4,599 research outputs found
The Ethics and Effectiveness of Rhetorical Strategies Employed by Environmental Groups and the Palm Oil Crisis
In a world where climate change brings us ever closer to human-made catastrophe and, simultaneously, corporate interests fiercely oppose those who protect the environment, the work of environmental activists is now more critical than ever. Primarily, this work that environmental activists engage in is wielding rhetoric (symbolic communication) in as effective a way as possible to sway public opinion. However, effectiveness cannot be the only determining factor when choosing a rhetorical strategy: ethics complicates the matter. To shed light in this important areaâthe intersection between the ethics and effectiveness of rhetorical strategies employed by environmental activistsâis the goal of this article. I do this by first describing a body of research on the ethics and effectiveness of rhetorical strategies that are used by radical environmental groups that follow the pattern set by Greenpeace, which is the largest environmental organization in the world. I look specifically at how these groups communicate with the first-world public. Next, my analysis continues into my case study: Greenpeaceâs online campaigning against Indonesian palm oil, and Greenpeaceâs general canvassing techniques. My literature review and case study are arranged with a neo-Aristotelian framework. I come to the conclusion that Greenpeace employs ethically problematic rhetorical tactics, and that other strategies might prove to be more effective in achieving the organizationâs long term goals
Emergent Noncommutative gravity from a consistent deformation of gauge theory
Starting from a standard noncommutative gauge theory and using the
Seiberg-Witten map we propose a new version of a noncommutative gravity. We use
consistent deformation theory starting from a free gauge action and gauging a
killing symmetry of the background metric to construct a deformation of the
gauge theory that we can relate with gravity. The result of this consistent
deformation of the gauge theory is nonpolynomial in A_\mu. From here we can
construct a version of noncommutative gravity that is simpler than previous
attempts. Our proposal is consistent and is not plagued with the problems of
other approaches like twist symmetries or gauging other groups.Comment: 18 pages, references added, typos fixed, some concepts clarified.
Paragraph added below Eq. (77). Match published PRD version
Excitation spectrum of Bilayer Quantum Hall Systems
Excitation spectra in bilayer quantum Hall systems at total Landau-level
filling are studied by the Hartree-Fock-Bogoliubov approximation. The
systems have the spin degrees of freedom in addition to the layer degrees of
freedom described in terms of pseudospin. On the excitation spectra from
spin-unpolarized and pseudospin-polarized ground state, this approximation
fully preserves the spin rotational symmetry and thus can give not only
spin-triplet but also spin-singlet excitations systematically. It is also found
that the ground-state properties are well described by this approximation.Comment: 5 pages, 3 figures; conference: EP2DS-1
Energy Consumption Minimization Problem In A Railway Network
EWGT 2016 - 19th EURO Working Group on Transportation Meeting, Istanbul, TURQUIE, 05-/09/2016 - 07/09/2016; When train operations are perturbed, a new working timetable needs to be computed in real-time. In the literature, several algorithms have been proposed for optimizing this computation. This optimization usually does not consider energy consumption. However, minimizing energy consumption is a central issue both from the environmental and economic perspective. In this paper, we address the real-time problem of minimizing the energy consumption. The energy consumption depends on driving regimes used by the train drivers. Hence, we focus on the decision of the appropriate driving regimes throughout each train's travel along a given infrastructure. A model and solution approach for this problem are provided. We show a proof of concept on the applicability of this solution approach on a simple test case
Chandra observation of the central galaxies in A1060 cluster of galaxies
Chandra observation of the central region of the A1060 cluster of galaxies
resolved X-ray emission from two giant elliptical galaxies, NGC 3311 and NGC
3309. The emission from these galaxies consists of two components, namely the
hot interstellar medium (ISM) and the low-mass X-ray binaries (LMXBs). We found
the spatial extent of the ISM component was much smaller than that of stars for
both galaxies, while the ratios of X-ray to optical blue-band luminosities were
rather low but within the general scatter for elliptical galaxies. After
subtracting the LMXB component, the ISM is shown to be in pressure balance with
the intracluster medium of A1060 at the outer boundary of the ISM. These
results imply that the hot gas supplied from stellar mass loss is confined by
the external pressure of the intracluster medium, with the thermal conduction
likely to be suppressed. The cD galaxy NGC 3311 does not exhibit the extended
potential structure which is commonly seen in bright elliptical galaxies, and
we discuss the possible evolution history of the very isothermal cluster A1060.Comment: 12 pages, 7 figures, Latex2e(emulateapj5), accepted in Ap
Gene expression and nucleotide composition are associated with genic methylation level in Oryza sativa
Background
The methylation of cytosines at CpG dinucleotides, which plays an important role in gene expression regulation, is one of the most studied epigenetic modifications. Thus far, the detection of DNA methylation has been determined mostly by experimental methods, which are not only prone to bench effects and artifacts but are also time-consuming, expensive, and cannot be easily scaled up to many samples. It is therefore useful to develop computational prediction methods for DNA methylation. Our previous studies highlighted the existence of correlations between the GC content of the third codon position (GC3), methylation, and gene expression. We thus designed a model to predict methylation in Oryza sativa based on genomic sequence features and gene expression data.
Results
We first derive equations to describe the relationship between gene methylation levels, GC3, expression, length, and other gene compositional features. We next assess gene compositional features involving sixmers and their association with methylation levels and other gene level properties. By applying our sixmer-based approach on rice gene expression data we show that it can accurately predict methylation (Pearsonâs correlation coefficient r = 0.79) for the majority (79%) of the genes. Matlab code with our model is included.
Conclusions
Gene expression variation can be used as predictors of gene methylation levels
The Effect of Environment on the X-Ray Emission from Early-Type Galaxies
In order to help understand the phenomena of X-ray emission from early-type
galaxies, we obtained an optically flux-limited sample of 34 early-type
galaxies, observed with ROSAT. A previous analysis of this sample suggested
that the most X-ray luminous galaxies were in rich environments. Here we
investigate environmental influences quantitatively, and find a positive
correlation between L_B/L_X and the local galaxy density. We suggest that this
correlation occurs because the X-ray luminosity is enhanced either through
accretion of the intergalactic gas or because the ambient medium stifles
galactic winds. When the ambient medium is unimportant, partial or global
galactic winds can occur, reducing L_B/L_X. These effects lead to the large
observed dispersion in L_X at fixed L_B. We argue that the transition from
global winds to partial winds is one of the principle reasons for the steep
relationship between L_X and L_B. We discuss details of the data reduction not
previously presented, and examine the dependence of L_X on the choice of outer
source radius and background location. Effects of Malmquist bias are shown not
to be important for the issues addressed. Finally, we compare the temperature
deduced for these galaxies from different analyses of ROSAT and ASCA data.Comment: 29 pages, including 6 figures (ps); AASTeX 12pt,aaspp4 format;
submitted to Ap
Magneto-transport in high g-factor, low-density two-dimensional electron systems confined in In_0.75Ga_0.25As/In_0.75Al_0.25As quantum wells
We report magneto-transport measurements on high-mobility two-dimensional
electron systems (2DESs) confined in In_0.75Ga_0.25As/In_0.75Al_0.25As single
quantum wells. Several quantum Hall states are observed in a wide range of
temperatures and electron densities, the latter controlled by a gate voltage
down to values of 1.10^11 cm^-2. A tilted-field configuration is used to induce
Landau level crossings and magnetic transitions between quantum Hall states
with different spin polarizations. A large filling factor dependent effective
electronic g-factor is determined by the coincidence method and cyclotron
resonance measurements. From these measurements the change in
exchange-correlation energy at the magnetic transition is deduced. These
results demonstrate the impact of many-body effects in tilted-field
magneto-transport of high-mobility 2DESs confined in
In_0.75Ga_0.25As/In_0.75Al_0.25As quantum wells. The large tunability of
electron density and effective g-factor, in addition, make this material system
a promising candidate for the observation of a large variety of spin-related
phenomena.Comment: 7 pages, 5 figure
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