(184) 2026 M.J. Jerrett, C.L. Nau, D.R. Young, R.K. Butler, C.M. Batteate, A. Padilla, S.Y. Tartof, J. Su, J. Jiang, R.T. Burnett, M.J. Kleeman.\u00a0 Association Between Air Pollution and Post Acute Sequelae of SARS-CoV-2 (PASC).\u00a0 American Journal of Respiratory and Critical Care Medicine, provisionally accepted for publication.<\/p>\n
(183) 2026 K. O’Sharkey, S. Mitra, T. Chow, A. Goodrich, K. Conlon, M. Nuno, D.H. Bennett, S. Raffuse, M. Astaneh, Y. Zhao, M. Kleeman, B. Ritz, R.J. Schmidt.\u00a0 Prenatal exposure to wildfire-related PM2.5 and autism spectrum disorder in children born in California between 2001\u20132019.\u00a0 Environment International, accepted for publication.<\/p>\n
(182) 2026 A. Goodrich, D.H. Bennett, M.J. Kleeman, D.J. Tancredi, Y.J. Ludena, I. Hertz-Picciotto, R.J. Schmidt.\u00a0 Associations between specific components of ultrafine and fine particulate matter and autism spectrum disorder.\u00a0 Environment International, accepted for publication.<\/p>\n
(181) 2025 E.L. Cauble, M.J. Kleeman, Y. Zhao, M. Franklin, M. Yao, E.S. Spielfogel, T. Benmarhnia, J. Lacey, M.S.V. Elkin, J. Zhao, L. Magpantay, O. Martinez-Maza, S.S. Wang, M. Epeldegui.\u00a0 Cross-sectional evaluation of exposure to ozone, nitrogen dioxide, and particulate mass levels on circulating immune markers in women in the California Teachers Study.\u00a0 Nature: Scientific Reviews, accepted for publication.<\/p>\n
(180) 2025 C. Schissel, M. Meyer, E. Thompson, Y. Kimura, S. Stokes, M. Kleeman, S. Raffuse, and D. Allen.\u00a0 Fine spatial and temporal scale fuel and emissions inventories for the Eaton and Palisades Wildland Urban Interface (WUI) fires.\u00a0 ES&T Air, accepted for publication.<\/p>\n
(179) 2025 Q. Xu, Z. Jin, Q. Ying, K. Wang, F. Su, R. Zhang, and M.J. Kleeman.\u00a0 Improving the computational efficiency of a source-oriented chemical mechanism for the simultaneous source apportionment of ozone and secondary particulate pollutants.\u00a0 Atmospheric Chemistry and Physics, 25, pp 9431-9449.<\/p>\n
(178) 2025 A.H. Zhang, J. Lin, T. Chow, X. Yu, M.P. Martinez, Z. Chen, S.P. Eckel, J. Schwartz, F.W. Lurmann, M.J. Kleeman, R. McConnell, M. Rahman.\u00a0 Discordant Sibling Analysis of Autism Risk Associated with Prenatal Exposure to Tailpipe and Non-Tailpipe Particulate Matter Pollution.\u00a0 Environmental Research, 275:121449. doi: 10.1016\/j.envres.2025.121449.<\/p>\n
(177) 2025 D. Rud, M. Rahman, A. Xiang, R. McConnell, F. Lurmann, M.J. Kleeman, J. Schwartz, Z. Chen, S. Eckel, J. Lewinger.\u00a0 Frequentist Grouped Weighted Quantile Sum Regression for Correlated Chemical Mixtures.\u00a0 Statistics in Medicine, 44(7):e70078. doi: 10.1002\/sim.70078.<\/p>\n
(176) 2025 Y. Zhao, Y. Li, Y. Li, A. Kumar, and M.J. Kleeman.\u00a0 Southern California Ozone Exposure Disparities under Different Emissions Control Strategies in a Low-Carbon Future.\u00a0 Science of the Total Environment, 963:178379. doi: 10.1016\/j.scitotenv.2025.178379.<\/p>\n
(175) 2024 D.G. Luglio, M.J. Kleeman, X. Yu, J.C. Lin, T. Chow, M.P. Martinez, Z. Chen, J-C. Chen, S. Proctor Eckel, J. Schwartz, F. Lurmann, R. McConnell, A.H. Xiang, M.M. Rahman.\u00a0 Prenatal Exposure to Source-Specific Fine Particulate Matter and Autism Spectrum Disorder.\u00a0 Environmental Science and Technology, 58(42):18566-18577. doi: 10.1021\/acs.est.4c05563.<\/p>\n
(174) 2024 X. Yu, M.J. Kleeman, J.C. Lin, T. Chow, M.P. Martinez, Z. Chen, J.-C. Chen, S.P. Eckel, J. Schwartz, F.W. Lurmann, R. McConnell, A.H. Xiang, M.R. Rahman.\u00a0 Decomposing the Variance: The Unique and Shared Associations of Fine and Ultrafine Particulate Matter Exposed during Pregnancy with Child Autism Spectrum Disorder.\u00a0 Science of the Total Environment, 954:176609. doi: 10.1016\/j.scitotenv.2024.176609.<\/p>\n
(173) 2024 S. Wu, C.P. Alaimo, P.G. Green, T.M. Young, Y. Zhao, S. Liu, T. Kuwayama, M.J. Kleeman.\u00a0 Source Apportionment of Volatile Organic Compounds (VOCs) in the South Coast Air Basin (SoCAB) During RECAP-CA.\u00a0 Atmospheric Environment, 338, 120847.\u00a0 https:\/\/doi.org\/10.1016\/j.atmosenv.2024.120847.<\/p>\n
(172) 2024. L. Yang, M.J. Kleeman, L. Cushing, J. Lipsitt, J. Su, R. Burnett, C. Batteate, C.L. Nau, D.R. Young, S.Y. Tartof, R.K. Butler, A. Padilla, M. Jerrett.\u00a0 Risks of Source and Species-Specific Air Pollution for COVID-19 Incidence and Mortality in Los Angeles.\u00a0 Environmental Research: Health, 2, 041001.\u00a0 DOI 10.1088\/2752-5309\/ad67fb.<\/p>\n
(171) 2024 J. Jiang, Y. Li, and M.J. Kleeman.\u00a0 Air Quality and Public Health Effects of Dairy Digesters in California.\u00a0 Atmospheric Environment, 331, 120588. https:\/\/doi.org\/10.1016\/j.atmosenv.2024.120588.<\/p>\n
(170) 2024 S. Wu, C.P. Alaimo, Y. Zhao, P.G. Green, T. Young, S. Liu, T. Kuwayama, M. Coggon, C. Stockwell, L. Xu, C. Warneke, J. Gilman, M. Robinson, P. Veres, J.A. Neuman, M.J. Kleeman. O3 sensitivity to NOx and VOC during RECAP-CA: implication for emissions control strategies.\u00a0 Environmental Science and Technology Air, 1, 536-546.<\/p>\n
(169) 2024 A. Goodrich, M. J. Kleeman, D.J. Tancredi, Y.J. Ludena, D.H. Bennett, I. Hertz-Picciotto, R.J. Schmidt.\u00a0 Pre-pregnancy ozone and ultrafine particulate matter exposure during second year of life associated with decreased cognitive and adaptive functioning at aged 2-5 years.\u00a0 Environmental Research, 252(Pt 1):118854. doi: 10.1016\/j.envres.2024.118854.<\/p>\n
(168) 2024 Y. Li, Y. Zhao, and M.J. Kleeman.\u00a0 Formaldehyde exposure racial disparities in southeast Texas.\u00a0 Environmental Science and Technology, 58 (10), pp4680-4690.<\/p>\n
(167) 2024 Y. Zhao, Y. Li, Y. Li, A. Kumar, Q. Ying, and M.J. Kleeman. Reducing Southern California Ozone Concentrations in the Year 2050 under a Low Carbon Energy Scenario.\u00a0 Atmospheric Environment, 320, 120315, https:\/\/doi.org\/10.1016\/j.atmosenv.2023.120315.<\/p>\n
(166) 2023 A. Goodrich, M.J. Kleeman, D.J. Tancredi, Y.J. Ludena, D. Bennett, I. Hertz-Picciotto, R.J. Schmidt.\u00a0 Ultrafine particulate matter exposure during second year of life, but not before, associated with increased risk of autism spectrum disorder in BKMR mixtures model of multiple air pollutants.\u00a0 Environmental Research, 242:117624. doi: 10.1016\/j.envres.2023.117624.<\/p>\n
(165) 2023 X. Yu, M. Rahman, S.A. Carter, J.C. Lin, Z. Zhuang, T. Chow, F.W. Lurmann, M.J. Kleeman, M.P. Martinez, A. Van Donkelaar, R.V. Martin, S.P. Eckel, Z. Chen, P. Levitt, J. Schwartz, D. Hackman, J. Chen, R. McConnell, A.H. Xiang.\u00a0 Prenatal Air Pollution, Maternal Immune Activation, and Autism Spectrum Disorder.\u00a0 Environment International, 179:108148. doi: 10.1016\/j.envint.2023.108148.<\/p>\n
(164) 2023 M.J. Jerrett, C.L. Nau, D.R. Young, R.K. Butler, C.M. Batteate, A. Padilla, S.Y. Tartof, J. Su, R.T. Burnett, M.J. Kleeman.\u00a0 Air Pollution and the Sequelae of COVID-19 Patients: A Multistate Analysis.\u00a0 Environmental Research, 236(Pt 2):116814. doi: 10.1016\/j.envres.2023.116814.<\/p>\n
(163) 2023 S.A. Carter, M. Rahman, J.C. Lin, T. Chow, X. Yu, M.P. Martinez, P. Levitt, Z. Chen, J-C Chen, S.P. Eckel, J. Schwartz, F.W. Lurmann, M.J. Kleeman, R. McConnell, A.H. Xiang.\u00a0 Maternal exposure to aircraft emitted ultrafine particles during pregnancy and likelihood of ASD in children.\u00a0 Environment International, 178:108061. doi: 10.1016\/j.envint.2023.108061.<\/p>\n
(162) 2023 M. Rahman, S.A. Carter, J.C. Lin, T. Chow, X. Yu, M.P. Martinez, P. Levitt, Z. Chen, J-C Chen, S.P. Eckel, J. Schwaartz, F.W. Lurmann, M.J. Kleeman, R. McConnell, A.H. Zhang.\u00a0 Prenatal exposure to tailpipe and non-tailpipe particulate matter pollution and Autism Spectrum Disorders.\u00a0 Environment International, 71:107736. doi: 10.1016\/j.envint.2023.107736.<\/p>\n
(161) 2023 Y. Li, G. Wang, C. Murphy, M.J. Kleeman.\u00a0 Modeling Expected Air Quality Impacts of Oregon\u2019s Proposed Expanded Clean Fuels Program.\u00a0 Atmospheric Environment, 296, 119582. doi.org\/10.1016\/j.atmosenv.2023.119582.<\/p>\n
(160) 2023 M. Rahman, S. Carter, J. Lin, T. Chow, X. Yu, M. Martinez, Z. Chen, J-C Chen, D. Rud, J. Lewinger, A. vanDonkelaar, R. Martin, S. Eckel, J. Schwartz, F. Lurmann, M. Kleeman, R. McConnell, A. Xiang.\u00a0 The Associations of Autism Spectrum Disorder with PM2.5 Components: A Comparative Study Using Two Different Exposure Models.\u00a0 Environmental Science and Technology, 57, 405-414.<\/p>\n
(159) 2022 M. Jerrett, C.L. Nau, D.R. Young, R.K. Butler, C.M. Batteate, J. Su, R.T. Burnett, and M.J. Kleeman.\u00a0 Air Pollution and Meteorology as Risk Factors for COVID-19 Death in a Cohort from Southern California.\u00a0 Environment International, 171: 107765. doi: 10.1016\/j.envint.2022.107675.<\/p>\n
(158) 2022 Y. Li, A. Kumar, S.D. Hamilton, J.D. Lea, J. Harvey, and M.J. Kleeman.\u00a0 Spatial Resolution Required to Model Air Pollution Environmental Justice in Southern California.\u00a0 Heliyon, 8(10) e10732,
\nISSN 2405-8440, https:\/\/doi.org\/10.1016\/j.heliyon.2022.e10732.<\/p>\n
(157) 2022 Y. Zhao, Y. Li, A. Kumar, Q. Ying, F. Vandenberghe, M.J. Kleeman.\u00a0 Separately resolving NOx and VOC contributions to ozone formation.\u00a0 Atmospheric Environment, 285, 119224, ISSN 1352-2310, https:\/\/doi.org\/10.1016\/j.atmosenv.2022.119224.<\/p>\n
(156) 2022 W. Xue and M.J. Kleeman.\u00a0 Comparison of size-resolved PM elements measured using aluminum foil and Teflon impaction substrates: implications for ultrafine particle source apportionment and future sampling networks in California.\u00a0 Science of the Total Environment, 838, 156523, ISSN 0048-9697, https:\/\/doi.org\/10.1016\/j.scitotenv.2022.156523.<\/p>\n
(155) 2022 Y. Li., A. Kumar, Y. Li, and M.J. Kleeman.\u00a0 Adoption of Low-Carbon Fuels Reduced Race\/Ethnicity Disparities in Air Pollution Exposure in California.\u00a0 Science of the Total Environment, 15;834:155230. doi: 10.1016\/j.scitotenv.2022.155230. Epub 2022 Apr 12. PMID: 35427611.<\/p>\n
(154) 2022 S. Wu, H.J. Lee, A. Rohrbacher, S. Liu, T. Kuwayama, J.H. Seinfeld, and M.J. Kleeman.\u00a0 Direct Measurements of Ozone Response to Emissions Perturbations in California.\u00a0 Atmospheric Chemistry and Physics, 22, pp4929-4949, https:\/\/doi.org\/10.5194\/acp-22-4929-2022.<\/p>\n
(153) 2022 Y. Li, C. Yang, Y. Li, A. Kumar, and M.J. Kleeman. Future Emissions of Particles and Gases that Cause Regional Air Pollution in California under Different Greenhouse Gas Mitigation Strategies.\u00a0 Atmospheric Environment, 273, 118960, ISSN 1352-2310, https:\/\/doi.org\/10.1016\/j.atmosenv.2022.118960.<\/p>\n
(152) 2021 C.P. Alaimo, Y. Li, P.G. Green, M.J. Kleeman, T.M. Young.\u00a0 Diversity of Carbonyl Compounds in Biogas and Natural Gas Revealed using High-Resolution Mass Spectrometry and Nontarget Analysis.\u00a0 Environmental Science and Technology, 55 (19), pp12809-12817.<\/p>\n
(151) 2021 Q. Ying, J. Zhang, H. Zhang, J. Hu, M.J. Kleeman.\u00a0 Atmospheric Age Distribution of Primary and Secondary Inorganic Aerosols in a Polluted Atmosphere.\u00a0 Environmental Science and Technology, 55(9), pp5669-5676.<\/p>\n
(150) 2021 Y. Li, J. Xue, J. Peppers, N. Kado, C. Vogel, C. Alaimo, P. Green, R. Zhang, B. Jenkins, M. Kim, T. Young, and M.J. Kleeman. Chemical and toxicological properties of emissions from a light-duty CNG vehicle fueled with renewable natural gas.\u00a0 Environmental Science and Technology, 55 (5), pp2820-2830.<\/p>\n
(149) 2020 A. Kumar, C. Zapata, S. Yeh, C. Yang, J. Ogden, H. Lee, S. Chen, and M.J. Kleeman.\u00a0 Effects of low-carbon energy adoption on airborne particulate matter concentrations with feedbacks to future climate over California.\u00a0 Journal of Geophysical Research 125(16) Article No. e2020JD032636.<\/p>\n
(148) 2020 A. Akherati, Y. He, M. Coggon, A. Koss, A. Hodshire, K. Sekimoto, C. Warneke, J. deGouw, L. Yee, J. Seinfeld, T. Onasch, S. Herndon, W. Knighton, C. Cappa, M. Kleeman, C. Lim, J. Kroll, J. Pierce, S. Jathar.\u00a0 Oxygenated Aromatic Compounds are Important Precursors of Secondary Organic Aerosol in Biomass Burning Emissions.\u00a0 Environmental Science and Technology, 54(14), pp8568-8579.<\/p>\n
(147) 2020 Y. Li, C. Rodier, J.D. Lea, J. Harvey, and M.J. Kleeman.\u00a0 Improving Spatial Surrogates for Area Source Emissions Inventories in California.\u00a0 Atmospheric Environment, 247:117665, DOI:10.1016\/j.atmosenv.2020.117665<\/a>.<\/p>\n (146) 2020 K.F. Chin, C. Wan, Y. Li, C.P. Alaimo, P.G. Green, T.M. Young, and M.J. Kleeman.\u00a0 Statistical Analysis of Trace Contaminants Measured in Biogas.\u00a0 Science of the Total Environment, 729 Article No. 138702.<\/p>\n (145) 2019 W. Xue, J. Xue, A. Mousavi, C. Sioutas, and M.J. Kleeman.\u00a0 Positive Matrix Factorization of Ultrafine Particle Mass at three sites in California.\u00a0 Science of the Total Environment, 715, Article No. 136902.<\/p>\n (144) 2019 H. Lee, S. Chen, A. Kumar, H. Zhang, and M.J. Kleeman.\u00a0 Improvement of Aerosol Activation\/Ice Nucleation in a Source-Oriented WRF-Chem Model to Study a Winter Storm in California.\u00a0 Atmospheric Research, 235, Article No. UNSP 104790.<\/p>\n (143) 2019 W. Xue, J. Xue, F. Shairmolhammadi, C. Sioutas, A. Lolinco, A. Hasson, and M.J. Kleeman.\u00a0 Day-of-week patterns for ultrafine particulate matter components at four sites in California.\u00a0 Atmospheric Environment, 222, Article No. 117088.<\/p>\n (142) 2019 X. Yu, M. Venecek, A. Kumar, J. Hu, S. Tanrikulu, S. Soon, C. Tran, D. Fairley, and M.J. Kleeman.\u00a0 Regional Sources of Airborne Ultrafine Particle Number and Mass Concentrations in California.\u00a0 Atmospheric Chemistry and Physics, 19, pp 14677-14702.\u00a0 Air quality data.<\/a><\/p>\n (141) 2019 Y. Li, C. Alaimo, M. Kim, N. Kado, J. Peppers, J. Xue, C. Wan, P. Green, R. Zhang, B. Jenkins, C. Vogel, S. Wuertz, T. Young, M.J. Kleeman.\u00a0 Composition and Toxicity of Biogas Produced from Different Feedstocks in California.\u00a0 Environmental Science and Technology, 19, pp 11569-11579.<\/p>\n (140) 2019 J. Hu, B. Ostro, H. Zhang, Q. Ying, M.J. Kleeman. Using Chemical Transport Model Predictions To Improve Exposure Assessment of PM2.5 Constituents.\u00a0 Environmental Science and Technology Letters, 6, pp 456-461.<\/p>\n (139) 2019 J. Peppers, Y. Li, J. Xue, X. Chen, C. Alaimo, L. Wong, T. Young, P.G. Green, B. Jenkins, R. Zhang, M.J. Kleeman.\u00a0 Performance analysis of membrane separation for upgrading biogas to biomethane at small scale production sites.\u00a0 Biomass and Bioenergy, 128, Article No. UNSP 105314.<\/p>\n (138) 2019 M.A. Venecek, X. Yu, M.J. Kleeman.\u00a0 Predicted ultrafine particulate matter source contributions across the continental United States during summer time air pollution events.\u00a0 Atmospheric Chemistry and Physics, 19, pp 9399-9412.<\/p>\n (137) 2019 O. Laurent, T. Benmarhnia, C. Milesi, J. Hu, M.J. Kleeman, M. Cockburn, J. Wu.\u00a0 Relationships between greenness and low birth weight: investigating the interaction and mediation effects of air pollution.\u00a0 Environmental Research, 175, pp 124-132.<\/p>\n (136) 2019 A. Akherati, C.D. Cappa, M.J. Kleeman, K.S. Docherty, J.L. Jimenez, S.M. Griffith, S. Dusanter, P.S. Stevens, and S.H. Jathar.\u00a0 Simulating secondary organic aerosol in a regional air quality model using the statistical oxidation model – Part 3: Assessing the influence of semi-volatile and intermediate volatility organic compounds and NOX.\u00a0 Atmospheric Chemistry and Physics, 19, pp 4561 – 4594.<\/p>\n (135) 2019 H. Zhang, H. Guo, J. Hu, Q. Ying, and M.J. Kleeman.\u00a0\u00a0Modeling atmospheric age distribution of elemental carbon using a regional age-resolved particle representation framework.\u00a0 Environmental Science and Technology, 53, 270-278.<\/p>\n (134) 2018 Chen, C.L., Chen, S.J., Russell, L.M., Liu, J., Price, D.J., Betha, R., Sanchez, K.J., Lee, A.K.Y., Williams, L.; Collier, S.C., Zhang, Q., Kumar, A., Kleeman, M.J., Zhang, X.L., Cappa, C.D. Organic Aerosol Particle Chemical Properties Associated With Residential Burning and Fog in Wintertime San Joaquin Valley (Fresno) and With Vehicle and Firework Emissions in Summertime South Coast Air Basin (Fontana).\u00a0 Journal of Geophysical Research, 123, 10,707-10,731.<\/p>\n (133) 2018 S. Chen, L. Russell, C.D. Cappa, X. Zhang, M.J. Kleeman, A. Kumar, D. Liu, V. Ramanathan.\u00a0\u00a0Comparing black and brown carbon absorption from AERONET and surface measurements at wintertime Fresno.\u00a0 Atmospheric Environment, 199, 164-176.<\/p>\n (132) 2018 J. Xue, W. Xue, M. Sowlat, C. Sioutas, A. Lolinco, A. Hasson, and M.J. Kleeman.\u00a0\u00a0Seasonal and annual source appointment of carbonaceous ultrafine particulate matter (PM0.1) in polluted California cities.\u00a0 Environmental Science and Technology, 53, 39-49.<\/p>\n (131) 2018 J. Xue, J. Peppers, C. Wan, N.Y. Kado, P.G. Green, T. Young, M.J. Kleeman.\u00a0 Ultrafine particle emissions from natural gas, biogas, and biomethane combustion.\u00a0 Environmental Science and Technology, 52, 13619-13,628.<\/p>\n (130) 2018 M.A. Venecek, C. Cai, A. Kaduwela, J. Avise, W.P.L. Carter, and M.J. Kleeman.\u00a0 Analysis of SAPRC16 Chemical Mechanism for Ambient Simulations.\u00a0 Atmospheric Environment, 192, 136-150.<\/p>\n (129) 2018 M.A. Venecek, W.P.L. Carter and M.J. Kleeman.\u00a0\u00a0Updating the SAPRC Maximum Incremental Reactivity (MIR) scale for the United States from 1988 to 2010.\u00a0 Journal of the Air and Waste Management Association,\u00a0 68, 1301-1316.<\/p>\n (128) 2018 Q. Ying, M. Feng, D.L. Song, L. Wu, J.L. Hu, H.L. Zhang, M.J. Kleeman, X.H. Li.\u00a0 Improve regional distribution and source apportionment of PM2.5 trace elements in China using inventory-observation constrained emission factors.\u00a0 Science of the Total Environment, 624, 355-365.<\/p>\n (127) 2018\u00a0C.B. Zapata, C. Yang, S. Yeh, J. Ogden, M.J. Kleeman. Estimating criteria pollutants using the California Regional Multisector Air Quality Emissions (CA-REMARQUE) model.\u00a0 Geoscientific Model Development, 11, 1293-1320.<\/p>\n (126) 2018 C.B. Zapata, C. Yang, S. Yeh, J. Ogden, M.J. Kleeman.\u00a0 Low Carbon Energy Generates Health Savings in California.\u00a0 Atmospheric Chemistry and Physics, 18, 4817-4830.<\/p>\n (125) 2017\u00a0S.H. Jathar, C. Heppding, M.F. Link, D.K. Farmer, A. Akherati, M.J. Kleeman, J.A. de Gouw, P.R. Veres, and J.M. Roberts.\u00a0Investigating Diesel Engines as an Atmospheric Source of Isocyanic Acid in Urban Areas. \u00a0Atmospheric Chemistry and Physics, 17, 8959-8970.<\/p>\n (124) 2017 J. Hu, S. Jathar, H. Zhang, Q. Ying, S. Chen, C.D. Cappa, and M.J. Kleeman. \u00a0Long-term particulate matter modeling for health effect studies in California – Part 2: Concentrations and sources of ultrafine organic aerosols. \u00a0Atmospheric Chemistry and Physics, 17, 5379-5391, doi:10.5194\/acp-17-5379-2017.<\/p>\n (123) 2016 M. Venecek, Y. Zhao, J. Mojica, C.E. McDade, P.G. Green, M.J. Kleeman, A.S. Wexler. Characterization of the 8-state rotating DRUM impactor under low concentration conditions. \u00a0Journal of Aerosol Science, 100, 140-154, 2016.<\/p>\n (122) 2016 H. Lee, S. Chen, M.J. Kleeman, H. Zhang, S.P. DeNero, D.K. Joe. Implementation of warm-cloud processes in a source-oriented WRF\/Chem model to study the effect of aerosol mixing state on fog formation in the Central Valley of California. \u00a0Atmospheric Chemistry and Physics 16, 8353-8374,\u00a0doi:10.5194\/acp-16-8353-2016.<\/p>\n (121) 2016 O. Laurent, J. Hu, L. Li, M.J. Kleeman, S.M. Bartell, M. Cockburn, L. Escobedo, J. Wu. \u00a0Low birth weight and air pollution in California: which sources and components drive the risk? \u00a0Environment International, 92, pp 471-477.\u00a0DOI:<\/span>10.1016\/j.envint.2016.04.034<\/p>\n (120) 2016 M. Wang, P. Sampson, J. Hu, M. Kleeman, J. Keller, C. Olives, A. Szpiro, S. Vedal, J. Kaufman. \u00a0Combining Land-Use Regression and Chemical Transport Modeling in a Spatio-temporal Geo-statistical Model for Ozone and PM2.5. \u00a0Environmental Science and Technology, 50, pp 5111-5118. \u00a0DOI: 10.1021\/acs.est.5b06001<\/p>\n (119) 2016\u00a0J. West, A. Cohen, F. Dentener, B. Brunekreef, T. Zhu, B. Armstrong, M. Bell, M. Brauer, G.R. Carmichael, D. Costa, D. Dockery, M.J. Kleeman, M. Krzyzanowski, N. Kunzli, C. Liousse, S. Lung, R.V. Martin, U. P\u00f6schl, C.A. Pope, J.M. Roberts, A.G. Russell, and C. Wiedinmyer. \u00a0What we breathe impacts our health: improving understanding of the link between air pollution and health. \u00a0Environmental Science and Technology 50, pp4895-4904. \u00a0DOI: 10.1021\/acs.est.5b03827.<\/p>\n (118) 2016 C.D. Cappa, S. Jathar, M.J. Kleeman, K.S. Docherty, J.L. Jiminez, J.H. Seinfeld, A.S. Wexler. \u00a0Simulating Secondary Organic Aerosol in a Regional Air Quality Model Using the Statistical Oxidation Model: 2. Assessing the Influence of Vapor Wall Losses. \u00a0Atmospheric Chemistry and Physics, 16, pp 3041-3059. \u00a0DOI:<\/span> 10.5194\/acp-16-3041-2016<\/p>\n (117) 2016 O. Laurent, J. Hu, L. Li, M. Kleeman, S. Bartell, M. Cockburn, L. Escobedo, J. Wu. \u00a0A Statewide Nested Case-Control Study of Preterm Birth and Air\u00a0Pollution by Source and Composition: California, 2001\u20132008. \u00a0Environmental Health Perspectives, 124, 1479-1486.<\/p>\n (116) 2016 S.H. Jathar, C.D. Cappa, A.S. Wexler, J.H. Seinfeld, M.J. Kleeman. \u00a0Simulating secondary organic aerosol in a regional air quality model using the Statistical Oxidation Model: 1. Assessing the influence of constrained multi-generational ageing. \u00a0Atmospheric Chemistry and Physics, 16, pp 2309-2322. \u00a0DOI:<\/span> 10.5194\/acp-16-2309-2016<\/p>\n (115) 2016 S. H. Jathar, A. Mahmud, K.C. Barsanti, W.E. Asher, J.F. Pankow, M.J. Kleeman. \u00a0Water update by organic aerosol and its influence on gas\/particle partitioning of secondary organic aerosol in the United States. \u00a0Atmospheric Environment, 129, pp 142-15. \u00a0DOI:<\/span> 10.1016\/j.atmosenv.2016.01.001<\/p>\n (114) 2015 J. Pankow, M.C. Marks, K.C. Barsanti, A. Mahmud, W.E. Asher, J. Li, Q. Ying, S.H. Jathar, M.J. Kleeman. \u00a0Molecular View Modeling of Atmospheric Organic Particulate Matter Incorporating Molecular Structure and Co-condensation of Water. \u00a0Atmospheric Environment, 122, pp 400-408. \u00a0DOI:<\/span> 10.1016\/j.atmosenv.2015.10.001<\/p>\n (113) 2015\u00a0H. Zhang,\u00a0K.T. Magara- Gomez,\u00a0M.R. Olson,\u00a0T. Okuda,\u00a0K.A. Walz, J.J. Schauer,\u00a0M.J. Kleeman. \u00a0Atmospheric impacts of black carbon emissions reductions through the strategic use of biodiesel in California. \u00a0Science of the Total Environment, 538, pp 412-422. \u00a0DOI: 10.1016\/j.scitotenv.2015.08.030.<\/p>\n (112) 2015\u00a0S.H. Jathar, C.D. Cappa, A.S. Wexler, J.H. Seinfeld and M.J. Kleeman. \u00a0Multi-generational Oxidation Model to Simulate Secondary Organic Aerosol in a 3D Air Quality Model. \u00a0Geophysical Model Development, 8, pp2553-2567.\u00a0DOI: 10.5194\/gmd-8-2553-2015.<\/p>\n (111) 2015 J. Hu, H. Zhang, Q. Ying, S. Chen, F. Vandenberghe, and M.J. Kleeman. \u00a0Long-term Particulate Matter Modeling for Health Effects Studies in California \u2013 Part I: Model Performance on Temporal and Spatial Variations. \u00a0Atmospheric Chemistry and Physics, 15(<\/span>6), pp<\/span>3445-3461<\/span>.<\/p>\n (110) 2015 B. Ostro, J. Hu, D. Goldberg, P. Reynolds, A. Hertz, L. Bernstein, and M.J. Kleeman. \u00a0Long-term exposures to fine and ultrafine particles, species and sources: Results from the California Teachers Study Cohort. \u00a0Environmental Health Perspectives, 123(<\/span>6), pp<\/span>549-556<\/span>.<\/p>\n (109) 2015 T. Kuwayama, S. Collier, S. Forestieri, J.M. Brady, T.H. Bertram, C.D. Cappa, Q. Zhang, and M.J. Kleeman. \u00a0Volatility of Primary Organic Aerosol Emitted from Light Duty Gasoline Vehicles. \u00a0Environmental Science and Technology, 49(<\/span>3),<\/span>\u00a0pp1569-1577<\/span>.<\/p>\n (108) 2015 S. Collier, S. Zhou, T. Kuwayama, S. Forestieri, J. Brady, M. Zhang, M. Kleeman, C. Cappa, T. Bertram, Q. Zhang. \u00a0Organic PM Emissions from Vehicles: Composition, O\/C ratio, and Dependence on PM Concentration. \u00a0Aerosol Science and Technology, 49(<\/span>2),<\/span>\u00a0pp86-97<\/span>.<\/p>\n (107) 2014 J.M. Brady, T.A. Crisp, S. Collier, T. Kuwayama, S. Forestieri, V. Perraud, Q. Zhang, M.J. Kleeman, C.D. Cappa, T. Bertram. \u00a0Real-time emission factor measurements of isocyanic acid from light duty gasoline vehicles. \u00a0Environmental Science and Technology, 48(19) pp 11405-11412. \u00a0DOI: 10.1021\/es504354p.<\/p>\n (106) 2014 T.A. Crisp, J.M. Brady, C.D. Cappa, S. Collier, S.D. Forestieri, M.J. Kleeman, T. Kuwayama, B.M. Lerner, E.J. Williams, Q. Zhang, T.H. Bertram. \u00a0On the primary emission of formic acid from light duty gasoline vehicles and ocean-going vessels. \u00a0Atmospheric Environment,\u00a098, pp 426-433..<\/p>\n (105) 2014 D. Wang, J. Hu, Y. Xu, D. Lv, X. Xie, M. Kleeman, J. Xing, H. Zhang, Q. Ying. \u00a0Source Contributions to Primary and Secondary Inorganic Particulate Matter during a severe PM2.5 Pollution Episode in Xi’an China, Atmospheric Environment, 97<\/span>\u00a0SI, pp<\/span>182-194<\/span>.<\/p>\n (104) 2014 O. Laurent, J. Hu, L. Li, M. Cockburn, L. Escobedo, M.J. Kleeman, J. Wu. Sources and contents of air pollution affecting term low birth weight in Los Angeles County, California, 2001-2008. \u00a0Environmental Research, 134<\/span> SI,<\/span>\u00a0 \u00a0pp488-495<\/span>.<\/p>\n (103) 2014 J. Chen, J. Lu, J. Avise, M.J. Kleeman, A. Kaduwela. \u00a0Seasonal Modeling of PM2.5 in California’s San Joaquin Valley. \u00a0Atmospheric Environment, 92<\/i>, pp\u00a0182-190<\/i>.<\/p>\n (102) 2014 H. Zhang, Q. Ying, J. Hu, M.J. Kleeman. \u00a0Source Apportionment of Sulfate and Nitrate Particulate Matter in the Eastern United States and Effectiveness of Emission Control Programs. \u00a0Science of the Total Environment, 490<\/span>\u00a0, pp171-181<\/span>.<\/p>\n (101) 2014 J. Hu, H. Zhang, S. Chen, C. Wiedinmyer, F. Vandenberghe, Q. Ying, M.J. Kleeman. \u00a0Predicting Primary PM2.5 and PM0.1 Trace Composition for Epidemiological Studies in California. \u00a0Environmental Science and Technology, 48<\/em> (9), pp 4971\u20134979, doi 10.1021\/es404809j.<\/p>\n (100) 2014 X. Zhang, C.D. Cappa, S. Jathar, R.C. McVay, J.J. Ensberg, M.J. Kleeman, and J.H. Seinfeld. \u00a0Influence of vapor wall-loss in laboratory chambers on yields of secondary organic aerosol. \u00a0Proceedings of the National Academy of Science, 111(<\/span>16),<\/span>\u00a0 \u00a0pp5802-5807<\/span>.<\/p>\n (99) 2014 J. Hu, H. Zhang, S. Chen, Q. Ying, C. Wiedinmyer, F. Vandenberghe, and M.J. Kleeman. \u00a0Identifying PM2.5 and PM0.1 Sources for Epidemiological Studies in California. \u00a0Environmental Science and Technology, 48(9), pp 4980-4990.<\/p>\n (98) 2014 H. Zhang, S.P. DeNero, D.K. Joe, H. Lee, S. Chen, J. Michalakes, and M.J. Kleeman.\u00a0 Development of a Source Oriented version of the WRF\/Chem Model and its Application to the California Regional PM10\/PM2.5 Air Quality Study.\u00a0 Atmospheric Chemistry and Physics, 14, 485-503. doi:10.5194\/acp-14-485-2014.<\/p>\n (97) 2013 H. Zhang, G. Chen, M.J. Kleeman, S. Chen, C. Wiedinmyer, Q. Ying. Evaluation of a seven-year air quality simulation using the Weather Research and Forecasting (WRF)\/Community Multiscale Air Quality (CMAQ) models in the eastern United States.\u00a0 Science of the Total Environment, \u00a0473, pp<\/span>275-285<\/span>.<\/p>\n (96) 2013 T. Kuwayama, C.R. Ruehl, and M.J. Kleeman.\u00a0 Daily Trends and Source Apportionment of Ultrafine Particulate Mass (PM0.1) over and Annual Cycle in a Typical California City.\u00a0 Environmental Science and Technology, dx.doi.org\/10.1021\/es403235c.<\/p>\n (95) 2013 D.J. Rasmussen, J. Hu, A. Mahmud, and M.J. Kleeman.\u00a0 The Ozone-climate Penalty: Past, Present, and Future.\u00a0 Environmental Science and Technology, dx.doi.org\/10.1021\/es403446m.<\/p>\n (94) 2014 D.K. Joe, H. Zhang, S.P. DeNero, H.H. Lee, S. chen, B.C. McDonald, R.A. Harley, and M.J. Kleeman.\u00a0 Implementation of a High-Resolution WRF\/Chem Model at the Port of Oakland, Atmospheric Environment, 82, pp351-363.<\/p>\n (93) 2013\u00a0Forestieri, SD, Collier, S, Kuwayama, T, Zhang, Q, Kleeman, MJ, Cappa, CD. Real-time black carbon emission factor measurements from light duty vehicles. Environmental science & technology, 47(22): 13104-12.<\/p>\n (92) 2013 L. Tao, D. Fairly, M.J. Kleeman, and R.A. Harley.\u00a0 Effects of Switching to Low Sulfur Marine Fuel Oil on air Quality in the San Francisco Bay Area.\u00a0 Environmental Science and Technology, 47, pp10171-10178.<\/p>\n (91) 2012 F. Tablin, L.J. den Hartigh, H.H. Aung, M.W. Lame, M.J. Kleeman, W. Ham, J.W. Norris, M. Pombo, D.W. Wilson.\u00a0 Seasonal Influences on CAPs Exposures: Differential Responses in Platelet Activation, Serum Cytokines, and Xenobiotic Gene Expression.\u00a0 Inhalation Toxicology, 24:8, pp506-517.<\/p>\n (90) 2012 A. Mahmud, M. Kleeman.\u00a0 Quantifying Population Exposure to Airborne Particulate Matter During Extreme Events in California Due to Climate Change.\u00a0 Atmospheric Chemistry and Physics, 12:16, pp7453-7463.<\/p>\n (89) 2012 M. Kleeman, C. Zapata, J. Stilley, and M. Hixson.\u00a0 PM2.5 Co-benefits of Climate Change Legislation Part 2: California Governor’s Executive Order S-3-05 Applied to the Transportation Sector.\u00a0 Climatic Change, 117:1, pp399-414.<\/p>\n (88) 2012 C. Zapata, N. Muller, and M.J. Kleeman.\u00a0 PM2.5 Co-benefits of Climate Change Legislation Part 1: California’s AB32.\u00a0 Climatic Change, 117:1, pp377-397.<\/p>\n (87) 2012 Kuwayama T., J.R. Schwartz, R.A. Harley, and M.J. Kleeman.\u00a0 Particulate Matter Emissions Reductions due to Adoption of Clean Diesel Technology at a Major Shipping Port.\u00a0 Aerosol Science and Technology, 47:1, pp29-36.<\/p>\n (86) 2012 Plummer L.E., W. Ham, M.J. Kleeman, A.S. Wexler, and K.E. Pinkerton.\u00a0 Influence of Season and Location on Pulmonary Response to California’s San Joaquin Valley Airborne Particulate Matter.\u00a0 Journal of Toxicology and Environmental Health (Part A – Current Issues), 75:5, pp253-271.<\/p>\n (85) 2012 Hu, J., C.J. Howard, F. Mitloehner, P.G. Green, and M.J. Kleeman.\u00a0 Mobile Source and Livestock Feed Contributions to Regional Ozone Formation in Central California.\u00a0 Environmental Science and Technology, 46:5, pp2781-2789.<\/p>\n (84) 2012 Hixson, M., A. Mahmud, J. Hu, and M.J. Kleeman.\u00a0 Resolving the Interactions between Population Density and Air Pollution Emissions Controls in the San Joaquin Valley, USA.\u00a0 Journal of the Air and Waste Management Association, 62:5, pp566-575.<\/p>\n (83) 2011 Ham, W., and M.J. Kleeman.\u00a0 Size-Resolved Apportionment of Carbonaceous Particulate Matter in Urban and Rural Atmospheres in Central California.\u00a0 Atmospheric Environment, 45(24), pp3988-3995.<\/p>\n (82) 2011 Ham, W., C. Ruehl, and M.J. Kleeman.\u00a0 Seasonal Variation of Airborne Particle Deposition Efficiency in the Human Respiratory System.\u00a0 Aerosol Science and Technology, 45(7), pp 795-804.<\/p>\n (81) 2011 Kumar, A., C.P. Alaimo, R. Horowitz, F.M. Mitloehner, M.J. Kleeman, and P.G. Green.\u00a0 Volatile Organic Compound Emissions from Green Waste Composting: Characterization and Ozone Formation.\u00a0 Atmospheric Environment, 45(10), pp 1841-1848.<\/p>\n (80) 2011 Zhao, Z. S. Chen, M.J. Kleeman, M. Tyree, D. Cayan.\u00a0 The Impact of Climate Change on Air Quality Related Meteorological Conditions in California \u2013 Part I: Present Time Simulation Analysis.\u00a0 Journal of Climate, 13, pp3344-3361, 2011.<\/p>\n (79) 2011 Zhao, Z., S. Chen, M.J. Kleeman, and A. Mahmud.\u00a0 The Impact of Climate Change on Air Quality Related Meteorological Conditions in California \u2013 Part II: Present versus Future Time Simulation Analysis.\u00a0 Journal of Climate, 13, pp3362-3376, 2011.<\/p>\n (78) 2010 Ruehl, C, W. Ham, and M.J. Kleeman.\u00a0 Temperature-induced volatility of molecular markers in ambient airborne particulate matter.\u00a0 Atmospheric Chemistry and Physics, 11(1), pp 67-76.<\/p>\n (77) 2010 den Hartigh, L.J., M.W. Lame, W. Ham, M.J. Kleeman, F. Tablin, and D.W. Wilson.\u00a0 Endotoxin and polycyclic aromatic hydrocarbons in ambient fine particulate matter from Fresno, California initiate human monocyte inflammatory responses mediated by reactive oxygen species.\u00a0 TOXICOLOGY IN VITRO, 24, 1993-2002.<\/p>\n (76) 2010 Mahmud, A., M. Hixson, J. Hu, S. Chen, and M.J. Kleeman.\u00a0 Climate Impact on Airborne Particulate Matter Concentrations in California Using Seven Year Analysis Periods.\u00a0 Atmospheric Chemistry and Physics, 10(22), pp 11097-11114.<\/p>\n (75) 2010 Chen, J., C. Jakober, S. Clegg, and M.J. Kleeman.\u00a0 Theoretical vs. Observed Gas-Particle Partitioning of Carbonyl Emissions from Motor Vehicles.\u00a0 Journal of the Air and Waste Management Assocication, 60, 1237-1244.<\/p>\n (74) 2011 Kumar, A., C.J. Howard, D. Derrick, I.L. Malkina, F.M. Mitloehner, M.J. Kleeman, C.P. Alaimo, R.G. Flocchini, and P.G. Green.\u00a0 Determination of Volatile Organic Compound Emissions and Ozone Formation from Spraying Solvent-Based Pesticides.\u00a0 Journal of Environmental Quality, 40(5), pp 1423-1431.<\/p>\n (73) 2010 Ham, W., J. Herner, P.G. Green, and M.J. Kleeman.\u00a0 Size Distributions of Health-Relevent Trace Metals in Airborne Particulate Matter During a Severe Winter Stagnation Event: Implications for Epidemiology and Inhalation Exposure Studies.\u00a0 Aerosol Science and Technology, 44, 753-765.<\/p>\n (72) 2010 Howard, C., A. Kumar, F. Mitloehner, K. Stackhouse, P. Green, R. Flocchini, M.J. Kleeman. Direct Measurements of the Ozone Formation Potential from Livestock and Poultry Waste Emissions.\u00a0 Environmental Science and Technology, 44, 2292-2298.<\/p>\n (71) 2010 Howard, C., A. Kumar, I. Malkina, P. Green, R. Flocchini, M.J. Kleeman. Reactive Organic Gas Emissions from Livestock Feed Contribute Significantly to Ozone Production in Central California.\u00a0 Environmental Science and Technology, 44, 2309-2314.<\/p>\n (70) 2009 Hixson, M., A. Mahmud, J. Hu, S. Bai, D. Niemeier, S.L. Handy, S. Gao, J.R. Lund, D. Coe Sullivan, and M.J. Kleeman. Influence of Regional Development Policies and Clean Technology Adoption on Future Air Pollution Exposure.\u00a0 Atmospheric Environment, 44, 552-562.<\/p>\n (69) 2009 Hu, J., Q. Ying, J. Chen, A. Mahmud, Z. Zhao, S. Chen, M. J. Kleeman.\u00a0 Particulate Air Quality Model Predictions using Prognostic vs. Diagnostic Meteorology in Central California.\u00a0 Atmospheric Environment, 44, 215-226.<\/p>\n (68) 2009 Wilson, D.W., H.H. Aung, M.W. Lame, L. Plummer, K.E. Pinkerton, W. Ham, M. Kleeman, J. Norris, and F. Tablin.\u00a0 Platelet and Systemic Cytokine Activation in Mice Exposed to Concentrated Ambient Particualte Matter.\u00a0 Inhalation Toxicology, 22, 267-276.<\/p>\n (67) 2009 Chen, J., Ying, Q., and Kleeman, M.J. Source Apportionment of Visual Impairment During the California Regional PM10\/PM2.5 Air Quality Study.\u00a0 Atmospheric Environment, 43, 6136-6144.<\/p>\n (66) 2009 Pinkerton, K.E., M. Ngo, S.L. Freeland, M. Geller, W. Ham, L.E. Hopkins, M.J. Kleeman, U.P. Kodavanti, E. Meharg, L. Plummer, J.J. Recendez, M.B. Schenker, C. Sioutas, S. Smiley-Jewell, A.S. Wexler, Studying Agriculture, Particles, and Health in the San Joaquin Valley, California Agriculture, 64, 12-16.<\/p>\n (65) 2009 Livingston, P.L., Magliano, K., Gurer, K., Allen, P.D., Zhan, K.M., Ying, Q., Jackson, B.S., Kaduwela, A., Kleeman, M., Woodhouse, L.F., Turkiewicz, K., Horowitz, L.W., Scott, K., Johnson, D., Taylor, C., O’Brien, G., DaMassa, J., Cores, B.E. Simulating PM Concentrations During a Winter Episode in a Subtropical Valley: Sensitivity Simulations and Evaluation Methods.\u00a0 Atmospheric Environment, 43, 5971-5977.<\/p>\n (64) 2009 Chen, J., Ying, Q., and Kleeman, M.J.\u00a0 Source Apportionment of Wintertime Secondary Organic Aerosol During the California Regional PM10\/PM25 Air Quality Study.\u00a0 Atmospheric Environment, 44, 1331-1340.<\/p>\n (63) 2009 Ying, Q., Kleeman, M.J.\u00a0 Regional Contributions to Airborne Particulate Matter in Central California During a Severe Pollution Episode.\u00a0 Atmospheric Environment, 43, 1218-1228.<\/p>\n (62) 2009 Ying, Q. Lu J., Kaduwela, A. and Kleeman, M.J.\u00a0 Modeling Air Quality during the California Regional PM10\/PM2.5 Air Quality Study (CPRAQS) using the UCD\/CIT Source Oriented Air Quality Model – Part III. Regional Source Apportionment of Secondary and Total Airborne PM2.5 and PM0.1.\u00a0 Atmospheric Environment, 43, pp419-430.<\/p>\n (61) 2008 Kleeman, M.J., Riddle, S.G., Robert, M.A., Jakober, C.A., Fine, P.M., Hays, M.D., Schauer, J.J. and Hannigan, M.P. Source Apportionment of Fine (PM1.8) and Ultrafine (PM0.1) Airborne Particulate Matter During a Severe Winter Pollution Episode.\u00a0 Environmental Science and Technology, DOI: 10.1021\/es800400.<\/p>\n (60) 2008 Mahmud, A., Tyree, M., Cayan, D., Motallebi, N., and Kleeman, M.J.\u00a0 Statistical Downscaling of Climate Change Impacts on Ozone Concentrations in California.\u00a0 Journal of Geophysical Research, 113, D21103, doi:10.1029\/2007JD009534.<\/p>\n (59) 2008 Snyder, D.C., Dallmann, T.R., Schauer, J.J., Holloway, T., Kleeman, M.J., Geller, M.D., Souitas, C.\u00a0 Direct Observation of the Break-Up of a Nocturnal Inversion Layer using Elemental Mercury as a Tracer.\u00a0 Geophysical Research Letters, 35, L17812, doi:10.1029\/2008GL034840.<\/p>\n (58) 2008 Kleeman, M.J., S.G. Riddle, and C.A. Jakober.\u00a0 Size Distribution of Particle-Phase Molecular Markers During a Severe Winter Pollution Episode.\u00a0 Environmental Science and Technology, 42, pp4697-4703.<\/p>\n (57) 2008 Riddle, S., M.A. Robert, C.A. Jakober, M.P. Hannigan, and M.J. Kleeman.\u00a0 Size-resolved Source Apportionment of Airborne Particulate Matter in a Roadside Environment.\u00a0 Environmental Science and Technology, 42, pp6580-6586.<\/p>\n (56) 2008 Ying, Q., J. Lu, P. Allen, P. Livingstone, A. Kaduwela, and M.J. Kleeman.\u00a0 Modeling Air Qualitying During the California Regional PM10\/PM2.5 Air Quality Study Using the UCD\/CIT Source-Oriented Air Quality Model – Part I.\u00a0 Base Case Model Results.\u00a0 Atmospheric Environment, 42, pp 8954-8966.<\/p>\n (55) 2008 Ying, Q., J. Lu, A. Kaduwela, and M.J. Kleeman.\u00a0 Modeling Air Qualitying During the California Regional PM10\/PM2.5 Air Quality Study Using the UCD\/CIT Source-Oriented Air Quality Model – Part II.\u00a0 Regional Source Apportionment of Primary Airborne Particulate Matter.\u00a0 Atmospheric Environment, 42, pp8967-8978.<\/p>\n (54) 2008 Yang, W., A. Kumar, C.J. Howard, M.J. Kleeman, D. Derrick, and P.G. Green.\u00a0 Towards a Field Method for Assessment of Ozone Formation Potential from Pesticide Application.\u00a0 Journal of ASTM International, 5, pp1-10 (Paper ID JAI101583).<\/p>\n (53) 2008 Jakober, C.A., M.A. Robert, S.G. Riddle, H. Destaillats, M.J. Charles, P.G. Green, and M.J. Kleeman.\u00a0 Carbonyl Emissions From Gasoline and Diesel Motor Vehicles.\u00a0 Environmental Science and Technology, 42, pp4697-4703.<\/p>\n (52) 2008 Howard, C.J., W. Yang, P.G. Green, F. Mitloehner, I. Malkina, R.G. Flocchini, and M.J. Kleeman.\u00a0 Direct Measurement of Ozone Formation Potential from Dairy Cattle Emissions Using a Transportable Smog Chamber.\u00a0 Atmospheric Environment, 42 pp5267-5277.<\/p>\n (51) 2008 Kleeman, M.J., M.A. Robert, S.G. Riddle, P.M. Fine, M.D. Hays, J.J. Schauer, and M.P. Hannigan.\u00a0 Size Distribution of Trace Organic Species Emitted From Biomass Combustion and Meat Charbroiling.\u00a0 Atmospheric Environment, 42 pp3059-3075.<\/p>\n (50) 2008 Clegg, S.L., M.J. Kleeman, R.J. Griffin, and J.H. Seinfeld.\u00a0 Effects of Uncertainties in the Thermodynamic Properties of Aerosol Components in an Air Quality Model.\u00a0 I.\u00a0 Treatment of inorganic electrolytes and organic compounds in the condensed phase.\u00a0 Atmospheric Chemistry and Physics Discussions, 8(4) pp1057-1085.<\/p>\n (49) 2008 Clegg, S.L., M.J. Kleeman, R.J. Griffin, and J.H. Seinfeld.\u00a0 Effects of Uncertainties in the Thermodynamic Properties of Aerosol (49) Components in an Air Quality Model.\u00a0 II.\u00a0 Predictions of Pure Component Vapour Pressures of Organic Compounds.\u00a0 Atmospheric Chemistry and Physics Discussions, 8(4) pp1087-1103.<\/p>\n (48) 2008 Kleeman, M.J.\u00a0 A Preliminary Assessment of the Sensitivity of Air Quality in California to Global Change.\u00a0 Climatic Change, 87 (Suppl 1), pp273-292.<\/p>\n (47) 2008 Kleeman, M.J., S.G. Riddle, M.A. Robert, and C.A. Jakober.\u00a0 Lubricating Oil and Fuel Contributions to Particulate Matter Emissions from Light Duty Gasoline and Heavy Duty Diesel Vehicles.\u00a0 Environmental Science and Technology, 42, pp235-242.<\/p>\n (46) 2007 Robert, M.A., C.A. Jakober, and M.J. Kleeman. \u00a0Size and Composition Distribution of Particulate Matter 2.\u00a0 Heavy -duty Diesel Vehicles. Journal of the Air and Waste Management Association, 57, pp1429-1438.<\/p>\n (45) 2007 Robert, M.A., C.A. Jakober, S. VanBergen, and M.J. Kleeman, Size and Composition Distribution of Particulate Matter 1.\u00a0 Light-duty Gasoline Vehicles. Journal of the Air and Waste Management Association, 57, pp1414-1428.<\/p>\n (44) 2007 Riddle, S.G., C.A. Jakober, M.A. Robert, T.M. Cahill, M.J. Charles and M.J. Kleeman. Large PAHs detected in fine particulate matter emitted from light-duty gasoline vehicles. Atmospheric Environment, 41, pp8658-8668.<\/p>\n (43) 2007 Jakober, C. A.; S.G. Riddle, M.A. Robert, H. Destaillats, M.J. Charles; P.G. Green, M.J. Kleeman. Quinone Emissions from Gasoline and Diesel Motor Vehicles.\u00a0 Environmental Science and Technology, 41 pp 4548-4554.<\/p>\n (42) 2007 Riddle SG, M.A. Robert, C.A. Jakober, M.P. Hannigan, M.J. Kleeman.\u00a0 Size distribution of trace organic species emitted from light duty gasoline vehicles.\u00a0 Environmental Science and Technology, 41, pp7464-7471.<\/p>\n (41) 2007 Riddle SG, M.A. Robert, C.A. Jakober, M.P. Hannigan, M.J. Kleeman.\u00a0 Size distribution of trace organic species emitted from heavy-duty diesel vehicles.\u00a0 Environmental Science and Technology 41 pp 1962-1969.<\/p>\n (40) 2007 Kleeman, M.J., Q. Ying, J. Lu, M.J. Mysliwiec, R.J. Griffin, J. Chen, and S. Clegg.\u00a0 Source Apportionment of Secondary Organic Aerosol During a Severe Photochemical Smog Episode.\u00a0 Atmospheric Environment, Vol 41, pp576-591.<\/p>\n (39) 2007 Ying, Q., M.P. Fraser, R.J. Griffin, J. chen, and M.J. Kleeman. Verification of a Source-Oriented Externally Mixed Air Quality Model During a Severe Photochemical Smog Episode.\u00a0 Atmospheric Environment, Vol 41, pp1521-1538.<\/p>\n (38) 2006\u00a0 Herner, J.D., J. Aw, O. Gao,\u00a0 D.P. Chang, and M.J. Kleeman, Dominant Mechanisms that Shape the Airborne Particle Size and Composition Distribution in Central California.\u00a0 Aerosol Science and Technology Vol 40, pp 827-844.<\/p>\n (37) 2006\u00a0 Jakober, C.A., M.J. Charles, M.J. Kleeman, P.G. Green.\u00a0 LC-MS analysis of carbonyl compounds and their occurrence in diesel aerosol. Analytical Chemistry, Vol 78, pp 5086-5093.<\/p>\n (36) 2006 Herner, J.D., P.G. Green, and M.J. Kleeman, Measuring the trace elemental composition of size-resolved airborne particles.\u00a0 Environmental Science and Technology 40: 1925-1933.<\/p>\n (35) 2006 Ying, Q. and M.J. Kleeman, Source contributions to the regional distribution of secondary particulate matter in California. Atmospheric Environment,\u00a0 40: 736-752.<\/p>\n (34) 2005\u00a0 Hays M.D., P.M. Fine, C.D. Geron, M.J. Kleeman, and B.K. Gullett. Open burning of agricultural biomass: Physical and chemical properties of particle-phase emissions.\u00a0 Atmospheric Environment 39: 6747-6764.<\/p>\n (33) 2005 Kleeman MJ, Ying Q, Kaduwela A. Control strategies for the reduction of airborne particulate nitrate in California’s San Joaquin Valley. Atmospheric Environment 39: 5325-5341.<\/p>\n (32) 2005 Held T., Q. Ying, M.J. Kleeman, J.J. Schauer, M.P. Fraser.\u00a0 A comparison of the UCD\/CIT air quality model and the CMB source-receptor model for primary airborne particulate matter. Atmospheric Environment.\u00a0 39: 2281-2297.<\/p>\n (31) 2005 Herner J.D., J. Aw, O. Gao, D.P.Y. Chang, M.J. Kleeman.\u00a0 Size and composition distribution of airborne particulate matter in northern California. 1. Particulate mass, carbon, and water soluble ions.\u00a0 Journal of the Air & Waste Management Association 55: 31-51.: 3689-3711.<\/p>\n (30) 2004 Held T, Q. Ying, A. Kaduwela, M.J. Kleeman.\u00a0 Modeling particulate matter in the San Joaquin Valley with a source-oriented externally mixed three-dimensional photochemical grid model. Atmospheric Environment 38(22): 3689-3711.<\/p>\n (29) 2004 Ying Q, M. Mysliwiec, M.J. Kleeman.\u00a0 Source apportionment of visibility impairment using a three-dimensional source-oriented air quality model.\u00a0 Environmental Science and Technology 38(4) 1089-1101.<\/p>\n (28) 2003 Ying Q, M.J. Kleeman.\u00a0 Effects of aerosol UV extinction on the formation of ozone and secondary particulate matter.\u00a0 Atmospheric Environment 37 (36): 5047-5068.<\/p>\n (27) 2003 Aw J, M.J. Kleeman.\u00a0 Evaluating the first-order effect of intraannual temperature variability on urban air pollution.\u00a0 Journal of Geophysical Research – Atmospheres 108 (D12) Art. No. 4365.<\/p>\n (26) 2003 Foresman E.L., M.J. Kleeman, T.P. Kear, D.N. Niemeier. PM10 conformity determination using the equivalent emissions method. Transportation Research Part D – Transport and the Environment. 8: 97-112.<\/p>\n (25) 2002 Griffin R.J., D. Dabdub, M.J. Kleeman, M.P. Fraser, G.R. Cass, J.H. Seinfeld. Secondary organi aerosol – 3. Urban \/ regional scale model of size- and composition-resolved aerosols. Journal of Geophysical Research. 107: Sept 2002.<\/p>\n (24) 2002 Mysliwiec M.J., M.J. Kleeman. Source apportionment of secondary particulate matter in a polluted atmosphere. Environmental Science and Technology. 36: 5376-5384.<\/p>\n (23) 2002 Bhave P.V., M.J. Kleeman, J.O. Allen, L.S. Hughes, G.R. Cass. Evaluation of an air quality model for the size and composition of source-oriented particle classes. Environmental Science and Technology. 36: 2154-2163.<\/p>\n (22) 2002 Schauer J.J., M.J. Kleeman, G.R. Cass, B.R.T. Simoneit. Measurement of emissions from air pollution sources. 3. C-1-C-32 organic compounds from gasoline-powered motor vehicles. Environmental Science and Technology, 36:1169-1180.<\/p>\n (21) 2002 Schauer J.J., M.J. Kleeman, G.R. Cass, B.R.T. Simoneit. Measurement of emissions from air pollution sources. 3. C-1-C-27 organic compounds from cooking with seed oils. Environmental Science and Technology, 36:567-575.<\/p>\n (20) 2001 Kleeman M.J., G.R. Cass. A 3D Eulerian source-oriented model for an externally mixed aerosol. Environmental Science and Technology, 35: 4834-4848.<\/p>\n (19) 2001 Kleeman M.J., A. Eldering, J.R. Hall, G.R. Cass. Effect of emissions control programs on visibility in Southern California. Environmental Science and Technology, 35: 4668-4674.<\/p>\n (18) 2001 Chung A., J.D. Herner, M.J. Kleeman. Detection of alkaline ultrafine atmospheric particles at Bakersfield, California. Environmental Science and Technology, 35: 2184-2190.<\/p>\n (17) 2001 Schauer J.J., M.J. Kleeman, G.R. Cass, B.R.T. Simoneit. Measurement of emissions from air pollution sources. 3. C-1-C-29 organic compounds from fireplace combustion of wood. Environmental Science and Technology, 35:1716-1728.<\/p>\n (16) 2001 Chung A., D.P.Y. Chang, M.J. Kleeman, K.D. Perry, T.A. Cahill, D. Dutcher, E.M. McDougall, K. Stroud. Comparison of real-time instruments used to monitor airborne particulate matter. Journal of the Air & Waste Management Association, 51: 109-120.<\/p>\n (15) 2000 Cass G.R., L.S. Hughes, P. Bhave, M.J. Kleeman, J.O. Allen, L.G. Salmon. The chemical composition of atmospheric ultrafine particles. Philosophical Transactions of the Royal Society of London. Series A-Mathemcatical Physcial and Engineering Sciences. 358: 2581-2592.<\/p>\n (14) 2000 Hughes L.S., J.O. Allen, P. Bhave, M.J. Kleeman, G.R. Cass, D.Y. Liu, D.F. Fergenson, B.D. Morrical, K.A. Prather. Evolution of atmospheric particles along trajectories crossing the Los Angeles basin. Environmental Science and Technology, 34: 3058-3068.<\/p>\n (13) 2000 Kleeman, M.J., J.J. Schauer, and G.R. Cass. Size and Composition Distribution of Fine Particulate Matter Emitted from Motor Vehicles. Environmental Science, and Technology, 34:1132-1142.<\/p>\n (12) 2000 Fraser, M.P., M.J. Kleeman, J.J. Schauer, and G.R. Cass. Modeling the Atmospheric Concentrations of Individual Gas-Phase and Particle-Phase Organic Compounds. Environmental Science and Technology, 34:1302-1312.<\/p>\n (11) 2000 Allen, J.O., D.P. Fergenson, E.E. Gard, L.S. Hughes, B.D. Morrical, M.J. Kleeman, D.S. Gross, M.E. Galli, K.A. Prather and G.R. Cass. Particle Detection Efficiencies of Aerosol Time of Flight Mass Spectrometers under Ambient Sampling Conditions. Environmental Science, and Technology, 34:211-217.<\/p>\n (10) 1999 Kleeman, M.J., and G.R. Cass. Effect of Emissions Control Strategies on the Size and Composition Distribution of Urban Particulate Air Pollution. Environmental Science and Technology, 33: 177-189.<\/p>\n (9) 1999 Kleeman, M.J., and G.R. Cass. Identifying the Effect of Individual Emissions Sources on Particulate Air Quality Within a Photochemical Aerosol Processes Trajectory Model. Atmospheric Environment, Atmospheric Environment 33:4597-4613.<\/p>\n (8) 1999 Kleeman, M.J., J.J. Schauer, and G.R. Cass. Size and Composition Distribution of Fine Particulate Matter Emitted from Wood Burning, Meat Charbroiling and Cigarettes. Environmental Science, and Technology, Environmental Science, and Technology, 33:3516-3523.<\/p>\n (7) 1999 Kleeman, M.J., L.S. Hughes, J.O. Allen, and G.R. Cass. Source Contributions to the Size and Composition Distribution of Atmospheric Particles: Southern California in Septemeber, 1996. Environmental Science, and Technology, 33:4331-4341.<\/p>\n (6) 1999 Hughes, L.S., J.O. Allen, M.J. Kleeman, R.J. Johnson, G.R. Cass, D.S. Gross, E.E. Gard, M.E. Galli, B.D. Morrical, D.P. Fergenson, T. Dienes, C.A. Noble, P.J. Silva, K.A. Prather. Size and Composition Distribution of Atmospheric Particles in Southern California. Environmental Science and Technology, 33:3506-3515.<\/p>\n (5) 1999 Schauer, J.J., M.J. Kleeman, G.R. Cass, B.R.T. Simoneit. Measurement of Emissions from Air Pollution Sources. 1. C-1 through C-29 Organic Compounds from Meat Charbroiling. Environmental Science and Technology 33:1566-1577.<\/p>\n (4) 1999 Schauer, J.J.; M.J. Kleeman, G.R. Cass, B.R.T. Simoneit. Measurement of Emissions from Air Pollution Sources. 2. C-1 through C-30 Organic Compounds from Medium Duty Diesel Trucks. Environmental Science and Technology 33:1578-1587.<\/p>\n (3) 1998 Gard, E.E., M.J. Kleeman, D.S. Gross, L.S. Hughes, J.O. Allen, B.D. Morrical, D.P. Fergenson. T. Dienes, M.E. Galli, R.J. Johnson, G.R. Cass, and K.A. Prather. Direct Observations of Heterogeneous Chemistry in the Atmosphere. Science, 279:1184-1187.<\/p>\n (2) 1998 Kleeman, M.J., and G.R. Cass. Source Contributions to the Size and Composition Distribution of Urban Particulate Air Pollution. Atmospheric Environment, 32:2803-2816.<\/p>\n (1) 1997 Kleeman, M.J., A. Eldering and G.R. Cass. Modeling the Airborne Particle Complex as a Source-Oriented External Mixture. Journal of Geophysical Research, 102:21355-21372.<\/p>\n","protected":false},"excerpt":{"rendered":" (184) 2026 M.J. Jerrett, C.L. Nau, D.R. Young, R.K. Butler, C.M. Batteate, A. Padilla, S.Y. Tartof, J. Su, J. Jiang, R.T. Burnett, M.J. Kleeman.\u00a0 Association Between Air Pollution and Post Acute Sequelae of SARS-CoV-2 (PASC).\u00a0 American Journal of Respiratory and Critical Care Medicine, provisionally accepted for publication. (183) 2026 K. \u2026 Continue reading