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Publications

Peer-Reviewed Journal Papers (6 published, 2 submitted, 1 in prep)

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  1. Ivey CE, Shi GL, Holmes HA, Hu YT, Mulholland JA, and Russell AG. “Development of PM2.5 source profiles using a hybrid chemical transport-receptor modeling approach.” (In Preparation for submission to Atm. Chem. Phys.; Manuscript Available)

  2. Sun X, Holmes HA, Osibanjo OO, Sun Y, Ivey CE, Xiao H, Yuan L. Evaluation of Surface Fluxes in the WRF Model: Case Study for Irrigated Farmland in Rolling Terrain. (Submitted to J. App. Met. Clim.)

  3. Huang R, Zhai X, Ivey CE, Friberg MD, Hu X, Liu Y, Mulholland JA, Russell AG. Air Pollutant Exposure Field Modeling Using Air Quality Model-Data Fusion Methods for assimilating models and observations, and Comparison with Satellite AOD-derived Fields: An application over North Carolina, USA. (Submitted to J. Exp. Sci. Env. Epi.)

  4. Shi GL, Peng X, Huangfu Y, Wang W, Xu J, Tian YZ, Feng YC, Ivey CE, and Russell AG (2017). Quantification of source impact to PM using three-dimensional weighted factor model analysis on multi-site data​. Atm. Env., 160, 89-96.

  5. Ivey CE, Holmes HA, Hu YT, Mulholland JA, and Russell AG (2016).  A method for quantifying bias in modeled concentrations and source impacts for secondary particulate matter. Front. Env. Sci. Eng., 10 (5), 14.

  6. Peng X, Shi GL, Gao J, Liu JY, HuangFu YQ, Ma T, Wang HT, Zhang YC, Ivey CE, and Feng YC (2016). Characteristics and sensitivity analysis of multiple time-resolved emission patterns of PM2.5 sources with real time data using Multilinear Engine 2.  Atm. Env., 139, 113-121.

  7. Redman JD, Holmes HA, Balachandran S, Maier ML, Zhai X, Ivey CE, Digby K, Mulholland JA, and Russell AG (2016). Development and Evaluation of a Daily Temporal Interpolation Model for Fine Particulate Matter Species Concentrations and Source Apportionment. Atm. Env., 140, 529-538.

  8. Ivey CE, Holmes HA, Hu YT, Mulholland JA, and Russell AG (2015). Development of PM2.5 source impact spatial fields using a hybrid source apportionment air quality model. Geosci. Model Dev., 8, 2153-2165, doi:10.5194/gmd-8-2153-2015.

  9. Hu YT, Balachandran S, Pachon J, Baek J, Ivey CE, Holmes HA, Odman MT, Mulholland JA, and Russell AG (2014). “Fine Particulate Matter Source Apportionment Using a Hybrid Chemical Transport and Receptor Model Approach.” Atm. Chem. Phys., 14, 5415-5431.

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Conference Proceedings

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  1. Ivey CE, Holmes HA, Hu YT, Mulholland JA, and Russell AG. “Application of a Hybrid Chemical Transport-Receptor Model to Develop Region-Specific Source Profiles for PM2.5 Sources and to Assess Source Impact Changes in the United States.” Air Pollution Modeling and Its Application XXIV, Springer, pg. 489-495, 2016.

  2. Ivey CE, Holmes HA, Hu YT, Mulholland JA, and Russell AG. “Spatial and Temporal Extension of a Novel Hybrid Source Apportionment Model.” Air Pollution Modeling and Its Application XXIII, pg. 611-615, Springer, 2014.

  3. Holmes HA, Zhai X, Redman J, Digby K, Ivey CE, Balachandran S, Sororian S, Friberg M, Zhang W, Maier M, Hu YT, Russell AG, Mulholland JA, and Chang H. “Improved spatiotemporal air pollutant mixtures characterization for health studies.” Air Pollution Modeling and Its Application XXIII, Springer, pg. 25-30, 2014.

  4. Russell AG, Holmes HA, Friberg M, Ivey CE, Hu YT, Balachandran S, Mulholland JA, Tolbert P, Sarnat J, Sarnat S, Strickland M, Chang H, and Liu Y. “Use of air quality modeling results in health effects research.” Air Pollution Modeling and Its Application XXIII, Springer, pg. 1-5, 2014.

  5. Sororian S, Holmes HA, Friberg M, Ivey CE, Hu YT, Mulholland JA, and Russell AG, Strickland M, Chang H. "Temporally and spatially resolved air pollution in Georgia using fused ambient monitoring data and chemical transport model results." Air Pollution Modeling and Its Application XXIII, Springer, pg. 301-306, 2014.

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