whether and how a Climate Dike is to be subjected to the 5-yearly testing cycle. Is such testing needed if the dike is considered to be virtually impossible to breach? How do we deal with the probability of flooding versus the risk of a dike break? Current law and legislation are geared fairly specifically to the traditional dike. Alternative concepts such as the Climate Dike call for modified policies, laws and legislation, as well as newly formulated design requirements and prerequisites. Or it will have to be made clearer how these should be interpreted for such innovative concepts

The role of cattle in maintaining plant species diversity in wet dune valleys

The succession of species-rich wetland vegetation in dune valleys into species-poor dwarf shrub vegetation was followed by means of permanent vegetation plots, in which the cover of vascular plant, moss and lichen species were recorded over a period of up to 33 years. Low density cattle grazing is an effective substitute for rabbits in stalling this succession, thus preserving the local plant species diversity. The influence of direct rabbit grazing pressure on the vegetation was studied in exclosures. The differences were significant, but not long-lasting after the exclosures had been opened again to the rabbits. Cladina lichen-rich Empetrum-heathland in the dunes is a stage in a probably cyclic succession that might be triggered by grazing. The total vascular plant, moss and lichen diversity of the dune ecosystem can be maintained by a combination of extensive cattle grazing and a regular but limited re-creation of pioneer situations

Gelation and Re-entrance in Mixtures of Soft Colloids and Linear Polymers of Equal Size

Liquid mixtures composed of colloidal particles and much smaller non-adsorbing linear homopolymers can undergo a gelation transition due to polymer-mediated depletion forces. We now show that the addition of linear polymers to suspensions of soft colloids having the same hydrodynamic size yields a liquid-to-gel-to-re-entrant liquid transition. In particular, the dynamic state diagram of 1,4-polybutadiene star-linear polymer mixtures was determined with the help of linear viscoelastic and small angle X-ray scattering experiments. While keeping the star polymers below their nominal overlap concentration, a gel was formed upon increasing the linear polymer content. Further addition of linear chains yielded a re-entrant liquid. This unexpected behavior was rationalized by the interplay of three possible phenomena: (i) depletion interactions, driven by the size disparity between the stars and the polymer length scale which is the mesh size of this entanglement network; (ii) colloidal deswelling due to the increased osmotic pressure exerted onto the stars; and (iii) a concomitant progressive suppression of depletion efficiency on increasing polymer concentration due to reduced mesh size, hence a smaller range of attraction. Our results unveil an exciting new way to tailor the flow of soft colloids and highlight a largely unexplored path to engineer soft colloidal mixtures.Comment: 27 pages, 5 figure

Spin tune mapping as a novel tool to probe the spin dynamics in storage rings

Precision experiments, such as the search for electric dipole moments of charged particles using storage rings, demand for an understanding of the spin dynamics with unprecedented accuracy. The ultimate aim is to measure the electric dipole moments with a sensitivity up to 15 orders in magnitude better than the magnetic dipole moment of the stored particles. This formidable task requires an understanding of the background to the signal of the electric dipole from rotations of the spins in the spurious magnetic fields of a storage ring. One of the observables, especially sensitive to the imperfection magnetic fields in the ring is the angular orientation of stable spin axis. Up to now, the stable spin axis has never been determined experimentally, and in addition, the JEDI collaboration for the first time succeeded to quantify the background signals that stem from false rotations of the magnetic dipole moments in the horizontal and longitudinal imperfection magnetic fields of the storage ring. To this end, we developed a new method based on the spin tune response of a machine to artificially applied longitudinal magnetic fields. This novel technique, called \textit{spin tune mapping}, emerges as a very powerful tool to probe the spin dynamics in storage rings. The technique was experimentally tested in 2014 at the cooler synchrotron COSY, and for the first time, the angular orientation of the stable spin axis at two different locations in the ring has been determined to an unprecedented accuracy of better than $2.8\mu$rad.Comment: 32 pages, 15 figures, 7 table

Phase Measurement for Driven Spin Oscillations in a Storage Ring

This paper reports the first simultaneous measurement of the horizontal and vertical components of the polarization vector in a storage ring under the influence of a radio frequency (rf) solenoid. The experiments were performed at the Cooler Synchrotron COSY in J\"ulich using a vector polarized, bunched $0.97\,\textrm{GeV/c}$ deuteron beam. Using the new spin feedback system, we set the initial phase difference between the solenoid field and the precession of the polarization vector to a predefined value. The feedback system was then switched off, allowing the phase difference to change over time, and the solenoid was switched on to rotate the polarization vector. We observed an oscillation of the vertical polarization component and the phase difference. The oscillations can be described using an analytical model. The results of this experiment also apply to other rf devices with horizontal magnetic fields, such as Wien filters. The precise manipulation of particle spins in storage rings is a prerequisite for measuring the electric dipole moment (EDM) of charged particles