Prediction of Future North American Air Quality Gabriele Pfister, Stacy Walters, Mary Barth, Jean-Francois Lamarque, John Wong Atmospheric Chemistry Division,

Slides:

Advertisements

Similar presentations

Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Changes in U.S. Regional-Scale Air.

Advertisements

1 Severe Weather Response to Climate Change: The Expected and the Unexpected Regional Climate Research Section NCAR Earth System Laboratory NCAR is Sponsored.

Simulating the Impacts of Marine Organic Emissions on Global Atmospheric Chemistry and Climate using an Online-Coupled Meteorology and Chemistry Model.

Scaling Laws, Scale Invariance, and Climate Prediction

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

Multi-scale and Ensemble Modeling of the Effects of Global Change on Air Quality in the US NW –AIRQUEST Annual Meeting Washington State University Pullman,

A statistical method for calculating the impact of climate change on future air quality over the Northeast United States. Collaborators: Cynthia Lin, Katharine.

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

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

Dynamical Downscaling of CCSM Using WRF Yang Gao 1, Joshua S. Fu 1, Yun-Fat Lam 1, John Drake 1, Kate Evans 2 1 University of Tennessee, USA 2 Oak Ridge.

PREV ’AIR : An operational system for large scale air quality monitoring and forecasting over Europe

Predicted change in global SOA in response to future climate, emissions, and land-use change Colette L. Heald NOAA Climate and Global Change Postdoctoral.

Climate, Fire and Air Quality Climate Impacts Group June 1, 2006.

The AIRPACT-3 Photochemical Air Quality Forecast System: Evaluation and Enhancements Jack Chen, Farren Thorpe, Jeremy Avis, Matt Porter, Joseph Vaughan,

Chemistry-climate interactions: a new direction for GEOS-CHEM GEOS-CHEM research to date GCAP project Current project: drive GEOS-CHEM into.

Integrating satellite observations for assessing air quality over North America with GEOS-Chem Mark Parrington, Dylan Jones University of Toronto

Effect of global change on ozone air quality in the United States Shiliang Wu, Loretta Mickley, Daniel Jacob, Eric Leibensperger, David Rind.

Li ZHANG, Hong LIAO, and Jianping LI Institute of Atmospheric Physics Chinese Academy of Sciences Impacts of Asian Summer Monsoon on Seasonal and Interannual.

REFERENCES Maria Val Martin 1 C. L. Heald 1, J.-F. Lamarque 2, S. Tilmes 2 and L. Emmons 2 1 Colorado State University 2 NCAR.

Regional Air Quality Modeling: Long Range Global Change Simulations.

Development, evaluation, and application of GEOS-Chem driven by CCSM3 meteorological fields Presenter: Daeok (Daniel) Youn Atmospheric Chemistry Modeling.

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.

Long-range transport of ozone from the Los Angeles Basin: A case study A.O. Langford 1, C. J. Senff 2, R.J Alvarez 1 II, R. M. Banta 1, R.M. Hardesty 1.

CMAQ (Community Multiscale Air Quality) pollutant Concentration change horizontal advection vertical advection horizontal dispersion vertical diffusion.

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

Sensitivity Studies James Done NCAR Earth System Laboratory National Center for Atmospheric Research NCAR is Sponsored by NSF and this work is partially.

Joshua Fu, Yun-Fat Lam* and Yang Gao University of Tennessee Daniel Jacob, Loretta Mickley and Shiliang Wu Harvard University Oct 20, 2009 The effects.

Impact of Emissions on Intercontinental Long-Range Transport Joshua Fu, Yun-Fat Lam and Yang Gao, University of Tennessee, USA Rokjin Park, Seoul National.

1 Severe Weather Response to Climate Change: A Transient Increase then Saturation? Regional Climate Research Section NCAR Earth System Laboratory NCAR.

1 Using Hemispheric-CMAQ to Provide Initial and Boundary Conditions for Regional Modeling Joshua S. Fu 1, Xinyi Dong 1, Kan Huang 1, and Carey Jang 2 1.

Preliminary Study: Direct and Emission-Induced Effects of Global Climate Change on Regional Ozone and Fine Particulate Matter K. Manomaiphiboon 1 *, A.

Estimating anthropogenic NOx emissions over the US using OMI satellite observations and WRF-Chem Anne Boynard Gabriele Pfister David Edwards AQAST June.

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.

Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Using Dynamical Downscaling to Project.

On the interplay between upper and ground levels dynamics and chemistry in determining the surface aerosol budget Gabriele Curci 1, L. Ferrero 2, P. Tuccella.

Impact of lightning-NO and radiatively- interactive ozone on air quality over CONUS, and their relative importance in WRF-Chem M a t u s M a r t i n i.

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.

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

1 Impact on Ozone Prediction at a Fine Grid Resolution: An Examination of Nudging Analysis and PBL Schemes in Meteorological Model Yunhee Kim, Joshua S.

C. Hogrefe 1,2, W. Hao 2, E.E. Zalewsky 2, J.-Y. Ku 2, B. Lynn 3, C. Rosenzweig 4, M. Schultz 5, S. Rast 6, M. Newchurch 7, L. Wang 7, P.L. Kinney 8, and.

Impact of the changes of prescribed fire emissions on regional air quality from 2002 to 2050 in the southeastern United States Tao Zeng 1,3, Yuhang Wang.

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

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

Future Air Quality in Representative Concentration Pathway Scenarios: Relationships Between Economic Wellbeing and Air Quality J. Jason West Steven J.

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

Recent and predicted changes in atmospheric composition over the United States from climate, emissions and bark beetles Fall AGU Meeting December 6, 2012.

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

Impacts of Meteorological Conditions Modified by Urban Expansion on Surface Ozone over Yangtz River Delta and Pearl River Delta region, China Xuemei Wang,

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

Importance of the atmospheric boundary layer (2).

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.

Using Linked Global and Regional Models to Simulate U.S. Air Quality in the Year 2050 Chris Nolte, Alice Gilliland Atmospheric Sciences Modeling Division,

ESSL Holland, CCSM Workshop 0606 Predicting the Earth System Across Scales: Both Ways Summary:Rationale Approach and Current Focus Improved Simulation.

Wang Jiandong 1, Wang Shuxiao 1, Zhao Bin 1, Wang Long 1, David Wong 2, Jonathan Pleim 2, Hao Jiming 1 1. Tsinghua University, Beijing, China 2. U.S. EPA,

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

Tanya L. Spero1, Megan S. Mallard1, Stephany M

Charles University in Prague

Ozone pollution (events) in the GFDL AM3 chemistry-climate model

C. Nolte, T. Spero, P. Dolwick, B. Henderson, R. Pinder

The Double Dividend of Methane Control

Chris Misenis*, Xiaoming Hu, and Yang Zhang

WEST AFRICAN MONSOON EXPERIMENT (WAM)

Linking Ozone Pollution and Climate Change:

AIR POLLUTION AND GLOBAL CHANGE: TOWARDS AN INTEGRATED POLICY

Effects of global change on U.S. ozone air quality

The Value of Nudging in the Meteorology Model for Retrospective CMAQ Simulations Tanya L. Otte NOAA Air Resources Laboratory, RTP, NC (In partnership with.

Geophysical Fluid Dynamics Laboratory Review

Geophysical Fluid Dynamics Laboratory Review

Presentation transcript:

Prediction of Future North American Air Quality Gabriele Pfister, Stacy Walters, Mary Barth, Jean-Francois Lamarque, John Wong Atmospheric Chemistry Division, NESL/NCAR Greg Holland, James Done, Cindy Bruyere Meteorological Mesoscale Division, NESL/NCAR Jerome Fast, Po-Lun Ma Pacific Northwest Laboratory, PNNL

“There is growing recognition that development of optimal control strategies for key pollutants like O 3 and PM2.5 requires assessment of potential future climate conditions and their influence on the attainment of air quality objectives”  Future changes in weather and air quality over North America  Effects of changing emissions and changing climate on AQ  Feedbacks between chemistry and climate  Differences in climate metrics when downscaling from global or larger scale simulations with different physics  Sensitivity of predictions to initial conditions Objectives NSF EASM - Developing a Next-Generation Approach to Regional Climate Prediction at High Resolution (PI Greg Holland) NCAR ASD - Accelerated Scientific Discovery Proposal 2012 (PI Gabriele Pfister)

 13 years present ( ) and future ( )  Season: 1 April – 1 Oct  12 x 12 km 2 (697 x 394); 51 vertical levels (up to 10 hPA)  Gas-Phase Scheme: Reduced Hydrocarbon Scheme (40 species)  Aerosols: Modal Aerosol Model (MAM; 33 species, +SOA)  Direct/indirect aerosol effects  CAM-5 microphysics and PBL Scheme  IPCC A2 Climate Scenario, RCP8.5 Emission Scenario WRF-Chem Setup as NRCM-Chem SimulationPeriodClimateEmissionsIC & BCChemistry SIM PRES Present 2000PresentREDHC/MAM SIM FUT Future 2050FutureREDHC/MAM SIM FUT_EMIS Future 2000FutureREDHC/MAM SIM MET Future years + 3 years/simulation with initial start date changed

Meteorological IC & BC – Downscaled from 36 x 36 km 2 [ Done et al., 2012 ] Chemical IC & BC CAM-Chem RCP 8.5 [ Lamarque et al., 2011 ] Monthly means for 2000 and 2050 Upper Chemical Boundary Conditions for O 3, N 2 O,... Done, et al. (2012), Modeling high-impact weather and climate: Lessons from a tropical cyclone perspective. NCAR/TN-490+STR, 28pp. WRF-Chem Setup as NRCM-Chem Done et al. (2012): Modeling high-impact weather and climate, NCAR/TN-490+STR, 28pp. Lamarque et al.,(2011), Climatic Change, 109(1-2), , doi: /s

WRF-Chem Setup as NRCM-Chem - Emissions IPCC RCP 8.5 Scenario: NO x emissions reduced by -60% over domain (-10% globally) by 2050 Start with global 0.5° IPCC emissions used in CAM-Chem re-grid in 2° x 2° segments to 0.1° using EDGAR-4.1 # spatial distribution mass-conserving mapping to NRCM-Chem domain # Global Emissions 0.5° NRCM-Chem 12 km EPA NEI km->12km

WRF-Chem Setup as NRCM-Chem - Emissions Fires:  NCAR Fire Model FINN  10-year Climatology  Same for Present & Future Biogenic:  Online MEGAN  No change in land cover/use  Radiation and T dependence  LAI, TS and PAR climatology for plant history NO Fire Emissions - Time Series Isoprene Emissions, July present

Present Time Surface Ozone – Obs and Model Average Diurnal Cycle Mean for LT & 0-4 LT Correlation EPA Data: ±21 ppbV 57±21 ppbV 22±16 ppbV 17±16 ppbV

Prediction of Future Surface Ozone D AILY MAXIMUM HOURLY SURFACE OZONE FOR JJA Present Future (Climate+Emis) - Present Future (Climate+Emis) Future (Climate) - Present Future (Climate) Future (Climate+Emis) – Future (Emis) Regional Emissions + Climate+Background Climate+Background Regional Emissions

Average #Days with 8-hr Ozone Exceedance -99% +64% -98% +45% Present 65 ppbV75 ppbV Future (Climate + Emissions) Future (Climate)

Meteorological Drivers of Ozone Change (Present) SW Downward Radiation ( Future-Present) (Present) Surface Temperature ( Future-Present) (Present) Biogenic Isoprene Emissions ( Future-Present) TgC

Meteorological Drivers of Ozone Change (Present) Boundary Layer Height ( Future-Present) (Present) Wind Speed ( Future-Present) (Present) #Stagnation Days ( Future-Present)

Long Range Transport and Background Ozone CAM-Chem Present Time Surface Ozone (16-22 UTC) Future - Present

Global and Regional Predictions NRCM-Chem CAM-Chem Present Future-Present

Global and Regional Predictions NRCM-Chem CAM-Chem Present Future-Present

Global and Regional Predictions NRCM-Chem CAM-Chem Present Future-Present

Simulations address range of interesting science topics:  Future Changes in Air Quality – Impacts of Climate and Emissions  Future Changes in Climate  Dynamical Downscaling of Meteorology and Chemistry  Chemistry-Climate Feedbacks  Sensitivity to Initial Conditions  etc. etc. etc. First Analysis: Reducing surface Ozone over the U.S. can be achieved by strong emission reductions, while the impacts of climate act to increase surface ozone by 2050 in parts due to increased temperature, solar radiation and stagnation events and higher background levels. Summary & Outlook

Objectives Average number of days (%) during May-Sep and when the 8-hour ozone NAAQS of 75 ppbV was exceeded. (EPA Monitoring Network) “There is growing recognition that development of optimal control strategies for key pollutants like O 3 and PM2.5 requires assessment of potential future climate conditions and their influence on the attainment of air quality objectives”