Name:  Patrick Charles Campbell, Ph.D., CCM

Tel: (919) 515-9771 (office), (307) 760-5178 (mobile)

Email:  pccampb2@ncsu.edu

Education:

Ph.D., Atmospheric Science, University of Wyoming, August 2013
M.S., Atmospheric Science, University of Massachusetts at Lowell, June 2006
B.S., Meteorology, University of Massachusetts at Lowell, June 2004

Research & Work Experience:

4.  Post-Doctoral Research Scholar, North Carolina State University, January 2014 - Present.  

    My research includes atmospheric chemistry and aerosol modeling related to air quality and climate change, while focusing on gas-phase, aqueous-phase, heterogeneous chemistry, secondary organic aerosol formation, and new particle formation through early growth. Recent research includes multi-model evaluations of online-coupled air quality models (Campbell et al., 2014c), application of such models to short-term (Campbell et al., 2015a) and decadal long air quality simulations (Yahya et al., 2015), and studies of the impacts of emissions and climate changes on U.S. air quality (Campbell et al., 2015b).

3.  Research Assistantship/Post-Doctoral Research Associate, University of Wyoming, Department of Atmospheric Science, August 2008 - December 2013

    My research at the University of Wyoming was focused on optical aerosol measurements, new particle formation and compositional studies, and aerosol modeling in the stratosphere.  During this work I obtained experience in aerosol and gas instrumentation, continuous deployment of such instruments in field projects, long-term data analysis, global modeling, and publication of the results.  A major part of my research was stratospheric meteorological, gas, and aerosol measurements at McMurdo Station, Antarctica (78°S), during deployment in austral winter-spring (August – October) of 2010.  Research highlights include development of a climatology of stratospheric condensation nuclei measurements over the locations of Laramie, WY, and McMurdo Station, Antarctica (Campbell and Deshler, 2014),  and the first global three-dimensional model of the source and extent of condensation nuclei layers in the stratosphere (Campbell et al., 2014b).    Additional meteorological research included the study of mesoscale airmass boundaries, known as “drylines”.  In this work, I used both measurements and WRF-ARW simulations, to provide a first detailed study on the formation, movement, and convection initiation associated with southeast Wyoming drylines (Campbell et al., 2014a).

2.  Air Quality Meteorologist, AECOM Environment, September 2006 – July 2008

    Performed comprehensive duties in the areas of meteorological and    ambient air quality monitoring, which included data processing/analysis, technical reports, air quality network operations, instrument calibration, and gravimetric analysis.   

1. Environmental Analyst, Massachusetts Department of Environmental Protection – Air Assessment Branch, May 2005 – September 2006

    Performed technical and laboratory (gas chromatograph) duties in support of air monitoring network operations, specifically, the Photochemical Assessment Monitoring Stations (PAMS) used in sampling VOCs in the northeastern U.S. region.

Publications

(Total Citations: 15, h-index:  2)

Refereed Journal Papers:

9.  P. Campbell, F. Yan, Z. Lu, Y. Zhang, and D. Streets, 2015b, Impacts of Changes in Emissions from the Transportation Sector on Future U.S. Air Quality in a Changing Climate, in preparation.
8.  P. Campbell, R. Leung, J. Fan, Q. Zhang, and Y. Zhang, 2015a,  Impacts of Aerosols on the East Asian Summer Monsoon: A Nested Modeling Study over Eastern China and the Yangtze River Delta in 2010, in preparation.                                                               
7.  Yahya, K., K. Wang, P. Campbell, T. Glotfelty, J. He, and Y. Zhang, 2015, Decadal Evaluation of Regional Climate, Air Quality, and Their Interactions using WRF/Chem, Geoscientific Model Development Discussions, 8, 6707-6756, doi:10.5194/gmdd-8-6707-2015. 
6.  Campbell, P. C., Y. Zhang, K. Yahya, K. Wang, C. Hogrefe, G. Pouliot, C. Knote, A. Hodzic, R. San Jose, J. Perez, P. J. Guerrero, R. Baro, and P. Makar, 2014c, A Multi-Model Assessment for the 2006 and 2010 Simulations under the Air Quality Model Evaluation International Initiative (AQMEII) Phase 2 over North America: Part I.  Indicators of the Sensitivity of O₃ and PM_2.5 Formation Regimes, Atmospheric Environment, doi: 10.1016/j.atmosenv.2014.12.026, in press.   
5.  Bergmaier, P. T., B. Geerts, Z. Wang, B. Liu, and P. Campbell, 2014, A Dryline in Southeast Wyoming.  Part II:  Airborne Raman Lidar Observation, Mon. Wea. Rev., 142, 2961-2977, doi: 10.1175/MWR-D-13-00314.1.
4.  Campbell, P., M. Mills, and T. Deshler, 2014b, The global extent of the midstratospheric CN layer:  A three dimensional modeling study, J.Geophys. Res. Atmos., 119, 1015 – 1030, doi: 10.1002/2013JD020503.
3.  Campbell, P., and T. Deshler, 2014, Condensation nuclei measurements in the midlatitude (1982–2012) and Antarctic (1986–2010) stratosphere between 20 and 35 km, J. Geophys. Res. Atmos., 119, doi:10.1002/2013JD019710.
2.  Campbell, P. C., B. Geerts, P. T. Bergmaier, 2014a, A Dryline in Southeast Wyoming. Part I: Multiscale Analysis Using Observations and Modeling on 22 June 2010. Mon. Wea. Rev., 142, 268–289.  doi: http://dx.doi.org/10.1175/MWR-D-13-00049.1
1.  Gazeaux, J., Clerbaux, C., George, M., Hadji-Lazaro, J., Kuttippurath, J., Coheur, P.-F., Hurtmans, D., Deshler, T., Kovilakam, M., Campbell, P., Guidard, V., Rabier, F., and Thépaut, J.-N., 2013, Intercomparison of polar ozone profiles by IASI/MetOp sounder with 2010 Concordiasi ozonesonde observations, Atmos. Meas. Tech., 6, 613-620, doi:10.5194/amt-6-613-2013.

Non-Refereed Conference Proceedings:

2. Campbell, P., Y. Zhang, F. Yan, Z. Lu, and D. Streets, 2015, Impacts of Emissions Changes from the Transportation Sector on Future U.S. Air Quality, Air and Waste Management Association’s 108^th Annual Conference and Exhibition, June 2015, Raleigh, NC.     

1. Campbell, P., and T. Deshler, 2013, Stratospheric condensation nuclei: A climatology in the mid-latitude and Antarctic regions, American Institute of Physics Conference Proceedings, 19^th International Conference on Nucleation and Atmospheric Aerosols, June 2013, Fort Collins, CO. 

Contributed Conference Presentations:

15.  Wang, K., Y. Zhang, K. Yahya, and P. Campbell, 2016, The Impact of Reinitialization and Cloud Physics Schemes on Regional Air Quality and Climate Modeling, poster presentation at the 10th Semiannual Meeting of the NASA Air Quality Applied Sciences Team (AQAST), EPA, Research Triangle Park, NC, U.S.A., Jan. 2016.
14.  Zhang, Y., K. Wang, K. Yahya, P. Campbell, C. Jena, T. Glotfelty, F. Yan, Z.-F. Lu, and D. Streets, 2016, Decadal Air Quality and Climate Modeling under the Representative Concentration Pathways and Technology-Driver Model Scenarios, oral presentation at the 10th Semiannual Meeting of the NASA Air Quality Applied Sciences Team (AQAST), EPA, Research Triangle Park, NC, U.S.A., Jan. 2016.
13.  Yahya, K., P. Campbell, Y. Chen, T. Glotfelty, and Y. Zhang, 2015, Downscaling CESM using WRF/Chem: The First Decadal Application for Regional Air Quality and Climate Modeling over the U.S. under the Representative Concentration Pathway Scenarios, poster presentation at the 14th Annual CMAS Conference, Chapel Hill, NC, Oct. 2015.
12.  Zhang, Y.,K. Wang, K. Yahya, P. Campbell, T. Glotfelty, J. He, F. Yan, Z.-F. Lu, and D. Streets, 2015, Development and Application of a Technology-Driven Earth System Model to Link Energy, Emissions, Air Quality, and Climate Change, oral presentation at the 14th Annual CMAS Conference, Chapel Hill, NC, October. 2015.
11.  Zhang, Y., K. Yahya, K. Wang, T. Glotfelty, J. He, P. Campbell, S.-L. Sun, K. Duan, Y. Chen, G. Sun, S. McNulty, D. Streets, F. Yan, and Z.-F. Lu, , 2015, Climate Mitigation and Earth System Management from Local to Global Scale: Modeling Technology‐Driven Futures: Decadal Applications of CESM, WRF/Chem, and WaSSI under Current and Future Climate Scenarios, oral presentation at the third Annual Meeting of the NSF, DOE and USDA jointly sponsored Earth System Modeling (EaSM) activity, Bethesda, MD, U.S., August 31 – September 2, 2015.
10.  Zhang, Y., K. Wang, Y. Chen, J. He, P. Campbell, L. R. Leung, J.-W. Fan, Kyo-Sun Lim, and G. Zhang, 2015, Simulating Aerosol Indirect Effects with Improved Aerosol‐Cloud‐ Precipitation Representations in a Coupled Regional Climate Model: Synthesis of Results from Model Development and Multi-Year Application, oral presentation at the third Annual Meeting of the NSF, DOE, and USDA jointly sponsored Earth System Modeling (EaSM) activity, Bethesda, MD, U.S.A, August 31 – September 2, 2015.
9.  Zhang, Y., K. Wang, Y. Chen, J. He, and P. Campbell, 2015, Simulating aerosol-cloud-radiation-climate interactions using online-coupled WRF-CAM5 over East Asia, oral presentation at the Goldschmidt2015, Prague, CZ, August, 16-21, 2015.
8.  Zhang, Y., K. Wang, X. Zhang, Y. Chen, J. He, and P. Campbell, 2015, Simulating Regional Climate and Air Quality using WRF-CAM5 over East Asia: Model Improvement, Multi-Year Evaluation, and Aerosol-Cloud Interactions, invited presentation at the AOGS – AGU (WGPM) Joint Assembly, Singapore, August 3 – 7.
7.  Campbell, P., F. Yan, Z.-F. Lu, Y. Zhang, and D. Streets, 2015, Impacts of Changes in Emissions from the Transportation Sector on Future U.S. Air Quality in a Changing Climate, poster presentation at the Annual Meeting of A&WMA, June 22-25, 2015, Raleigh, NC.
6.  Zhang, Y., K. Yahya, K. Wang, J. He, T. Glotfelty, and P. Campbell, 2015, Decadal Simulations of Air Quality, Climate, and Their Interactions using the Community Earth System Model over globe and downscaled WRF/Chem over Continental U.S., oral  presentation at the 2015 AEESP Research and Education Conference, June 13-16, New Haven, Connecticut.
5.  Campbell, P. C. A Multi-Model Assessment for the 2006 and 2010 Simulations under the Air Quality Model Evaluation International Initiative (AQMEII) Phase 2 over North America: Part I.  Indicators of the Sensitivity of O₃ and PM_2.5 Formation Regimes.  CMAS Conference, UNC-Chapel Hill, NC, USA, Oct. 2014.
4.  Campbell, P. C. The Global Extent and Variability of the Stratospheric CN Layer:  A Three Dimensional Modeling Study.  SPARC Workshop:  Stratospheric Sulfur and It’s Role in Climate, Atlanta, GA, USA, Oct. 2013.
3.  Campbell, P.C.  Stratospheric Condensation Nuclei:  A Climatology in the Mid-Latitude and Anarctic Regions.  19^th International Conference on Nucleation & Atmospheric Aerosols, Fort Collins, CO, USA, Jun. 2013.
2.  Campbell, P. C., P. T. Bergmaier, B. Geerts, Z. Wang, and B. Liu.  An Airborne Raman Lidar and Modeling Study of a Dryline and Convection Initiation Over the High Plains of Southeast Wyoming. 15^th Conference on Mesoscale Processes, Portland, OR, USA, Aug. 2013.
1.  Campbell, P. C. Using Measurements and Modeling for Understanding Local and Regional Influences on PM_2.5 in the Washington, D.C. Area. 11^th Annual Energy and Environment Conference, Tucson, AZ, USA, Jan. 2008.

Contributions to Computational Proposals:

3.  Extreme Science and Engineering Discovery Environment (XSEDE) – Texas Advanced Computing Center’s (TACC) Stampede Dell Linux Cluster, Completed performance testing for selected model systems, October 2015

2.  National Energy Research Scientific Computing Center’s (NERSC) Edison Cray XC30 Cluster, Completed performance testing for selected model systems, September 2015

1.  National Center for Atmospheric Research (NCAR), Computational & Information Systems Laboratory’s Yellowstone High-Performance IBM  iDataPlex Cluster, Completed performance testing for selected model systems, March 2014 and August 2015

Modeling Proficiencies:

9.  Advanced Research Weather Research and Forecast (WRF-ARW) Model

8.  Community Multi-scale Air Quality (CMAQ) Model

7. Offline Coupled WRF/CMAQ Model

6.  Online Coupled WRF/Chem Model

5.  Online Coupled WRF/CAM5 Model

4.  Sparse Matrix Operator Kernel Emissions (SMOKE) Model 

3.  NCAR Community Earth System (CESM) Model

2.  Whole Atmosphere Community Climate Model (WACCM)

1.  Community Aerosol and Radiation Model for Atmospheres (CARMA)

 

Computer Language Proficiencies:

4.  FORTRAN

3.  NCAR Command Language

2.  UNIX C Shell Scripting

1.  Interactive Display Language

 
Teaching Experience:

3.  Introduction to Meteorology, University of Wyoming, August 2009 – May 2010         

2.  FORTRAN Programming, University of Massachusetts at Lowell, September 2004 – June 2006

1.  Physical Meteorology, University of Massachusetts at Lowell, September 2004 – June 2006

 
Research Awards and Highlights:

2.  Campbell et al. (2014b) selected by AGU editors as a “Research Spotlight” for the weekly Eos newsletter, June 2014

1.  Antarctica Service Medal of the United States of America, National Science Foundation, March 2012

Certifications/Membership/Activities:

4.  Certified Consulting Meteorologist (CCM), # 669, American Meteorological Society, January 2011

3.  Member of Air and Waste Management Association (A&WMA), January 2015 - Present

2.  Member of American Geophysical Union (AGU), January 2013 – Present

1.  Member of American Meteorological Society (AMS), January 2000 - Present