153 research outputs found
Arctic stratospheric dehydration – Part 2: Microphysical modeling
Large areas of synoptic-scale ice PSCs (polar stratospheric clouds)
distinguished the Arctic winter 2009/2010 from other years and revealed
unprecedented evidence of water redistribution in the stratosphere. A unique
snapshot of water vapor repartitioning into ice particles was obtained under
extremely cold Arctic conditions with temperatures around 183 K.
Balloon-borne, aircraft and satellite-based measurements suggest that
synoptic-scale ice PSCs and concurrent reductions and enhancements in water
vapor are tightly linked with the observed de- and rehydration signatures,
respectively. In a companion paper (Part 1), water vapor and aerosol
backscatter measurements from the RECONCILE (Reconciliation of essential
process parameters for an enhanced predictability of Arctic stratospheric
ozone loss and its climate interactions) and LAPBIAT-II (Lapland
Atmosphere–Biosphere Facility) field campaigns have been analyzed in detail.
This paper uses a column version of the Zurich Optical and Microphysical box
Model (ZOMM) including newly developed NAT (nitric acid trihydrate) and ice
nucleation parameterizations. Particle sedimentation is calculated in order
to simulate the vertical redistribution of chemical species such as water and
nitric acid. Despite limitations given by wind shear and uncertainties in the
initial water vapor profile, the column modeling unequivocally shows that (1)
accounting for small-scale temperature fluctuations along the trajectories is
essential in order to reach agreement between simulated optical cloud properties and
observations, and (2) the use of recently developed heterogeneous ice
nucleation parameterizations allows the reproduction of the observed signatures of
de- and rehydration. Conversely, the vertical redistribution of
water measured cannot be explained in terms of homogeneous nucleation of ice clouds,
whose particle radii remain too small to cause significant dehydration
Influence of acute injury on change of arterial pressure in elderly patients with arterial hypertension
The article discusses changes in blood pressure in elderly patients suffering from arterial hypertension after an injury.В статье рассмотрены изменения артериального давления, у пациентов пожилого возраста, страдающих артериальной гипертензией, после перенесенной травмы
Lidar temperature series in the middle atmosphere as a reference data set – Part 1: Improved retrievals and a 20-year cross-validation of two co-located French lidars
The objective of this paper and its companion (Wing et al., 2018) is to show
that ground-based lidar temperatures are a stable, accurate, and precise
data set for use in validating satellite temperatures at high vertical
resolution. Long-term lidar observations of the middle atmosphere have been
conducted at the Observatoire de Haute-Provence (OHP), located in southern
France (43.93° N, 5.71° E), since 1978. Making use of
20 years of high-quality co-located lidar measurements, we have shown that
lidar temperatures calculated using the Rayleigh technique at 532 nm are
statistically identical to lidar temperatures calculated from the
non-absorbing 355 nm channel of a differential absorption lidar (DIAL)
system. This result is of interest to members of the Network for the
Detection of Atmospheric Composition Change (NDACC) ozone lidar community
seeking to produce validated temperature products. Additionally, we have
addressed previously published concerns of lidar–satellite relative warm bias
in comparisons of upper-mesospheric and lower-thermospheric (UMLT)
temperature profiles. We detail a data treatment algorithm which minimizes
known errors due to data selection procedures, a priori choices, and
initialization parameters inherent in the lidar retrieval. Our algorithm
results in a median cooling of the lidar-calculated absolute temperature
profile by 20 K at 90 km altitude with respect to the standard OHP
NDACC lidar temperature algorithm. The confidence engendered by the long-term
cross-validation of two independent lidars and the improved lidar temperature
data set is exploited in Wing et al. (2018) for use in multi-year satellite
validations.</p
Ice particle sampling from aircraft – influence of the probing position on the ice water content
The ice water content (IWC) of cirrus clouds is an
essential
parameter determining their radiative properties and thus is
important for climate simulations. Therefore, for a reliable
measurement of IWC on board research aircraft, it is important to
carefully design the ice crystal sampling and measuring devices.
During the ML-CIRRUS field campaign in 2014 with the German
Gulfstream GV HALO (High Altitude and Long Range Research Aircraft),
IWC was recorded by three closed-path total water together with one
gas-phase water instrument. The hygrometers were supplied by inlets
mounted on the roof of the aircraft fuselage. Simultaneously, the
IWC is determined by a cloud particle spectrometer attached under an
aircraft wing. Two more examples of simultaneous IWC measurements by
hygrometers and cloud spectrometers are presented, but the inlets of
the hygrometers were mounted at the fuselage side (M-55 Geophysica,
StratoClim campaign 2017) and bottom (NASA WB57, MacPex campaign 2011).
This combination of instruments and inlet positions provides the
opportunity to experimentally study the influence of the ice
particle sampling position on the IWC with the approach of
comparative measurements. As expected from theory and shown by
computational fluid dynamics (CFD) calculations, we found that the
IWCs provided by the roof inlets deviate from those measured under
the aircraft wing. As a result of the inlet position in the shadow zone
behind the aircraft cockpit, ice particle populations with mean
mass sizes larger than about 25 µm radius are subject to
losses, which lead to strongly underestimated IWCs. On the other
hand, cloud populations with mean mass sizes smaller than about 12 µm are dominated by particle enrichment and thus
overestimated IWCs. In the range of mean mass sizes between 12 and
25 µm, both enrichment and losses of ice crystals can occur,
depending on whether the ice crystal mass peak of the size distribution – in these
cases bimodal – is on the smaller or larger mass
mode.
The resulting deviations of the IWC reach factors of up to 10 or
even more for losses as well as for enrichment. Since the mean mass
size of ice crystals increases with temperature, losses are more
pronounced at higher temperatures, while at lower temperatures IWC is
more affected by enrichment.
In contrast, in the cases where the hygrometer inlets were mounted
at the fuselage side or bottom, the agreement of IWCs is most
frequently within a factor of 2.5 or better – due to
less disturbed ice particle sampling, as expected from theory – independently of the
mean ice crystal sizes. The rather large scatter between IWC
measurements reflects, for example, cirrus cloud inhomogeneities and
instrument uncertainties as well as slight sampling biases which
might also occur on the side or bottom of the fuselage and under the
wing. However, this scatter is in the range of other studies and
represent the current best possible IWC recording on fast-flying
aircraft.</p
Reconciliation of essential process parameters for an enhanced predictability of Arctic stratospheric ozone loss and its climate interactions
Significant reductions in stratospheric ozone occur inside the polar vortices each spring when chlorine radicals produced by heterogeneous reactions on cold particle surfaces in winter destroy ozone mainly in two catalytic cycles, the ClO dimer cycle and the ClO/BrO cycle. Chlorofluorocarbons (CFCs), which are responsible for most of the chlorine currently present in the stratosphere, have been banned by the Montreal Protocol and its amendments, and the ozone layer is predicted to recover to 1980 levels within the next few decades. During the same period, however, climate change is expected to alter the temperature, circulation patterns and chemical composition in the stratosphere, and possible geo-engineering ventures to mitigate climate change may lead to additional changes. To realistically predict the response of the ozone layer to such influences requires the correct representation of all relevant processes. The European project RECONCILE has comprehensively addressed remaining questions in the context of polar ozone depletion, with the objective to quantify the rates of some of the most relevant, yet still uncertain physical and chemical processes. To this end RECONCILE used a broad approach of laboratory experiments, two field missions in the Arctic winter 2009/10 employing the high altitude research aircraft M55-Geophysica and an extensive match ozone sonde campaign, as well as microphysical and chemical transport modelling and data assimilation. Some of the main outcomes of RECONCILE are as follows: (1) vortex meteorology: the 2009/10 Arctic winter was unusually cold at stratospheric levels during the six-week period from mid-December 2009 until the end of January 2010, with reduced transport and mixing across the polar vortex edge; polar vortex stability and how it is influenced by dynamic processes in the troposphere has led to unprecedented, synoptic-scale stratospheric regions with temperatures below the frost point; in these regions stratospheric ice clouds have been observed, extending over >106km2 during more than 3 weeks. (2) Particle microphysics: heterogeneous nucleation of nitric acid trihydrate (NAT) particles in the absence of ice has been unambiguously demonstrated; conversely, the synoptic scale ice clouds also appear to nucleate heterogeneously; a variety of possible heterogeneous nuclei has been characterised by chemical analysis of the non-volatile fraction of the background aerosol; substantial formation of solid particles and denitrification via their sedimentation has been observed and model parameterizations have been improved. (3) Chemistry: strong evidence has been found for significant chlorine activation not only on polar stratospheric clouds (PSCs) but also on cold binary aerosol; laboratory experiments and field data on the ClOOCl photolysis rate and other kinetic parameters have been shown to be consistent with an adequate degree of certainty; no evidence has been found that would support the existence of yet unknown chemical mechanisms making a significant contribution to polar ozone loss. (4) Global modelling: results from process studies have been implemented in a prognostic chemistry climate model (CCM); simulations with improved parameterisations of processes relevant for polar ozone depletion are evaluated against satellite data and other long term records using data assimilation and detrended fluctuation analysis. Finally, measurements and process studies within RECONCILE were also applied to the winter 2010/11, when special meteorological conditions led to the highest chemical ozone loss ever observed in the Arctic. In addition to quantifying the 2010/11 ozone loss and to understand its causes including possible connections to climate change, its impacts were addressed, such as changes in surface ultraviolet (UV) radiation in the densely populated northern mid-latitudes
An introduction to the SCOUT-AMMA stratospheric aircraft, balloons and sondes campaign in West Africa, August 2006: rationale and roadmap
A multi-platform field measurement campaign involving aircraft and balloons took place over West Africa between 26 July and 25 August 2006, in the frame of the concomitant AMMA Special Observing Period and SCOUT-O3 African tropical activities.
Specifically aiming at sampling the upper troposphere and lower stratosphere, the high-altitude research aircraft M55 Geophysica was deployed in Ouagadougou (12.3° N, 1.7° W), Burkina Faso, in conjunction with the German D-20 Falcon, while a series of stratospheric balloon and sonde flights were conducted from Niamey (13.5° N, 2.0° E), Niger.
The stratospheric aircraft and balloon flights intended to gather experimental evidence for a better understanding of large scale transport, assessing the effect of lightning on NOx production, and studying the impact of intense mesoscale convective systems on water, aerosol, dust and chemical species in the upper troposphere and lower stratosphere. The M55 Geophysica carried out five local and four transfer flights between southern Europe and the Sahel and back, while eight stratospheric balloons and twenty-nine sondes were flown from Niamey.
These experiments allowed a characterization of the tropopause and lower stratosphere of the region. We provide here an overview of the campaign activities together with a description of the general meteorological situation during the flights and a summary of the observations accomplished
Rationale and current perspective for early rhythm control therapy in atrial fibrillation
Atrial fibrillation (AF) is the most common sustained arrhythmia and an important source for mortality and morbidity on a population level. Despite the clear association between AF and death, stroke, and other cardiovascular events, there is no evidence that rhythm control treatment improves outcome in AF patients. The poor outcome of rhythm control relates to the severity of the atrial substrate for AF not only due to the underlying atrial remodelling process but also due to the poor efficacy and adverse events of the currently available ion-channel antiarrhythmic drugs and ablation techniques. Data suggest, however, an association between sinus rhythm maintenance and improved survival. Hypothetically, sinus rhythm may also lead to a lower risk of stroke and heart failure. The presence of AF, thus, seems one of the modifiable factors associated with death and cardiovascular morbidity in AF patients. Patients with a short history of AF and the underlying heart disease have not been studied before. It is fair to assume that abolishment of AF in these patients is more successful and possibly also safer, which could translate into a prognostic benefit of early rhythm control therapy. Several trials are now investigating whether aggressive early rhythm control therapy can reduce cardiovascular morbidity and mortality and increase maintenance of sinus rhythm. In the present paper we describe the background of these studies and provide some information on their design
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