131 research outputs found
Mestbehandeling en opslag
Bij de mestopslag buiten de stal is het afdekken van silo's misschien een toepasbare emissiebeperkende maatregel. Tijdens de bewaring veranderen wel de mesteigenschappen
Extensive polymorphism and geographical variation at a positively selected MHC class II B gene of the lesser kestrel (Falco naumanni)
Understanding the selective forces that shape genetic variation in natural populations
remains a high priority in evolutionary biology. Genes at the major histocompatibility
complex (MHC) have become excellent models for the investigation of adaptive variation
and natural selection because of their crucial role in fighting off pathogens. Here we
present one of the first data sets examining patterns of MHC variation in wild populations
of a bird of prey, the lesser kestrel, Falco naumanni. We report extensive polymorphism at
the second exon of a putatively functional MHC class II gene, Fana-DAB*1. Overall, 103
alleles were isolated from 121 individuals sampled from Spain to Kazakhstan. Bayesian
inference of diversifying selection suggests that several amino acid sites may have experienced
strong positive selection (ω = 4.02 per codon). The analysis also suggests a prominent
role of recombination in generating and maintaining MHC diversity (ρ = 4Nc = 0.389 per
codon, θ = 0.017 per codon). Both the Fana-DAB*1 locus and a set of eight polymorphic
microsatellite markers revealed an isolation-by-distance pattern across the Western Palaearctic
(r = 0.67; P = 0.01 and r = 0.50; P = 0.04, respectively). Nonetheless, geographical
variation at the MHC contrasts with relatively uniform distributions in the frequencies of
microsatellite alleles. In addition, we found lower fixation rates in the MHC than those
predicted by genetic drift after controlling for neutral mitochondrial sequences. Our results
therefore underscore the role of balancing selection as well as spatial variations in parasitemediated
selection regimes in shaping MHC diversity when gene flow is limited.Peer reviewe
Persistent Organic Chemicals in the Pacific Basin Countries: An Overview
The Pacific Basin is a unique geographical region representing tropical, temperate and polar zones. This region is home to 2/3 of world’s population and consists of rapidly growing economies (countries) and highly developed countries. The Pacific Basin countries have had a history of use of persistent organic chemicals (POCs) at varying proportions during the last five decades. Due to diverse climatic and socio-economic conditions, the environment and biota in different countries in this basin have varying degrees of environmental contamination and effects on wildlife and humans. In this chapter, the historical background of POCs including, discovery, production, use, regulations/restrictions imposed, current status and possible future trends are reviewed especially focusing on the countries in the Pacific Rim
An optoelectronic framework enabled by low-dimensional phase-change films.
Accepted author version. The definitive version was published in: Nature 511, 206–211 (10 July 2014) doi:10.1038/nature13487The development of materials whose refractive index can be optically transformed as desired, such as chalcogenide-based phase-change materials, has revolutionized the media and data storage industries by providing inexpensive, high-speed, portable and reliable platforms able to store vast quantities of data. Phase-change materials switch between two solid states--amorphous and crystalline--in response to a stimulus, such as heat, with an associated change in the physical properties of the material, including optical absorption, electrical conductance and Young's modulus. The initial applications of these materials (particularly the germanium antimony tellurium alloy Ge2Sb2Te5) exploited the reversible change in their optical properties in rewritable optical data storage technologies. More recently, the change in their electrical conductivity has also been extensively studied in the development of non-volatile phase-change memories. Here we show that by combining the optical and electronic property modulation of such materials, display and data visualization applications that go beyond data storage can be created. Using extremely thin phase-change materials and transparent conductors, we demonstrate electrically induced stable colour changes in both reflective and semi-transparent modes. Further, we show how a pixelated approach can be used in displays on both rigid and flexible films. This optoelectronic framework using low-dimensional phase-change materials has many likely applications, such as ultrafast, entirely solid-state displays with nanometre-scale pixels, semi-transparent 'smart' glasses, 'smart' contact lenses and artificial retina devices.Engineering and Physical Sciences Research Council (EPSRC)OUP John Fell Fun
Big Data Analytics for Earth Sciences: the EarthServer approach
Big Data Analytics is an emerging field since massive storage and computing capabilities have been made available by advanced e-infrastructures. Earth and Environmental sciences are likely to benefit from Big Data Analytics techniques supporting the processing of the large number of Earth Observation datasets currently acquired and generated through observations and simulations. However, Earth Science data and applications present specificities in terms of relevance of the geospatial information, wide heterogeneity of data models and formats, and complexity of processing. Therefore, Big Earth Data Analytics requires specifically tailored techniques and tools. The EarthServer Big Earth Data Analytics engine offers a solution for coverage-type datasets, built around a high performance array database technology, and the adoption and enhancement of standards for service interaction (OGC WCS and WCPS). The EarthServer solution, led by the collection of requirements from scientific communities and international initiatives, provides a holistic approach that ranges from query languages and scalability up to mobile access and visualization. The result is demonstrated and validated through the development of lighthouse applications in the Marine, Geology, Atmospheric, Planetary and Cryospheric science domains
High resolution 3-Dimensional imaging of the human cardiac conduction system from microanatomy to mathematical modeling
Cardiac arrhythmias and conduction disturbances are accompanied by structural remodelling of the specialised cardiomyocytes known collectively as the cardiac conduction system. Here, using contrast enhanced micro-computed tomography, we present, in attitudinally appropriate fashion, the first 3-dimensional representations of the cardiac conduction system within the intact human heart. We show that cardiomyocyte orientation can be extracted from these datasets at spatial resolutions approaching the single cell. These data show that commonly accepted anatomical representations are oversimplified. We have incorporated the high-resolution anatomical data into mathematical simulations of cardiac electrical depolarisation. The data presented should have multidisciplinary impact. Since the rate of depolarisation is dictated by cardiac microstructure, and the precise orientation of the cardiomyocytes, our data should improve the fidelity of mathematical models. By showing the precise 3-dimensional relationships between the cardiac conduction system and surrounding structures, we provide new insights relevant to valvar replacement surgery and ablation therapies. We also offer a practical method for investigation of remodelling in disease, and thus, virtual pathology and archiving. Such data presented as 3D images or 3D printed models, will inform discussions between medical teams and their patients, and aid the education of medical and surgical trainees
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