493 research outputs found
Access for Deaf and Hard-of-Hearing People in the Public Domain: Where are We?
The enactment of disability-related legislation does not, unfortunately, guarantee compliance. This is particularly problematic for individuals who are deaf or hard of hearing. These individuals are most often handicapped not by their disability but rather by the unavailability of appropriate accommodations and technology. To address the impact of accommodations within the public domain two studies were conducted. The first study investigated telecommunication accessibility across government, emergency and private business numbers. Results indicated that these entities failed to answer their TTY calls almost 60% of the time. The second study assessed the availability of assistive technology for deaf and hard-of-hearing hotel guests. Hotels were subdivided on the basis of cost (expensive, moderate, and budget). As would be expected, hotels within the expensive category (i.e., $100+/night) had a significantly greater prevalence of assistive technology for their guests. There were no differences between the moderate and budget-priced hotels. Results from both studies are discussed in terms of their implications for independence, safety, and community participation
Recommended from our members
A GCSS model intercomparison for a tropical squall line observed during toga-coare. II: Intercomparison of single-column models and a cloud-resolving model
This paper presents single-column model (SCM) simulations of a tropical squall-line case observed during the Coupled Ocean-Atmosphere Response Experiment of the Tropical Ocean/Global Atmosphere Programme. This case-study was part of an international model intercomparison project organized by Working Group 4 âPrecipitating Convective Cloud Systemsâ of the GEWEX (Global Energy and Water-cycle Experiment) Cloud System Study.
Eight SCM groups using different deep-convection parametrizations participated in this project. The SCMs were forced by temperature and moisture tendencies that had been computed from a reference cloud-resolving model (CRM) simulation using open boundary conditions. The comparison of the SCM results with the reference CRM simulation provided insight into the ability of current convection and cloud schemes to represent organized convection. The CRM results enabled a detailed evaluation of the SCMs in terms of the thermodynamic structure and the convective mass flux of the system, the latter being closely related to the surface convective precipitation. It is shown that the SCMs could reproduce reasonably well the time evolution of the surface convective and stratiform precipitation, the convective mass flux, and the thermodynamic structure of the squall-line system. The thermodynamic structure simulated by the SCMs depended on how the models partitioned the precipitation between convective and stratiform. However, structural differences persisted in the thermodynamic profiles simulated by the SCMs and the CRM. These differences could be attributed to the fact that the total mass flux used to compute the SCM forcing differed from the convective mass flux. The SCMs could not adequately represent these organized mesoscale circulations and the microphysicallradiative forcing associated with the stratiform region. This issue is generally known as the âscale-interactionâ problem that can only be properly addressed in fully three-dimensional simulations.
Sensitivity simulations run by several groups showed that the time evolution of the surface convective precipitation was considerably smoothed when the convective closure was based on convective available potential energy instead of moisture convergence. Finally, additional SCM simulations without using a convection parametrization indicated that the impact of a convection parametrization in forced SCM runs was more visible in the moisture profiles than in the temperature profiles because convective transport was particularly important in the moisture budget
The AMMA mulid network for aerosol characterization in West Africa
Three ground based portable low power consumption microlidars (MULID) have
been built and deployed at three remote sites in Banizoumbou (Niger), Cinzana
(Mali) and M'Bour (Senegal) in the framework of the African Monsoon
Multidisciplinary Analyses (AMMA) project for the characterization of aerosols
optical properties. A description of the instrument and a discussion of the
data inversion method, including a careful analysis of measurement
uncertainties (systematic and statistical errors) are presented. Some case
studies of typical lidar profiles observed over the Banizoumbou site during
2006 are shown and discussed with respect to the AERONET 7-day
back-trajectories and the biomass burning emissions from the Combustion
Emission database for the AMMA campaign
West African Monsoon water cycle: 1. A hybrid water budget data set
International audienceThis study investigates the West African Monsoon water cycle with the help of a new hybrid water budget data set developed within the framework of the African Monsoon Multidisciplinary Analyses. Surface water and energy fluxes are estimated from an ensemble of land surface model simulations forced with elaborate precipitation and radiation products derived from satellite observations, while precipitable water tendencies are estimated from numerical weather prediction analyses. Vertically integrated atmospheric moisture flux convergence is estimated as a residual. This approach provides an advanced, comprehensive atmospheric water budget, including evapotranspiration, rainfall, and atmospheric moisture flux convergence, together with other surface fluxes such as runoff and net radiation. The annual mean and the seasonal cycle of the atmospheric water budget are presented and the couplings between budget terms are discussed for three climatologically distinct latitudinal bands between 6°N and 20°N. West Africa is shown to be alternatively a net source and sink region of atmospheric moisture, depending on the season (a source during the dry season and a sink during the wet season). Several limiting and controlling factors of the regional water cycle are highlighted, suggesting strong sensitivity to atmospheric dynamics and surface radiation. Some insight is also given into the underlying smaller-scale processes. The relationship between evapotranspiration and precipitation is shown to be very different between the Sahel and the regions more to the south and partly controlled by net surface radiation. Strong correlations are found between precipitation and moisture flux convergence over the whole region from daily to interannual time scales. Causality is also established between monthly mean anomalies. Hence, precipitation anomalies are preceded by moisture flux convergence anomalies and followed by moisture flux divergence and evapotranspiration anomalies. The results are discussed in comparison to other studies
Recommended from our members
The vertical cloud structure of the West African monsoon: a 4 year climatology using CloudSat and CALIPSO
The West African summer monsoon (WAM) is an important driver of the global climate and locally provides most of the annual rainfall. A solid climatological knowledge of the complex vertical cloud structure is invaluable to forecasters and modelers to improve the understanding of the WAM. In this paper, 4 years of data from the CloudSat profiling radar and CALIPSO are used to create a composite zonal mean vertical cloud and precipitation structure for the WAM. For the first time, the near-coincident vertical radar and lidar profiles allow for the identification of individual cloud types from optically thin cirrus and shallow cumulus to congestus and deep convection. A clear diurnal signal in zonal mean cloud structure is observed for the WAM, with deep convective activity enhanced at night producing extensive anvil and cirrus, while daytime observations show more shallow cloud and congestus. A layer of altocumulus is frequently observed over the Sahara at night and day, extending southward to the coastline, and the majority of this cloud is shown to contain supercooled liquid in the top. The occurrence of deep convective systems and congestus in relation to the position of the African easterly jet is studied, but only the daytime cumulonimbus distribution indicates some influence of the jet position
Recommended from our members
Understanding advances in the simulation of intraseasonal variability in the ECMWF model. Part I: the representation of the MJO
As a major mode of intraseasonal variability, which interacts with weather and
climate systems on a near-global scale, the Madden â Julian Oscillation (MJO) is a
crucial source of predictability for numerical weather prediction (NWP) models.
Despite its global signiïŹcance and comprehensive investigation, improvements in
the representation of the MJO in an NWP context remain elusive. However, recent
modiïŹcations to the model physics in the ECMWF model led to advances in the
representation of atmospheric variability and the unprecedented propagation of the
MJO signal through the entire integration period.
In light of these recent advances, a set of hindcast experiments have been designed
to assess the sensitivity of MJO simulation to the formulation of convection. Through
the application of established MJO diagnostics, it is shown that the improvements
in the representation of the MJO can be directly attributed to the modiïŹed
convective parametrization. Furthermore, the improvements are attributed to the
move from a moisture-convergent- to a relative-humidity-dependent formulation
for organized deep entrainment. It is concluded that, in order to understand the
physical mechanisms through which a relative-humidity-dependent formulation
for entrainment led to an improved simulation of the MJO, a more process-based
approach should be taken. T he application of process-based diagnostics t o t he
hindcast experiments presented here will be the focus of Part II of this study
Recommended from our members
Understanding advances in the simulation of intraseasonal variability in the ECMWF model. Part II: the application of process-based diagnostics
In Part I of this study it was shown that moving from a moisture-convergent- to
a relative-humidity-dependent organized entrainment rate in the formulation for
deep convection was responsible for signiïŹcant advances in the simulation of the
Madden â Julian Oscillation (MJO) in the ECMWF model. However, the application
of traditional MJO diagnostics were not adequate to understand why changing the
control on convection had such a pronounced impact on the representation of the
MJO.
In this study a set of process-based diagnostics are applied to the hindcast
experiments described in Part I to identify the physical mechanisms responsible for
the advances in MJO simulation. Increasing the sensitivity of the deep convection
scheme to environmental moisture is shown to modify the relationship between
precipitation and moisture in the model. Through dry-air entrainment, convective
plumes ascending in low-humidity environments terminate lower in the atmosphere.
As a result, there is an increase in the occurrence of cumulus congestus, which acts
to moisten the mid troposphere. Due to the modiïŹed precipitation â moisture
relationship more moisture is able to build up, which effectively preconditions the
tropical atmosphere for the t ransition t o d eep convection. R esults from this study
suggest that a tropospheric moisture control on convection is key to simulating
the interaction between the convective heating and the large-scale wave forcing
associated with the MJO
AMMA information system: an efficient cross-disciplinary tool and a legacy for forthcoming projects
International audienceIn the framework of the African Monsoon Multidisciplinary Analyses (AMMA) programme, several tools have been developed in order to facilitate and speed up data and information exchange between researchers from different disciplines. The AMMA information system includes a multidisciplinary user-friendly distributed data management and distribution system, a reports and quick looks archive associated with a display website and scientific papers exchange systems. All the applications have been developed by several French institutions and fully duplicated in Niamey, Niger
Alternative splicing of hepatitis B virus: A novel virus/host interaction altering liver immunity
This work was supported by grants from Institut National de la Sante et de la Recherche Medicale (Inserm) â France, Universite Pierre et Marie Curie (UPMC) â France, Agence National de la Recherche sur le Sida et les Hepatites (ANRS) â France (n° N14015DR) and PHC-Tassili (11MDU826). MD was supported by ANRS (grant ASA14013DRA). YM was supported by French Ministry for Higher Education and Research and by the Ligue contre le Cancer (grant n° GB/MA/VSP-10504)
Recommended from our members
Departures from convective equilibrium with a rapidly-varying surface forcing
Convective equilibrium is a long-standing and useful concept for understanding many aspects of the behaviour of deep moist convection. For example, it is often invoked in developing parameterizations for large-scale models. However, the equilibrium assumption may begin to break down as models are increasingly used with shorter timesteps and finer resolutions. Here we perform idealized cloud-system resolving model simulations of deep convection with imposed time variations in the surface forcing. A range of rapid forcing timescales from 1 â 36hr are used, in order to induce systematic departures from equilibrium. For the longer forcing timescales, the equilibrium assumption remains valid, in at least the limited sense that cycle-integrated measures of convective activity are very similar from cycle to cycle. For shorter forcing timescales, cycle-integrated convection becomes more variable, with enhanced activity on one cycle being correlated with reduced activity on the next, suggesting a role for convective memory. Further investigation shows that the memory does not appear to be carried by the domain-mean thermodynamic fields but rather by structures on horizontal scales of 5 â 20km. Such structures are produced by the convective clouds and can persist beyond the lifetime of the cloud, even through to the next forcing cycle
- âŠ