Sensitivity analysis of tropospheric ozone to modified biogenic emissions for the Mid-Atlantic region

[1]  D. Wuebbles,et al.  A summer simulation of biogenic contributions to ground‐level ozone over the continental United States , 2003 .

[2]  M. Wesely,et al.  Estimates of biogenic emissions using satellite observations and influence of isoprene emission on O3 formation over the eastern United States , 2002 .

[3]  Contribution of biogenic emissions to the formation of ozone and particulate matter in the eastern United States. , 2002, Environmental science & technology.

[4]  Effects of temperature and land use on predictions of biogenic emissions in Eastern Texas, USA , 2002 .

[5]  Christian Hogrefe,et al.  Evaluating the performance of regional-scale photochemical modeling systems. Part III—Precursor predictions , 2001 .

[6]  S. E. Alexander,et al.  Modeling biogenic emissions of isoprene: exploration of model drivers, climate control algorithms, and use of global satellite observations , 2001 .

[7]  D. Allen,et al.  A land use database and examples of biogenic isoprene emission estimates for the state of Texas, USA , 2001 .

[8]  John N. McHenry,et al.  Evaluating the performance of regional-scale photochemical modeling systems: Part I—meteorological predictions , 2001 .

[9]  J. Palutikof,et al.  Climate change 2007 : impacts, adaptation and vulnerability , 2001 .

[10]  G. Kallos,et al.  An Operational Evaluation of Two Regional-Scale Ozone Air Quality Modeling Systems over the Eastern United States. , 2001 .

[11]  H. Peltola,et al.  Impact of global warming on the tree species composition of boreal forests in Finland and effects on emissions of isoprenoids , 2001 .

[12]  J M Samet,et al.  The potential impacts of climate variability and change on air pollution-related health effects in the United States. , 2001, Environmental health perspectives.

[13]  D. Dokken,et al.  Climate change 2001 , 2001 .

[14]  H. Christopher Frey,et al.  Uncertainties in predicted ozone concentrations due to input uncertainties for the UAM-V photochemical grid model applied to the July 1995 OTAG domain , 2001 .

[15]  B. Lamb,et al.  Biogenic Hydrocarbons in the Atmospheric Boundary Layer: A Review , 2000 .

[16]  William F. Ryan,et al.  Air Quality Forecasts in the Mid-Atlantic Region: Current Practice and Benchmark Skill , 2000 .

[17]  A. Russell,et al.  Modeling and Direct Sensitivity Analysis of Biogenic Emissions Impacts on Regional Ozone Formation in the Mexico-U.S. Border Area , 2000, Journal of the Air & Waste Management Association.

[18]  Robin L. Dennis,et al.  NARSTO critical review of photochemical models and modeling , 2000 .

[19]  David J. Nowak,et al.  A modeling study of the impact of urban trees on ozone. , 2000 .

[20]  B. Lamb,et al.  Natural emissions of non-methane volatile organic compounds, carbon monoxide, and oxides of nitrogen from North America , 2000 .

[21]  R. Monson,et al.  Modelling changes in VOC emission in response to climate change in the continental United States , 1999 .

[22]  J. Kesselmeier,et al.  Biogenic Volatile Organic Compounds (VOC): An Overview on Emission, Physiology and Ecology , 1999 .

[23]  D. Byun Science algorithms of the EPA Models-3 community multi-scale air quality (CMAQ) modeling system , 1999 .

[24]  F. Vukovich Aspects of subregional ozone variations in the SOS region , 1998 .

[25]  Robin L. Dennis,et al.  Influence of increased isoprene emissions on regional ozone modeling , 1998 .

[26]  Comparison of the MC2/CALGRID and SAIMM/UAM-V photochemical modelling systems in the Lower Fraser Valley, British Columbia , 1998 .

[27]  Shengdong Wang Observational and mechanistic studies of tropospheric ozone/precursors relationships , 1998 .

[28]  J. Seinfeld,et al.  Atmospheric Chemistry and Physics: From Air Pollution to Climate Change , 1998 .

[29]  S. Hanna,et al.  Evaluation of photochemical grid models (UAM-IV, UAM-V, and the ROM/UAM-IV couple) using data from the lake michigan ozone study (LMOS) , 1996 .

[30]  P. Thunis,et al.  Effects of uncertainties in meteorological inputs on urban airshed model predictions and ozone control strategies , 1996 .

[31]  Sensitivity of urban airshed model results for test fuels to uncertainties in light-duty vehicle and biogenic emissions and alternative chemical mechanisms—Auto/oil air quality improvement research program , 1995 .

[32]  Michael O. Rodgers,et al.  Photochemistry of ozone formation in Atlanta, GA-Models and measurements☆ , 1995 .

[33]  F. Vukovich Regional-scale boundary layer ozone variations in the eastern United States and their association with meteorological variations , 1995 .

[34]  William F. Ryan,et al.  Forecasting severe ozone episodes in the Baltimore metropolitan area , 1995 .

[35]  C. Geron,et al.  Reassessment of biogenic volatile organic compound emissions in the Atlanta area , 1995 .

[36]  Evaluation of CALGRID using two different ozone episodes and comparison to UAM results , 1994 .

[37]  Stephen D. Piccot,et al.  A global inventory of volatile organic compound emissions from anthropogenic sources , 1992 .

[38]  Dennis E. McNally,et al.  Photochemical Modeling of Two 1984 SCCCAMP Ozone Episodes , 1991 .

[39]  J. V. Baglio,et al.  Climate change and isoprene emissions from vegetation , 1991 .

[40]  W. Chameides,et al.  The role of biogenic hydrocarbons in urban photochemical smog: Atlanta as a case study. , 1988, Science.

[41]  F. Lurmann,et al.  Modeling potential ozone impacts from natural sources—III. Ozone modeling in Tampa/St. Petersburg, Florida , 1984 .

[42]  F. Lurmann,et al.  Modeling potential ozone impacts from natural hydrocarbons—II. Hypothetical biogenic HC emission scenario modeling , 1983 .

[43]  L B Lave,et al.  Air pollution and human health. , 1977, Science.