739 research outputs found
The representation of dust transport and missing urban sources as major issues for the simulation of PM episodes in a Mediterranean area
Due to its adverse effects on human health, atmospheric particulate matter (PM) constitutes a growing challenge for air quality management. It is also a complex subject of study. The understanding of its atmospheric evolution is indeed made difficult by the wide number of sources and the numerous processes that govern its evolution in the troposphere. As a consequence, the representation of particulate matter in chemistry-transport models needs to be permanently evaluated and enhanced in order to refine our comprehension of PM pollution events and to propose consistent environmental policies. The study presented here focuses on two successive summer particulate pollution episodes that occurred on the French Mediterranean coast. We identify and analyze the constitutive elements of the first and more massive episode and we discuss their representation within a eulerian model. <br><br> The results show that the model fails in reproducing the variability and the amplitude of dust import from western Africa, and that it constitutes a strong bias in PM daily forecasts. We then focus on the lack of diurnal variability in the model, which is attributed to missing urban sources in standard emission inventories, and notably the resuspension of particles by urban road traffic. Through a sensitivity study based on PM and NO<sub>x</sub> measurements, we assess the sensitivity of PM to local emissions and the need to reconsider road traffic PM sources. In parallel, by coupling the CHIMERE-DUST model outputs to our simulation, we show that the representation of transcontinental dust transport allows a much better representation of atmospheric particles in southern France, and that it is needed in the frame of air quality management for the quantification of the anthropogenic part of particulate matter pollution
Angular Power Spectrum Estimation of Cosmic Ray Anisotropies with Full or Partial Sky Coverage
We study the angular power spectrum estimate in order to search for large
scale anisotropies in the arrival directions distribution of the highest-energy
cosmic rays. We show that this estimate can be performed even in the case of
partial sky coverage and validated over the full sky under the assumption that
the observed fluctuations are statistically spatial stationary. If this
hypothesis - which can be tested directly on the data - is not satisfied, it
would prove, of course, that the cosmic ray sky is non isotropic but also that
the power spectrum is not an appropriate tool to represent its anisotropies,
whatever the sky coverage available. We apply the method to simulations of the
Pierre Auger Observatory, reconstructing an input power spectrum with the
Southern site only and with both Northern and Southern ones. Finally, we show
the improvement that a full-sky observatory brings to test an isotropic
distribution, and we discuss the sensitivity of the Pierre Auger Observatory to
large scale anisotropies.Comment: 16 pages, 6 figures, version accepted for publication by JCA
High-throughput proteogenomics of Ruegeria pomeroyi: seeding a better genomic annotation for the whole marine Roseobacter clade
<p>Abstract</p> <p>Background</p> <p>The structural and functional annotation of genomes is now heavily based on data obtained using automated pipeline systems. The key for an accurate structural annotation consists of blending similarities between closely related genomes with biochemical evidence of the genome interpretation. In this work we applied high-throughput proteogenomics to <it>Ruegeria pomeroyi</it>, a member of the <it>Roseobacter </it>clade, an abundant group of marine bacteria, as a seed for the annotation of the whole clade.</p> <p>Results</p> <p>A large dataset of peptides from <it>R. pomeroyi </it>was obtained after searching over 1.1 million MS/MS spectra against a six-frame translated genome database. We identified 2006 polypeptides, of which thirty-four were encoded by open reading frames (ORFs) that had not previously been annotated. From the pool of 'one-hit-wonders', <it>i.e</it>. those ORFs specified by only one peptide detected by tandem mass spectrometry, we could confirm the probable existence of five additional new genes after proving that the corresponding RNAs were transcribed. We also identified the most-N-terminal peptide of 486 polypeptides, of which sixty-four had originally been wrongly annotated.</p> <p>Conclusions</p> <p>By extending these re-annotations to the other thirty-six <it>Roseobacter </it>isolates sequenced to date (twenty different genera), we propose the correction of the assigned start codons of 1082 homologous genes in the clade. In addition, we also report the presence of novel genes within operons encoding determinants of the important tricarboxylic acid cycle, a feature that seems to be characteristic of some <it>Roseobacter </it>genomes. The detection of their corresponding products in large amounts raises the question of their function. Their discoveries point to a possible theory for protein evolution that will rely on high expression of orphans in bacteria: their putative poor efficiency could be counterbalanced by a higher level of expression. Our proteogenomic analysis will increase the reliability of the future annotation of marine bacterial genomes.</p
The Pierre Auger Observatory: Results on Ultra-High Energy Cosmic Rays
The focus of this article is on recent results on ultra-high energy cosmic
rays obtained with the Pierre Auger Observatory. The world's largest instrument
of this type and its performance are described. The observations presented here
include the energy spectrum, the primary particle composition, limits on the
fluxes of photons and neutrinos and a discussion of the anisotropic
distribution of the arrival directions of the most energetic particles.
Finally, plans for the construction of a Northern Auger Observatory in
Colorado, USA, are discussed.Comment: Proceedings of the International Workshop on Advances in Cosmic Ray
Science, Waseda University, Shinjuku, Tokyo, Japan, March 2008; to be
published in the Journal of the Physical Society of Japan (JPSJ) supplemen
Astrophysical interpretation of the medium scale clustering in the ultra-high energy sky
We compare the clustering properties of the combined dataset of ultra-high
energy cosmic rays events, reported by the AGASA, HiRes, Yakutsk and Sugar
collaborations, with a catalogue of galaxies of the local universe (redshift
z<~0.06). We find that the data reproduce particularly well the clustering
properties of the nearby universe within z <~0.02. There is no statistically
significant cross-correlation between data and structures, although
intriguingly the nominal cross-correlation chance probability drops from ~50%
to ~10% using the catalogue with a smaller horizon. Also, we discuss the impact
on the robustness of the results of deflections in some galactic magnetic field
models used in the literature. These results suggest a relevant role of
magnetic fields (possibly extragalactic ones, too) and/or possibly some heavy
nuclei fraction in the UHECRs. The importance of a confirmation of these hints
by Auger data is emphasized.Comment: 10 pages, 7 figures; one reference adde
Insights into the secondary fraction of the organic aerosol in a Mediterranean urban area: Marseille
A comprehensive aerosol characterization was conducted at Marseille during
summer, including organic (OC) and elemental carbon (EC), major ionic
species, radiocarbon (<sup>14</sup>C), water-soluble OC and HULIS (HUmic LIke
Substances), elemental composition and primary and secondary organic
markers. This paper is the second paper of a two-part series that uses this
dataset to investigate the sources of Organic Aerosol (OA). While the first
paper investigates the primary sources (El Haddad et al., 2010), this second
paper focuses on the secondary fraction of the organic aerosol.
<br><br>
In the context of overall OC mass balance, primary OC (POC) contributes on
average for only 22% and was dominated by vehicular emissions accounting
on average for 17% of OC. As a result, 78% of OC mass cannot be
attributed to the major primary sources and remains un-apportioned.
Radiocarbon measurements suggest that more than 70% of this fraction is
of non-fossil origin, assigned predominantly to biogenic secondary organic
carbon (BSOC). Therefore, contributions from three traditional BSOC
precursors, isoprene, -pinene and β-caryophyllene, were
considered. These were estimated using the ambient concentrations of
Secondary Organic Aerosol (SOA) markers from each precursor and
laboratory-derived marker mass fraction factors.
<br><br>
Secondary organic markers derived from isoprene photo-oxidation (ie:
2-methylglyceric acid and 2-methyltetrols) do not exhibit the same temporal
trends. This variability was assigned to the influence of NO<sub>x</sub>
concentration on their formation pathways and to their potential decay by
further processing in the atmosphere. The influence of changes in isoprene
chemistry on assessment of isoprene SOC contribution was evaluated
explicitly. The results suggest a 60-fold variation between the different
estimates computed using different isoprene SOC markers, implying that the
available profiles do not reflect the actual isoprene SOC composition
observed in Marseille.
<br><br>
Using the marker-based approach, the aggregate contribution from traditional
BSOC was estimated at only 4.2% of total OC and was dominated by α-pinene
SOC accounting on average for 3.4% of OC. As a result, these
estimates underpredict the inexplicably high loadings of OC. This
underestimation can be associated with (1) uncertainties underlying the
marker-based approach, (2) presence of other SOC precursors and (3) further
processing of fresh SOC, as indicated by organosulfates (RSO<sub>4</sub>H) and
HUmic LIke Substances (HULIS) measurements
A search for low-mass WIMPs with EDELWEISS-II heat-and-ionization detectors
We report on a search for low-energy (E < 20 keV) WIMP-induced nuclear
recoils using data collected in 2009 - 2010 by EDELWEISS from four germanium
detectors equipped with thermal sensors and an electrode design (ID) which
allows to efficiently reject several sources of background. The data indicate
no evidence for an exponential distribution of low-energy nuclear recoils that
could be attributed to WIMP elastic scattering after an exposure of 113 kg.d.
For WIMPs of mass 10 GeV, the observation of one event in the WIMP search
region results in a 90% CL limit of 1.0x10^-5 pb on the spin-independent
WIMP-nucleon scattering cross-section, which constrains the parameter space
associated with the findings reported by the CoGeNT, DAMA and CRESST
experiments.Comment: PRD rapid communication accepte
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