2,157 research outputs found
Regional geochemical and geophysical surveys in the Berwyn Dome and adjacent areas, north Wales
This report describes stream sediment and gravity
surveys carried out across the Berwyn Dome and adjacent
areas. The gravity survey confirmed the presence of a
broad regional Bouguer anomaly low in the central part of
the Dome, on which is superimposed several smaller irregular
highs and lows. Some of these local anomalies
possibly reflect small igneous bodies but more detailed
gravity surveys would be needed to determine their form.
Near Corwen the Bryneglwys Fault coincides with a 4.5
mGa1 anomaly but southwards the two features diverge,
suggesting that the density interface is related either to a
splay fault or to the eastern margin of the Lower
Palaeozoic Montgomery trough. Some other structural
trends are weakly reflected on the Bouguer anomaly and
aeromagnetic maps, but there is no clear correlation with
known base metal mineralisation. The Bouguer
anomalies cannot be attributed to particular structures
with any certainty but are probably due to a number of
factors, including variation in the Precambrian basement
and changes in the lithology and thickness of Lower
Palaeozoic sedimentary rocks. There is no evidence for a
large granitic body in Lower Palaeozoic rocks underlying
the mineralisation at Llangynog. The aeromagnetic map
suggests the presence of a magnetic basement at a depth
of 3-4 km centred beneath the northwestern margin of
the Dome.
The stream sediment survey involved the collection of a
- 100 mesh stream sediment, panned concentrate and
water sample from each of the 399 sites sampled. The
sample density was 1 site per 1.5 km*. Cu, Pb, Zn, Ba,
Fe, Mn, Co, V, Cr, Ni, Zr, MO and Sn were determined
in the stream sediments, Cu, Pb, Zn, Ba, Fe, Mn, Ce,
Sn, Sb, Ti, Ni and As in the panned concentrates and Cu,
Pb and Zn in stream waters. Major variations in the
results are related to (i) hydrous oxide precipitation processes,
(ii) contamination from human activities, (iii) base
metal and baryte mineralisation, (iv) monazite concentrations
in panned concentrates, (v) hitherto unrecorded
gold mineralisation and (vi) lithological variations. The
latter were related principally to shale-sandstone variation,
but groups of elements attributable to the presence
of basic intrusions, phosphatic rocks, coal measures,
sandstones, limestones and volcanics were also discerned.
Threshold levels were established from cumulative frequency
curve analysis, and some anomalous sites were examined
in the field. Anomalies did not form prominent
coherent groups and were generally weak and scattered,
with a wide variety of element groupings reflecting a
range of causes. Many anomalous panned concentrates
were examined mineralogically to try to . determine
whether anomalies were related to chemically extreme
background lithologies, contamination, or mineralisation.
All the anomalies were related to one or more of the
major causes of variation, although because of the very
limited amount of follow-up work carried out the precise
cause of many anomalies remains uncertain. No anomaly
is considered to represent a strong prospect but several
deserve further limited investigation, notably those
associated with (i) gold mineralisation in the northwest of
the area, (ii) baryte, perhaps accompanied by base metal
’ mineralisation, associated with Caradocian volcanics and
phosphatic rocks at several localities, (iii) mineralisation
associated with Llandeilian limestones and volcanic rocks
north of Llanrhaeadr, and (iv) copper mineralisation
associated with intrusives near the eastern margin of the
Dome, where survey data is most incomplete
The non-coplanar baselines effect in radio interferometry: The W-Projection algorithm
We consider a troublesome form of non-isoplanatism in synthesis radio
telescopes: non-coplanar baselines. We present a novel interpretation of the
non-coplanar baselines effect as being due to differential Fresnel diffraction
in the neighborhood of the array antennas.
We have developed a new algorithm to deal with this effect. Our new
algorithm, which we call "W-projection", has markedly superior performance
compared to existing algorithms. At roughly equivalent levels of accuracy,
W-projection can be up to an order of magnitude faster than the corresponding
facet-based algorithms. Furthermore, the precision of result is not tightly
coupled to computing time.
W-projection has important consequences for the design and operation of the
new generation of radio telescopes operating at centimeter and longer
wavelengths.Comment: Accepted for publication in "IEEE Journal of Selected Topics in
Signal Processing
Implementing Bring Your Own Device and the Paperless Classroom: A Change Leadership Project
My journey through the implementation of an action plan for a Bring Your Own Device (BYOD) program is presented in this research document. The action plan incorporated the addition of industrial certification standards for technology integrated into the core curriculum at a public middle school (grades 6-8) during the 2014-2015 school year. Technology skills became a part of students’ daily learning opportunities. An eSTEAM Academy provided interested students and teachers with technology training and skills for classroom inclusion and blended model of face-to-face instruction enhanced with technology in a “paperless” classroom environment. This is an account of our successful journey in the ever changing, ever challenging pursuit of technology infused 21st Century educational excellence
Optimal Image Reconstruction in Radio Interferometry
We introduce a method for analyzing radio interferometry data which produces
maps which are optimal in the Bayesian sense of maximum posterior probability
density, given certain prior assumptions. It is similar to maximum entropy
techniques, but with an exact accounting of the multiplicity instead of the
usual approximation involving Stirling's formula. It also incorporates an Occam
factor, automatically limiting the effective amount of detail in the map to
that justified by the data. We use Gibbs sampling to determine, to any desired
degree of accuracy, the multi-dimensional posterior density distribution. From
this we can construct a mean posterior map and other measures of the posterior
density, including confidence limits on any well-defined function of the
posterior map.Comment: 41 pages, 11 figures. High resolution figures 8 and 9 available at
http://www.astro.uiuc.edu/~bwandelt/SuttonWandelt200
Evaluation of matrix-assisted laser desorption ionisation time-of-flight mass spectrometry (MALDI-TOF MS) for the Identification of Group B Streptococcus.
Objective
Group B Streptococcus (GBS) is a leading cause of neonatal meningitis and sepsis worldwide. Intrapartum antibiotics given to women carrying GBS are an effective means of reducing disease in the first week of life. Rapid and reliable tests are needed to accurately identify GBS from these women for timely intrapartum antibiotic administration to prevent neonatal disease. Many laboratories now use matrix-assisted laser desorption ionisation time-of-flight mass spectrometry (MALDI-TOF MS) by direct plating or cell lysis for the identification of GBS isolates. The cell lysis step increases time to results for clinical samples and is more complex to perform. Therefore, we seek to evaluate the sensitivity and specificity of the quicker and more rapid direct plating method in identifying GBS.
Results
We directly compared swab isolates analysed by both direct plating and cell lysis method and demonstrated that direct plating has a sensitivity and specificity of 0.97 and 1, respectively, compared to an additional cell lysis step. We demonstrated that MALDI-TOF MS can be successfully used for batch processing by the direct plating method which saves time. These results are reassuring for laboratories worldwide who seek to identify GBS from swabs samples as quickly as possible
Self-Templated Nucleation in Peptide and Protein aggregation
Peptides and proteins exhibit a common tendency to assemble into highly
ordered fibrillar aggregates, whose formation proceeds in a
nucleation-dependent manner that is often preceded by the formation of
disordered oligomeric assemblies. This process has received much attention
because disordered oligomeric aggregates have been associated with
neurodegenerative disorders such as Alzheimer's and Parkinson's diseases. Here
we describe a self-templated nucleation mechanism that determines the
transition between the initial condensation of polypeptide chains into
disordered assemblies and their reordering into fibrillar structures. The
results that we present show that at the molecular level this transition is due
to the ability of polypeptide chains to reorder within oligomers into fibrillar
assemblies whose surfaces act as templates that stabilise the disordered
assemblies.Comment: 4 pages, 3 figure
Leaf Traits Within Communities: Context May Affect the Mapping of Traits to Function
The leaf economics spectrum (LES) has revolutionized the way many ecologists think about quantifying plant ecological trade-offs. In particular, the LES has connected a clear functional trade-off (long-lived leaves with slow carbon capture vs. short-lived leaves with fast carbon capture) to a handful of easily measured leaf traits. Building on this work, community ecologists are now able to quickly assess species carbon-capture strategies, which may have implications for community-level patterns such as competition or succession. However, there are a number of steps in this logic that require careful examination, and a potential danger arises when interpreting leaf-trait variation among species within communities where trait relationships are weak. Using data from 22 diverse communities, we show that relationships among three common functional traits (photosynthetic rate, leaf nitrogen concentration per mass, leaf mass per area) are weak in communities with low variation in leaf life span (LLS), especially communities dominated by herbaceous or deciduous woody species. However, globally there are few LLS data sets for communities dominated by herbaceous or deciduous species, and more data are needed to confirm this pattern. The context-dependent nature of trait relationships at the community level suggests that leaf-trait variation within communities, especially those dominated by herbaceous and deciduous woody species, should be interpreted with caution
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