Atmospheric chemistry in OSCAR

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1 WMO Atmospheric chemistry in OSCAR Øystein Hov President of the Commission for Atmospheric Sciences Norwegian Meteorological Institute OSCAR Project Demonstration side event, Cg-17, 27 May 2015 WMO: Research Dept.

Production chain in a weather service Basic data from: Observations Experiments Process description Input information Output from other science disciplines or services IA, socio-economics Core

2 Production chain in a weather service Basic data from: Observations Experiments Process description Input information Output from other science disciplines or services IA, socio-economics Core Services Core information Model calculations integrating basic data and process knowledge Downstream Services data policy User customized information (user products) The public specialized operational users Other branches of research or innovation National weather, marine climate emergencies, pollution

3 Production chain in a weather service Basic data from: Observations Experiments Process description Input information Output from other science disciplines or services IA, socio-economics Core Services Core information Model calculations integrating basic data and process knowledge Downstream Services data policy User customized information (user products) The public specialized operational users Other branches of research or innovation National weather, marine climate emergencies, pollution

4 WIGOS To define and manage weather, water and climate observations for WMO programmes Enable integration of data from a diversity of observing systems into a composite set Cover traditional and co-sponsored WMO systems (eg GOS, GAW, GCOS, GCW, hydrological systems) Integrate NMHS-observations with data from nontraditional sources incl non-nmhs governmental organisations, research institutions, private sector operators and space-based observing networks test footer 4

5 Production chain with WIGOS: interoperability Basic data from: Observations Experiments Process description Input information Output from other science disciplines or services IA, socio-economics Core Services Core information Model calculations integrating basic data and process knowledge Downstream Services data policy User customized information (user products) The public specialized operational users Other branches of research or innovation National weather, marine climate emergencies, pollution

6 Joerg Klausen, MeteoSwiss 6

7 Joerg Klausen, MeteoSwiss 7

OSCAR «Recipe»: Instructions 1. Develop standard for WIGOS metadata WMDS 2.

Build a module to translate observation metadata into «Capabilities» 4.

Build an application to compare the two (Gap) Analysis 6. Use the results of your analysis 7.

8 OSCAR «Recipe»: Instructions 1. Develop standard for WIGOS metadata WMDS 2. Build Application for registration and management of metadata incl. machine-to-machine interfaces to external metadata sources 3. Build a module to translate observation metadata into «Capabilities» 4. Integrate an (existing) application to specify and manage «Requirements» 5. Build an application to compare the two (Gap) Analysis 6. Use the results of your analysis 7. Repeat regularly RRR Presidents of Technical Commissions January 2015, WMO Geneva J. Klausen, B. Calpini, and project teams Metadata & Analysis of Observing Systems Observing Systems Surface Requirements (Gap) Analysis Capabilities OSCAR Observing Systems Space Societal Impact Guidance for Action Improved services for society 8

9 Interoperability of observations from traditional and cosponsored WMO systems atmospheric chemistry in OSCAR WIS

WRDC, EMEP metadata (weekly) GAWSIS provides for GAW a searchable data base of site

10 Atmospheric chemistry in OSCAR GAWSIS Migration of existing database (one-time integration) into OSCAR Management by users through UI Integration of WOUDC, WDCGG, WDCA, WRDC, EMEP metadata (weekly) GAWSIS provides for GAW a searchable data base of site descriptions, measurements programs and data available, contact people, bibliographic references test footer 10

11 Greg Carmichael 11

12 GAW programme issues global decrease in stratospheric ozone - increase in surface ultraviolet radiation, summer smog over many cities including the developing countries. Increased ozone background in the northern troposphere; increase in greenhouse gases and aerosols in the atmosphere and associated climate change; acid rain and eutrophication of surface waters and other natural ecosystems by atmospheric deposition; enhanced aerosol and photooxidant levels due to biomass burning and other agricultural activity; increase in fine particles in regions of industrial development and population growth - reduction in visibility, increase in human health effects; and long range transport of air pollution to regions far from the industrial activity test footer 12

14 WMO CASXV Incheon Republic of Korea November

15 GAW Global CO 2 network WMO GHG Bulletin No

Development of the total amount of data in WDCGG Increase of Archived Data Other Gases Isotopes H₂ SO₂ Nitrogen Oxides VOCs CO O₃ Halocarbons & SF₆ N₂O CH₄ CO₂ 10 3 Progress of the Utilization 150

16 Development of the total amount of data in WDCGG Increase of Archived Data Other Gases Isotopes H₂ SO₂ Nitrogen Oxides VOCs CO O₃ Halocarbons & SF₆ N₂O CH₄ CO₂ 10 3 Progress of the Utilization As of 2010 November Accumulated FTP Download Counts Covering Grid Number of Archived Data CO₂ Number of Grids Distribution of the Fixed Stations and Mobile Platforms April 2011, OPAG-EPAC JSC, Geneva

17 ADVANCE RESEARCH AND IMPROVE SERVICES Greenhouse Gas Bulletin 7/2011

18 Total ozone series of Arosa. Long-term changes small Ozonesonde stations WOUDC, NDACC, SHADOZ NOAA NILU Archives: - Different formats and information. - Progress underway Homogenisation of (ECC) series Umkehr: Work in progress

19 South Pole: CO = 49 ± 14 ppb)

20 ADVANCE RESEARCH AND IMPROVE SERVICES

21 Science advance German Meteorological Service Hohenpeissenberg Meteorological Observatory SO 2 Zeitreihen an verschiedenen GAW-Stationen Kosetice (Tschechische Republik) Leba (Polen) Zoseni (Lettland) MOHp SO2 (ppb) Jungfraujoch (Schweiz) Zugspitze Zeppelinfjellet (Norwegen) Source: Stefan Gilge SAG reactive gases 21

Scales in space and time Annual anthropogenic NOx emissions urban focus tons NO2 yr-1 per 0.1 0.1 grid cell 200 (edgar db) Cooper OR, Parrish DD, Ziemke J, Balashov NV, et al.

22 Scales in space and time Annual anthropogenic NOx emissions urban focus tons NO2 yr-1 per grid cell 200 (edgar db) Cooper OR, Parrish DD, Ziemke J, Balashov NV, et al. (2014) Global distribution and trends of tropospheric ozone: An observation-based review. Elem. Sci. Anth. 2: doi: /journal.elementa

23 Interoperability of observations from traditional and cosponsored WMO systems atmospheric chemistry in OSCAR WIS

24 million annual premature deaths linked to air pollution WHO 2014) Outdoor air pollution-caused deaths breakdown by disease: 40% ischaemic heart disease; 40% stroke; 11% chronic obstructive pulmonary disease (COPD); 6% - lung cancer; 3% acute lower respiratory infections in children. Indoor air pollution-caused deaths breakdown by disease: 34% - stroke; 26% - ischaemic heart disease; 22% - COPD; 12% - acute lower respiratory infections in children; 6% - lung cancer.

25 Loss in life expectancy attributable to anthropogenic PM2.5 [months] (IIASA) Loss in average statistical life expectancy due to identified anthropogenic PM2.5, average of calculations for 1997, 1999, 2000 & 2003 meteorologies

26 RIVevsAcGpsAGBmYHoAQ&ved=0CHIQ7Ak&biw=1280&bih=845#imgrc=4JmlVk3fkoubmM%253A%3BArhrYK6uJkTgMM%3Bhttp%253A%252F%252 Fwww.skepticalscience.com%252Fpics%252FSO2- emissions.png%3bhttp%253a%252f%252fdialoguesonglobalwarming.blogspot.com%252f2014%252f07%252f30000-challenge-submission-cleanair-act.html%3b751%3b500

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29 WIGOS and OSCAR in support of GAW Greg Carmichael 29

30 Thank you for your attention Øystein Hov Norwegian Meteorological Institute PO Box 43 Blindern 0313 Oslo, Norway