GAW Report, 217. System of Air Quality Forecasting and Research (SAFAR - India)

World Meteorological Organization (WMO) - WMO, 2015

English

 System of Air Quality Forecasting and Research (SAFAR - India)

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World Meteorological Organization (WMO)

Published by: WMO ; 2015

Collection(s) and Series:  GAW Report- No. 217

Language(s): English

Format: Digital (Free)

Tags: Global Atmosphere Watch Programme (GAW) ; Air quality ; Research Add tag

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GOES-R ABI: Next Generation Satellite Imaging

The University Corporation for Atmospheric Research, 2013

This extension of the COMET lesson “GOES-R: Benefits of Next Generation Environmental Monitoring” focuses on the ABI instrument, the satellite's 16-channel imager. With increased spectral coverage, greater spatial resolution, more frequent imaging, and improved image pixel geolocation and radiometric performance, the ABI will bring significant advancements to forecasting, numerical weather prediction, and climate and environmental monitoring. The first part of the lesson introduces the ABI's key features and improvements over earlier GOES imagers. The second section lets users interactively ex ...

English

 GOES-R ABI: Next Generation Satellite Imaging

 Available online: https://www.meted.ucar.edu/training_module.php?id=987

Published by: The University Corporation for Atmospheric Research ; 2013

This extension of the COMET lesson “GOES-R: Benefits of Next Generation Environmental Monitoring” focuses on the ABI instrument, the satellite's 16-channel imager. With increased spectral coverage, greater spatial resolution, more frequent imaging, and improved image pixel geolocation and radiometric performance, the ABI will bring significant advancements to forecasting, numerical weather prediction, and climate and environmental monitoring. The first part of the lesson introduces the ABI's key features and improvements over earlier GOES imagers. The second section lets users interactively explore the ABI's 16 channels. The third section contains movies that show the advancements that the ABI will bring to the following application areas: convection, flooding, wildfires, land cover, hurricanes, climate, air quality, aviation, fog and low visibility, and coastal and marine. The final section contains additional resources pertaining to the ABI. The lesson has numerous takeaways, including ten application movies and an interactive spectrum.

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Language(s): English

Format: Digital (Standard Copyright)

Tags: Climate ; Tropical cyclone ; Aerosols ; Weather forecasting ; Hurricane ; Numerical weather prediction ; Wildfire ; Turbulence ; Ozone ; Air quality ; Fog ; Lesson/ Tutorial ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

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Zones in relation to EU air quality thresholds, 2010 : In EEA Datasets

EEA, 2012

Member States provide an annual assessment of air quality in comparison to EU air quality thresholds.

English

 Zones in relation to EU air quality thresholds, 2010: In EEA Datasets

  Available online: http://www.eea.europa.eu/data-and-maps/data/zones-in-relation-to-eu-air-quality- [...]

European Environment Agency

Published by: EEA ; 2012

Member States provide an annual assessment of air quality in comparison to EU air quality thresholds.

Language(s): English

Format: Digital (Free)

Tags: Environment and landscape ; Air quality ; Air pollution ; Region VI - Europe ; European Union Add tag

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Projections of air pollutant emissions and its impacts on regional air quality in China in 2020

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 7. Xing J.; Wang S.X.; Chatani S.; et al. - Copernicus GmbH, 2011

Anthropogenic emissions of air pollutants in China influence not only local and regional environments but also the global atmospheric environment; therefore, it is important to understand how China's air pollutant emissions will change and how they will affect regional air quality in the future. Emission scenarios in 2020 were projected using forecasts of energy consumption and emission control strategies based on emissions in 2005, and on recent development plans for key industries in China. We developed four emission scenarios: REF[0] (current control legislations and implementation status), ...

English

[article] 

Projections of air pollutant emissions and its impacts on regional air quality in China in 2020

  Available online: http://dx.doi.org/10.5194/acp-11-3119-2011

J. Xing ; S.X. Wang ; S. Chatani ; C.Y. Zhang ; W. Wei ; J.M. Hao ; Z. Klimont ; J. Cofala ; M. Amann

in Atmospheric Chemistry and Physics (ACP) > Vol. 11. N° 7 [04/01/2011] . - p.3119-3136

Anthropogenic emissions of air pollutants in China influence not only local and regional environments but also the global atmospheric environment; therefore, it is important to understand how China's air pollutant emissions will change and how they will affect regional air quality in the future. Emission scenarios in 2020 were projected using forecasts of energy consumption and emission control strategies based on emissions in 2005, and on recent development plans for key industries in China. We developed four emission scenarios: REF[0] (current control legislations and implementation status), PC[0] (improvement of energy efficiencies and current environmental legislation), PC[1] (improvement of energy efficiencies and better implementation of environmental legislation), and PC[2] (improvement of energy efficiencies and strict environmental legislation). Under the REF[0] scenario, the emission of SO2, NOx, VOC and NH3 will increase by 17%, 50%, 49% and 18% in 2020, while PM10 emissions will be reduced by 10% over East China, compared to that in 2005. In PC[2], sustainable energy polices will reduce SO2, NOx and PM10 emissions by 4.1 Tg, 2.6 Tg and 1.8 Tg, respectively; better implementation of current control policies will reduce SO2, NOx and PM10 emission by 2.9 Tg, 1.8 Tg, and 1.4 Tg, respectively; strict emission standards will reduce SO2, NOx and PM10 emissions by 3.2 Tg, 3.9 Tg, and 1.7 Tg, respectively. Under the PC[2] scenario, SO2 and PM10 emissions will decrease by 18% and 38%, while NOx and VOC emissions will increase by 3% and 8%, compared to that in 2005. Future air quality in China was simulated using the Community Multi-scale Air Quality Model (CMAQ). Under REF[0] emissions, compared to 2005, the surface concentrations of SO2, NO2, hourly maximum ozone in summer, PM2.5, total sulfur and nitrogen depositions will increase by 28%, 41%, 8%, 8%, 19% and 25%, respectively, over east China. Under the PC[2] emission scenario, the surface concentrations of SO2, PM2.5, total sulfur depositions will decrease by 18%, 16% and 15%, respectively, and the surface concentrations of NO2, nitrate, hourly maximum ozone in summer, total nitrogen depositions will be kept as 2005 level, over east China. The individual impacts of SO2, NOx, NH3, NMVOC and primary PM emission changes on ozone and PM2.5 concentrations have been analyzed using sensitivity analysis. The results suggest that NOx emission control need to be enhanced during the summertime to obtain both ozone and PM2.5 reduction benefits. NH3 emission controls should also be considered in order to reduce both nitrate concentration and total nitrogen deposition in the future.

Language(s): English

Format: Digital (Free)

Tags: China ; Air pollution ; Air quality ; Scenario Add tag

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Impact of model grid spacing on regional- and urban- scale air quality predictions of organic aerosol

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 7. Stroud C.A.; Makar P.A.; Moran M.D.; et al. - Copernicus GmbH, 2011

Regional-scale chemical transport model predictions of urban organic aerosol to date tend to be biased low relative to observations, a limitation with important implications for applying such models to human exposure health studies. We used a nested version of Environment Canada's AURAMS model (42- to- 15- to- 2.5-km nested grid spacing) to predict organic aerosol concentrations for a temporal and spatial domain corresponding to the Border Air Quality and Meteorology Study (BAQS-Met), an air-quality field study that took place in the southern Great Lakes region in the summer of 2007. The use o ...

English

[article] 

Impact of model grid spacing on regional- and urban- scale air quality predictions of organic aerosol

  Available online: http://dx.doi.org/10.5194/acp-11-3107-2011

C.A. Stroud ; P.A. Makar ; M.D. Moran ; W. Gong ; S. Gong ; J. Zhang ; K. Hayden ; C. Mihele ; J.R. Brook ; J.P.D. Abbatt ; J.G. Slowik

in Atmospheric Chemistry and Physics (ACP) > Vol. 11. N° 7 [04/01/2011] . - p.3107-3118

Regional-scale chemical transport model predictions of urban organic aerosol to date tend to be biased low relative to observations, a limitation with important implications for applying such models to human exposure health studies. We used a nested version of Environment Canada's AURAMS model (42- to- 15- to- 2.5-km nested grid spacing) to predict organic aerosol concentrations for a temporal and spatial domain corresponding to the Border Air Quality and Meteorology Study (BAQS-Met), an air-quality field study that took place in the southern Great Lakes region in the summer of 2007. The use of three different horizontal grid spacings allowed the influence of this parameter to be examined. A domain-wide average for the 2.5-km domain and a matching 15-km subdomain yielded very similar organic aerosol averages (4.8 vs. 4.3 μg m−3, respectively). On regional scales, secondary organic aerosol dominated the organic aerosol composition and was adequately resolved by the 15-km model simulation. However, the shape of the organic aerosol concentration histogram for the Windsor urban station improved for the 2.5-km simulation relative to those from the 42- and 15-km simulations. The model histograms for the Bear Creek and Harrow rural stations were also improved in the high concentration "tail" region. As well the highest-resolution model results captured the midday 4 July organic-aerosol plume at Bear Creek with very good temporal correlation. These results suggest that accurate simulation of urban and large industrial plumes in the Great Lakes region requires the use of a high-resolution model in order to represent urban primary organic aerosol emissions, urban VOC emissions, and the secondary organic aerosol production rates properly. The positive feedback between the secondary organic aerosol production rate and existing organic mass concentration is also represented more accurately with the highest-resolution model. Not being able to capture these finer-scale features may partly explain the consistent negative bias reported in the literature when urban-scale organic aerosol evaluations are made using coarser-scale chemical transport models.

Language(s): English

Format: Digital (Free)

Tags: Aerosols ; Methodology ; Urban zone ; Weather forecasting ; Air quality ; Research Add tag

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Evaluation of urban surface parameterizations in the WRF model using measurements during the Texas Air Quality Study 2006 field campaign

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 5. Lee S.-H.; Kim S.-W.; Angevine W.M.; et al. - Copernicus GmbH, 2011

The performance of different urban surface parameterizations in the WRF (Weather Research and Forecasting) in simulating urban boundary layer (UBL) was investigated using extensive measurements during the Texas Air Quality Study 2006 field campaign. The extensive field measurements collected on surface (meteorological, wind profiler, energy balance flux) sites, a research aircraft, and a research vessel characterized 3-dimensional atmospheric boundary layer structures over the Houston-Galveston Bay area, providing a unique opportunity for the evaluation of the physical parameterizations. The m ...

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Sources of carbonaceous aerosol in the Amazon basin

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 3. Gilardoni S.; Vignati E.; Marmer E.; et al. - Copernicus GmbH, 2011

The quantification of sources of carbonaceous aerosol is important to understand their atmospheric concentrations and regulating processes and to study possible effects on climate and air quality, in addition to develop mitigation strategies.

In the framework of the European Integrated Project on Aerosol Cloud Climate Interactions (EUCAARI) fine (Dp < 2.5 μm) and coarse (2.5 μm < Dp <10 μm) aerosol particles were sampled from February to June (wet season) and from August to September (dry season) 2008 in the central Amazon basin. The mass of fine particles averaged 2.4 μg m−3 duri ...

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Extraordinary Meeting of the Project Team of the 8th WMO Intercomparison of High Quality Radiosonde Systems (Reduced Meeting) : final report

World Meteorological Organization (WMO) - WMO, 2011

The extraordinary meeting of the project team of the 8 th WMO Intercomparison of High Quality Radiosonde Systems was organized to agree among the project team members on the data evaluation procedures, and on the presentation of the results in the final report prior to its distribution to the intercomparison participants and to the member of the International Organising Committee for Upper-Air Instrument Intercomparisons for comments/review. The meeting agreed on the evaluation procedures, content, outline and layout of the Draft Final Report and on the responsibilities of individuals in final ...

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Synoptic Typing and Its Application for Evaluating Climatic Impact on Air Quality in Urumqi

Atmospheric and Oceanic Science Letters, Volume 3 Number 6. Wang Li-Li; Wang Yue-Si; Li Yuan-Yuan - Science Press, 2010

An automated procedure employing principal-component analysis and a two-stage cluster analysis was developed to classify the synoptic meteorological conditions prevailing over Urumqi, one of the most heavily polluted cities in the world. Six clusters representing different circulation patterns and air-mass characteristics were classified using surface- and upper-meteorological variables during the heating period from 2001 to 2008, and the relationships between synoptic clusters and air quality were evaluated. The heaviest air-pollution episodes occurred when Urumqi was in either an extremely c ...

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Weather, climate and the air we breathe

World Meteorological Organization (WMO) - WMO, 2009 (WMO-No. 1035)

English, French, Spanish, Russian

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Погода, Климаткоторым Мыдышими Воздух

BMO, 2009 (BMO-No. 1035)

Russian, English

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Le temps, le climat et l'air que nous respirons

Organisation météorologique mondiale (OMM) - OMM, 2009 (OMM-No. 1035)

French, English

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El tiempo, el clima y el aire que respiramos

Organización Meteorológica Mundial (OMM) - OMM, 2009 (OMM-No. 1035)

Spanish, English

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Weather and Health

The University Corporation for Atmospheric Research, 2008

This course will help meteorologists and others broaden their understanding of the impacts of weather and climate on public health, including the impacts of heat waves and cold temperatures, winter storms and thunderstorms, flooding, drought, poor air quality, tornadoes, hurricanes, wildfire, UV radiation, and others. This course is directed to broadcast meteorologists, in particular, who play a critical role in the community by helping the public to protect against weather-related health threats and by promoting good health. The course also describes the public health communication system, pr ...

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GOES-R: Benefits of Next-Generation Environmental Monitoring

The University Corporation for Atmospheric Research, 2008

This module is an introduction to NOAA's next generation Geostationary Operational Environmental Satellite-R (GOES-R) series, focusing on the value and anticipated benefits derived from an enhanced suite of instruments for improved monitoring of meteorological, environmental, climate, and space weather phenomena and related hazards. An extensive set of visualizations highlight GOES-R and its advanced observing capabilities for providing support in thirteen key environmental application areas including air quality and visibility, climate, cloud icing, fires, hurricanes, land cover, lightning, l ...

English

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