BIOGENIC AEROSOLS AND AIR QUALITY IN THE MEDITERRANEAN AREA BOND John Bartzis.

Slides:

Advertisements

Similar presentations

Chantier Méditerranée – Aix-En-Provence – Nov /17 1. Main regional stakes - Ambient air quality - Chemistry-climate interactions - Impact on ecosystems.

Advertisements

Emissions in GEMS Data on emissions are needed for the 4 sub-systems GHG, GRG, AER and RAQ GEMS Project has dedicated tasks for emissions and surface fluxes.

1 Policies for Addressing PM2.5 Precursor Emissions Rich Damberg EPA Office of Air Quality Planning and Standards June 20, 2007.

Development of a Secondary Organic Aerosol Formation Mechanism: Comparison with Smog Chamber Experiments and Atmospheric Measurements Luis Olcese, Joyce.

Geophysical Fluid Dynamics Laboratory Review June 30 - July 2, 2009 Geophysical Fluid Dynamics Laboratory Review June 30 - July 2, 2009.

Model used in « Source Apportionment of Airborne Particulate Matter in the UK » [Stedman et al., Receptor modelling of PM 10 concentrations at a UK national.

Section highlights Organic Aerosol and Field Studies.

EREL European Aerosol Conference, 6-10 September 2004, Budapest J. G. Bartzis,S. Andronopoulos, M. Kulmala,B. Larsen,M. Lazaridis, C. Lohse,P. Mirabel,

2005 CHIMERE Workshop1 Project : Regional applications of CHIMERE in the Nord Pas de Calais Nollet Valérie, PC2A, UMR 8522, Université des Sciences et.

Christian Seigneur AER San Ramon, CA

Air Quality Impacts from Prescribed Burning Karsten Baumann, PhD. Polly Gustafson.

SECONDARY ORGANIC AEROSOLS WORKSHOP OVERVIEW John G. Watson Desert Research Institute, Reno, NV February 5, 2002.

Discussion Space Research Centre. Urbanization and Industrialization: in 2008, more than half of humans live in cities UN Population Report 2007.

AREHNA Workshop-Mobility and Health, 3-6 May 2003, Kos, Greece Assist. Professor Dr. A. PAPAYANNIS Lasers and Applications Laboratory National Technical.

Environmentally Conscious Design & Manufacturing (ME592) Date: March 29, 2000 Slide:1 Environmentally Conscious Design & Manufacturing Class 11: Air Quality.

Developing Secondary Organic Aerosol (SOA) Code for the MCM David Johnson (Mike Jenkin and Steve Utembe) Department of Environmental Science and Technology,

Origin and distribution of ozone in the Eastern Mediterranean - Results with GEOS-CHEM simulations Origin and distribution of ozone in the Eastern Mediterranean.

AREHNA Workshop-Mobility and Health, 3-6 May 2003, Kos, Greece EARLINET The European Aerosol Research Lidar Network A. PAPAYANNIS Lasers and Applications.

Investigating the Sources of Organic Carbon Aerosol in the Atmosphere Colette L. Heald NOAA Climate and Global Change Postdoctoral Fellow University of.

Urban Air Pollution, Tropospheric Chemistry, and Climate Change: An Integrated Modeling Study Chien Wang MIT.

University of Leicester CityZen Contributions

Colette Heald Fangqun Yu Aerosol Processes Working Group.

Havala Olson Taylor Pye April 11, 2007 Seinfeld Group Department of Chemical Engineering California Institute of Technology The Effect of Climate Change.

Developments in EMEP monitoring strategy and recommendations from AirMonTech Kjetil Tørseth, NILU/EMEP-CCC.

Southeast Nexus (SENEX) Studying the Interactions Between Natural and Anthropogenic Emissions at the Nexus of Air Quality and Climate Change A NOAA Field.

1 A European Network for an Environmentally Compatible Air Transport System (ECATS) University of Athens’ contribution Contact: Professor Costas Helmis.

Simulation of European emissions impacts on particulate matter concentrations in 2010 using Models-3 Rob Lennard, Steve Griffiths and Paul Sutton (RWE.

Xuexi Tie Xu Tang,Fuhai Geng, and Chunsheng Zhao Shanghai Meteorological Bureau Atmospheric Chemistry Division/NCAR Peking University Understand.

Angeliki Karanasiou Source apportionment of particulate matter in urban aerosol Institute of Nuclear Technology and Radiation Protection, Environmental.

Office of Research and Development National Exposure Research Laboratory Atmospheric Modeling Division, Research Triangle Park, NC September 17, 2015 Annmarie.

1 DOE Atmospheric Science Program Progress Report on Aerosol Radiative Forcing of Climate BERAC Meeting April 20, 2005 Peter Lunn Program Director for.

Proposal for a Research Infrastructure for Advanced Aerosol Observations and Capacity Building in China Alfred WIEDENSOHLER Leibniz Institute for Tropospheric.

Contribution from Natural Sources of Aerosol Particles to PM in Canada Sunling Gong Scientific Team: Tianliang Zhao, David Lavoue, Richard Leaitch,

IIASA International Institute for Applied Systems Analysis (IIASA) An Integrated Assessment Model for Fine Particulate Matter in Europe Markus Amann, M.

Urban Air Pollution Public and Environmental Health Concerns –Elevated levels of toxic compounds Regional and Global Impacts –Background Chemistry and.

Scientific Plan for LBA2 Changing the principle… LBA1 – structure by disciplines LBA2 – structure by issues –Foster integrative science and avoid the dicotomy.

Properties of Particulate Matter Physical, Chemical and Optical Properties Size Range of Particulate Matter Mass Distribution of PM vs. Size: PM10, PM2.5.

Wish-list to the Emission community.  TFMM annual meeting held in Zagreb on the 6-8 May 2013  Main issues :  Review of the implementation of the EMEP.

Request for LAOF facilities in support of SOAS: Southern Oxidant and Aerosol Study SOAS Science Objective: To quantify biogenic emissions and anthropogenic.

Synergies between EMEP and EUSAAR Wenche Aas and Kjetil Tørseth EMEP/CCC (NILU)

Criteria of a good research field Intellectually challenging Significant contributions to the society Provides jobs.

Charmex workshop Trieste 1/Total Working sesssion « chemical processes » overview Relevant questions : -VOC reactivity, oxidized.

Nicola Pirrone GMOS Project Coordinator & Director CNR - Institute of Atmospheric Pollution Research Rome, Italy Global Mercury Observation System - GMOS.

Assessment of the Impacts of Global Change on Regional U.S. Air Quality: A synthesis of climate change impacts on ground-level ozone An Interim Report.

Secondary Organic Aerosols

UNECE-CLRTAP and EMEP Task Force on Integrated Assessment Modelling 26th session, Brussels, May 2001 Integrating the environmental effects of Particulate.

Regional Air Quality Modeling Results for Elemental and Organic Carbon John Vimont, National Park Service WRAP Fire, Carbon, and Dust Workshop Sacramento,

OVERVIEW OF ATMOSPHERIC PROCESSES: Daniel J. Jacob Ozone and particulate matter (PM) with a global change perspective.

Sustainable Air Quality ME 449 Jan 14, 16; The Earth System Atmosphere –Conveyer of mass, moves mass source to receptor –Small storage capacity.

Scientific Plan Introduction –History of LBA Background –Definition of Amazon –7 Themes with achievements Motivation for Phase II –Unresolved questions.

Yunseok Im and Myoseon Jang

Peak 8-hr Ozone Model Performance when using Biogenic VOC estimated by MEGAN and BIOME (BEIS) Kirk Baker Lake Michigan Air Directors Consortium October.

June 29, 2011NASA/ARB Data Analyses Discussion1 What can We Learn from ARCTAS-CARB Data? Modeling and Meteorology Branch Planning and Technical Support.

CHARGE QUESTIONS: ENDPOINTS  anthropogenic emissions   air pollution   climate OK, but can we be more specific?  Intercontinental transport of.

Understanding The Effect Of Anthropogenic Aerosol Weekly Cycles Upon The Climate Using A Global Model Of Aerosol Processes (GLOMAP) Introduction GLOMAP.

W. T. Hutzell 1, G. Pouliot 2, and D. J. Luecken 1 1 Atmospheric Modeling Division, U. S. Environmental Protection Agency 2 Atmospheric Sciences Modeling.

Breakout Session 1 Air Quality Jack Fishman, Randy Kawa August 18.

The Role of Background O 3 in the NAAQS Review George T. Wolff Air Improvement Resource, Inc.

OZONE DEPLETION AT POLAR SUNRISE SOURCES AND MECHANISM OF REACTIVE HALOGEN SPECIES EAS6410 Jide & Rita.

Status Report on the Role of Ammonia in the San Joaquin Valley December 11, 2003 Air Resources Board California Environmental Protection Agency.

Measurement and modelling of reactive trace gas fluxes from the Amazonian rainforest (CLAIRE-UK) Amy Valach Supervised by Prof. Nick Hewitt et al. Lancaster.

Properties of Particulate Matter

Informed NPS Air Quality Management Decisions in Response to a Changing Climate.

7. Air Quality Modeling Laboratory: individual processes Field: system observations Numerical Models: Enable description of complex, interacting, often.

58 A modeling perspective of the ChArMEx intensive campaign: origin of photo-oxidant and organic aerosol formation Arineh Cholakian, Matthias Beekmann,

Aerosol Physics & Climate

SUGGESTIONS FOR TASK FORCE ACTIVITIES

Homework #5 1. a) What are the EPA standards dealing with air quality in terms of particulate matter? b) How are they being revised? c) Give the rationale.

On-going developments of SinG: particles

Statistical analysis of the secondary inorganic aerosol in Hungary using background measurements and model calculations Zita Ferenczi Hungarian Meteorological.

Presentation transcript:

BIOGENIC AEROSOLS AND AIR QUALITY IN THE MEDITERRANEAN AREA BOND John Bartzis

PARTICIPANTS NCSR “DEMOKRITOS” (GR) JRC AEGEAN UNIVERSITY (GR) NILU (NO) UNIVERSITE LOUIS PASTEUR (FR) UNIVERSITY OF ODENSEE (DK) UNIVERSITY OG HELSINKI (FIN)

Main objectives  Quantification of the formation of SOA and individual products from the photochemical oxidation of selected anthropogenic and biogenic VOCs over the Mediterranean area  Quantification of the biogenic fraction on aerosols  Characterisation of the physical and chemical processes related to aerosols  Development and validation of an advanced biogenic aerosol chemical module potentially suitable for integration to 3-D photochemical transport models  Quantification and prediction of SOA budgets and radiative properties at regional scale as well as assessment of the potential climatic importance of SOA forcing mechanism and the change imposed on the energy balance

Main Scientific questions to be answered  Quantification of the relevant mechanisms, of the BVOC in the formation of tropospheric organic aerosols in typical Mediterranean conditions  How anthropogenic emissions of reactive species affect the SOA from biogenic precursors  Quantification of the origin and the fate of the biogenic aerosol  Importance of biogenic aerosol component on urban air quality management  Importance and variability of the biogenic component on particulate matter in the atmosphere  Significance of OH in terms of aerosol formation in the ambient atmosphere  Biogenic aerosols and radiation forcing

Activities  3-D Photochemical/Aerosol Modeling  Basic Photochemical/Aerosol Modeling  Targeted Laboratory Experiments  Selected field measurements (incl 14 C measurements) (Marseilles, Athens)

Need for improvement of 3-D aerosol/photochemical models  limited number of application and validation studies  insufficient emission databases in the Mediterranean region  lack of data on the evolution of the biogenic versus anthropogenic aerosol mass components  insufficient data of 14 C measurements (biogenic contribution)  lack of understanding of physicochemical aerosol processes (especially on those of biogenic origin) and of secondary biogenic organic aerosol formation  mismatch between model requirements and past measurement strategies and corresponding data