Siberian Biomass Burning Plumes Across the Pacific: Impact on Surface Air Quality in the Pacific Northwest Dan Jaffe, Peter Weiss-Penzias, J.B. Dennison,

Slides:

Advertisements

Similar presentations

MOPITT CO Louisa Emmons, David Edwards Atmospheric Chemistry Division Earth & Sun Systems Laboratory National Center for Atmospheric Research.

Advertisements

MODELING TRANSPORT OF OZONE AND FINE PARTICLES TO AND FROM NORTH AMERICA Daniel J. Jacob Harvard University with Arlene M. Fiore, Rokjin Park, Colette.

Investigate possible causes Intercontinental Transport and Chemical Transformation (ITCT) An International Global Atmospheric Chemistry (IGAC) Program.

CO budget and variability over the U.S. using the WRF-Chem regional model Anne Boynard, Gabriele Pfister, David Edwards National Center for Atmospheric.

GEOS-Chem Simulations for CMAQ Initial and Boundary Conditions 1 Yun-Fat Lam, 1 Joshua S. Fu, 2 Daniel J. Jacob, 3 Carey Jang and 3 Pat Dolwick.

Slide 1 Transport and chemical processing of mercury during long-range transport in the Pacific by Dan Jaffe University of Washington Acknowledgements:

Today’s forecast: Observations 1.D.Jaffe 2.T. VanCuren 3.R. Husar 4.J.Creilson.

QUESTIONS 1.Is hexane more or less reactive with OH than propane? 2.Is pentene or isoprene more reactive with OH?

GEOS-CHEM Near-Real Time Full-Chemistry Simulations S. Turquety, D. J. Jacob, R. M. Yantosca, R. C. Hudman, L. Jaeglé, S. Wu Objectives : 1.ICARTT campaign.

Transpacific Transport of Ozone Pollution During INTEX-B Lin Zhang, Daniel J. Jacob, INTEX-B Science Team, TES Science Team GEOS-Chem User Meeting Harvard.

The Atmosphere: Oxidizing Medium In Global Biogeochemical Cycles EARTH SURFACE Emission Reduced gas Oxidized gas/ aerosol Oxidation Uptake Reduction.

Transpacific transport of pollution as seen from space Funding: NASA, EPA, EPRI Daniel J. Jacob, Rokjin J. Park, Becky Alexander, T. Duncan Fairlie, Arlene.

Sarah Strode, Lyatt Jaeglé, Dan Jaffe, Peter Weiss-Penzias, Phil Swartzendruber University of Washington Noelle Eckley Selin, Chris Holmes, Daniel Jacob.

U N I V E R S I T Y O F W A S H I N G T O N S C H O O L O F N U R S I N G Sensitivity of surface O 3 to soil NO x emissions over the U.S. Lyatt Jaeglé.

Modification of the chemical environment during long-range transport M. Auvray & I. Bey GEOS-CHEM Meeting – April 2005 Swiss Federal Institute of Technology,

Global simulation of H 2 and HD with GEOS-CHEM Heather Price 1, Lyatt Jaeglé 1, Paul Quay 2, Andrew Rice 2, and Richard Gammon 2 University of Washington,

Long-range Transport of Asian Pollution to North America: Transport, chemistry and variability Qing Liang and Lyatt Jaeglé University of Washington, Seattle.

INTERCONTINENTAL TRANSPORT OF OZONE AND AEROSOLS Daniel J. Jacob and support from NOAA, EPRI, NASA, EPA (ICAP) with T. Duncan Fairlie, Colette L. Heald,

Characteristics of Asian Pollution at Mt. Bachelor Observatory during Spring 2004 Peter Weiss-Penzias UWB Data Workshop, Oct. 14, 2004.

Transport of CO and O 3 into the UTLS Region Dave MacKenzie University of Toronto.

Effects of Siberian forest fires on regional air quality and meteorology in May 2003 Rokjin J. Park with Daeok Youn, Jaein Jeong, Byung-Kwon Moon Seoul.

GEOS-CHEM GLOBAL 3-D MODEL OF TROPOSPHERIC CHEMISTRY Assimilated NASA/DAO meteorological observations for o x1 o to 4 o x5 o horizontal resolution,

ITCT 2K2 Field Study (Intercontinental Transport and Chemical Transformation) ITCT 2K2 Introduction Today (briefly): Examine a major Asian emission transport.

ATMOSPHERIC CHEMISTRY: FROM AIR POLLUTION TO GLOBAL CHANGE AND BACK Daniel J. Jacob.

Impact of Mexico City on Regional Air Quality Louisa Emmons Jean-François Lamarque NCAR/ACD.

Springtime Airmass Transport Pathways to the US Prepared by: Rudolf B. Husar and Bret Schichtel CAPITACAPITA,Washington University, Saint Louis, Missouri.

CANADIAN, MEXICAN, AND INTERCONTINENTAL INFLUENCES ON U.S. AIR QUALITY Daniel J. Jacob with Rokjin J. Park 1, Helen Wang, Philippe H. LeSager, Lin Zhang.

Policy relevant background and exceptional events: Identification of UTLS, Asian and fire influence on O 3 in AQ data Dan Jaffe University of Washington.

INTERCONTINENTAL TRANSPORT OF AIR POLLUTION WITH GMI AND PLANS FOR THE NEW HEMISPHERIC TRANSPORT OF AIR POLLUTANTS (HTAP) MODEL INTERCOMPARISON STUDY ROKJIN.

1 Intercontinental Transport of Anthropogenic and Biomass Burning Pollution Qinbin Li Department of Earth and Planetary Sciences Harvard University March.

U N I V E R S I T Y O F W A S H I N G T O N S C H O O L O F N U R S I N G U N I V E R S I T Y O F W A S H I N G T O N DEPARTMENT OF ATMOSPHERIC SCIENCES.

Trans-Pacific Transport of Ozone and Reactive Nitrogen During Spring Thomas W. Walker 1 Randall V. Martin 1,2, Aaron van Donkelaar.

FROM AIR POLLUTION TO GLOBAL CHANGE AND BACK: Towards an integrated international policy for air pollution and climate change Daniel J. Jacob Harvard University.

Evolving Understanding of Pollutant Transport from Asia to North America Richard (Tony) VanCuren Research Division, California Air Resources Board Department.

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

Observational Evidence: Ozone and Particulate Matter EMEP SB, 13 September summary Chapter 2 Kathy Law LATMOS-CNRS,

ASSESSING INTERCONTINENTAL TRANSPORT OF OZONE AND AEROSOLS AT NORTHERN MID-LATITUDES WITH GMI Daniel J. Jacob, Rokjin J. Park, Shiliang Wu, Colette L.

TOP-DOWN CONSTRAINTS ON REGIONAL CARBON FLUXES USING CO 2 :CO CORRELATIONS FROM AIRCRAFT DATA P. Suntharalingam, D. J. Jacob, Q. Li, P. Palmer, J. A. Logan,

Improved representation of boreal fire emissions for the ICARTT period S. Turquety, D. J. Jacob, J. A. Logan, R. M. Yevich, R. C. Hudman, F. Y. Leung,

Randall Martin Space-based Constraints on Emission Inventories of Nitrogen Oxides Chris Sioris, Kelly Chance (Smithsonian Astrophysical Observatory) Lyatt.

Randall Martin Space-based Constraints on Emissions of Nitrogen Oxides With contributions from: Chris Sioris, Kelly Chance (Smithsonian Astrophysical Observatory)

Estimating local versus regional contributions to tropospheric ozone: An example case study for Las Vegas Mark Green and Dave DuBois Desert Research Institute.

Pathways for North American Outflow - Hindcast for ICART 2 Qinbin Li, Daniel J. Jacob, Rokjin Park, Colette L. Heald, Yuxuan Wang, Rynda Hudman, Robert.

The effect of pyro-convective fires on the global troposphere: comparison of TOMCAT modelled fields with observations from ICARTT Sarah Monks Outline:

Wildland Fire Impacts on Surface Ozone Concentrations Literature Review of the Science State-of-Art Ned Nikolov, Ph.D. Rocky Mountain Center USDA FS Rocky.

QUESTIONS 1.Is hexane more or less reactive with OH than propane? 2.Is pentene or isoprene more reactive with OH? 3.Using the EKMA diagram (the ozone isopleth.

Itsushi UNO*, Youjiang HE, Research Institute for Applied Mechanics, Kyushu University, Kasuga, Fukuoka, JAPAN Toshimasa OHARA, Jun-ichi KUROKAWA, Hiroshi.

Springtime Airmass Transport Pathways to the US Prepared by: Bret A. Schichtel and Rudolf B. Husar CAPITA CAPITA,Washington University Saint Louis, Missouri.

Transpacific transport of anthropogenic aerosols: Integrating ground and satellite observations with models AAAR, Austin, Texas October 18, 2005 Colette.

Estimating background ozone in surface air over the United States with global 3-D models of tropospheric chemistry Description, Evaluation, and Results.

REGIONAL/GLOBAL INTERACTIONS IN ATMOSPHERIC CHEMISTRY Greenhouse gases Halocarbons Ozone Aerosols Acids Nutrients Toxics SOURCE CONTINENT REGIONAL ISSUES:

Springtime Airmass Transport Pathways to the US Prepared by: Rudolf B. Husar and Bret Schichtel CAPITACAPITA,Washington University, Saint Louis, Missouri.

Influence of Lightning-produced NOx on upper tropospheric ozone Using TES/O3&CO, OMI/NO2&HCHO in CMAQ modeling study M. J. Newchurch 1, A. P. Biazar.

WORKSHOP ON CLIMATE CHANGE AND AIR QUALITY : part I: Intercontinental transport and climatic effects of pollutants OBJECTIVE: Define a near-term (-2003)

Wildfire activity as been increasing over the past decades Cites such as Salt Lake City are surrounded by regions at a high risk for increased wildfire.

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

The Double Dividend of Methane Control Arlene M. Fiore IIASA, Laxenburg, Austria January 28, 2003 ANIMALS 90 LANDFILLS 50 GAS 60 COAL 40 RICE 85 TERMITES.

ORIGIN OF BACKGROUND OZONE IN SURFACE AIR OVER THE UNITED STATES: CONTRIBUTION TO POLLUTION EPISODES Daniel J. Jacob and Arlene M. Fiore Atmospheric Chemistry.

Background ozone in surface air over the United States Arlene M. Fiore Daniel J. Jacob US EPA Workshop on Developing Criteria for the Chemistry and Physics.

Yuqiang Zhang1, Owen R, Cooper2,3, J. Jason West1

Analysis of tropospheric ozone long-term lidar and surface measurements at the JPL-Table Mountain Facility site, California Maria J. Granados-Muñoz and.

Daniel J. Jacob Harvard University

Ozone Trends along U.S. West Coast

The Double Dividend of Methane Control

Daniel J. Jacob Harvard University

Satellite Remote Sensing of Ozone-NOx-VOC Sensitivity

Aircraft Observations of Siberian Smoke Plumes Transported to the Pacific Northwest Presented by Isaac Bertschi.

AIR POLLUTION AND GLOBAL CHANGE: TOWARDS AN INTEGRATED POLICY

INTEX-B flight tracks (April-May 2006)

Pathways for North American Outflow - Hindcast for ICART2

Presentation transcript:

Siberian Biomass Burning Plumes Across the Pacific: Impact on Surface Air Quality in the Pacific Northwest Dan Jaffe, Peter Weiss-Penzias, J.B. Dennison, Isaac Bertschi and Doug Westphal Acknowledgements: Lyatt Jaeglé, UW Paul Novelli, NOAA-CMDL Roxanne Vingarzan, Environment Canada Hiroshi Tanimoto, NIES-Japan Funding: NSF and NOAA

Trans-Pacific transport of pollutants is well documented in spring, with occasional occurrences of O 3 to ~90 ppbv. See for example: Jaffe D.,McKendry I., Anderson T., and Price H. Six 'new' episodes of trans- Pacific transport of air pollutants. Atmos. Envir. 37, , What about other seasons? Goals for Summer 2003 campaign: Quantify “background” atmospheric composition during summer; Identify whether LRT can occur during summer; Identify role of Siberian biomass burning on PNW; Better understand connection between background atmosphere and regional air quality.

Summer 2003 had substantial Siberian fires, larger then 1987, 1998 or 2002 NAAPS Model Forecast for June 2, 2003 Vertical profile

June 2 nd, vertical profile Red line shows summer median NAAPS model and Hysplit back trajectories confirm the Siberian source.

GEOS-CHEM global model simulation June, July, August 2003 enhancement over climatological values 2003 emissions from the Siberian fires were much larger then climatological: 61 tg for CO 0.7 tgN for NOx CO enhancement: ppbv O 3 enhancement: 2-6 ppbv Courtesy of Lyatt Jaeglé, UW CO O3O3

Are there implications on air quality? On June 2 nd, 2003 long-range transport brought elevated CO and aerosols and O 3 (>100 ppbv) to the lower troposphere of the Pacific NW. On June 1-3, elevated O 3 (50-60 ppbv) was seen at a number of surface sites around Washington state; Over the next few days, a local high-pressure system moved into the region and on June 6 th, 2003, Enumclaw, Washington had an 8-hour O 3 mixing ratio of 96 ppbv, an exceedance of the US standard. Enumclaw is a rural community about 50 km south of Seattle; Was there a contribution from long-range transport to the high surface O 3 seen on June 6 th ? To answer this, we need a surrogate for local O 3 production. We have used local temperature as this surrogate to calculate a long-range transport contribution of ppbv.

Conclusions  Trans-Pacific transport of pollutants from Eurasia to North America can occur in summer;  2003 had the largest area of Russian biomass burned in recent past. During the summer of 2003, we saw evidence of LRT to the Pacific NW on 3 out of 10 of our aircraft missions, including a large episode on June 2;  On June 6 th, 2003 Enumclaw Washington had an 8- hour mean O 3 value of 96 ppbv. We calculate that long-range transport contributed ppbv to this elevated value.