• [A11C-0032] Building a Sectional Aerosol Model in CAM5
• [A11C-0033] Is the radiative forcing due to black carbon aerosols as large as some recent studies suggest?
• [A11C-0034] Calculation and use of metrics to estimate Near-term Climate Forcing
• [A11C-0035] Modeling Study of the Contribution of Wildfires to Ambient Black Carbon Concentrations
• [A11C-0036] Investigating Optical Properties of Carbonaceous Aerosols and their Global Radiative Impacts
• [A11C-0037] Optical properties of soot particles: measurement - model comparison
• [A11C-0038] Particle Morphology From Wood-Burning Cook Stoves Emissions
• [A11C-0039] Vehicular Diesel control emissions benefit assessment in Mexico City
• [A11C-0040] Commuter exposure to black carbon, carbon monoxide, and noise in the mass transport khlong boats of Bangkok, Thailand
• [A11C-0041] Sources of black carbon in the Arctic Troposphere
• [A11C-0042] Real-Time Measurements of Ethane for Source Attribution of Methane Plumes from Oil and Gas Facilities
• [A11C-0043] Assessing Rates of Global Warming Emissions from Port- Fuel Injection and Gasoline Direct Injection Engines in Light-Duty Passenger Vehicles
• [A11C-0044] Tracking the sources of tropospheric ozone
• [A11C-0045] Contributions of diesel vehicle emissions to Arctic black carbon in the OsloCTM2
• [A11C-0046] Black Carbon And Co-Pollutants Emissions And Energy Efficiency From Bricks Production In Guanajuato, Mexico
• [A11C-0047] North Atlantic Oscillation and pollutants variability in Europe: model analysis and measurements intercomparison
• [A11C-0048] Transport of Mineral Dust Aerosols to the Arctic
• [A11C-0049] Investigating high concentrations of three greenhouse gases in the Los Angeles Basin and San Bernardino Valley
• [A11C-0050] Modeling methane emissions by cattle production systems in Mexico
• [A11C-0051] Measurements of Enhanced Black Carbon and Brown Carbon Absorption in Biomass Burning Emissions
• [A11C-0052] Cookstove Emissions Quantified with the Aerodyne Mobile Laboratory During the Short Lived Climate Forcing (SLCF) 2013 Campaign in Pátzcuaro Mexico
• [A11C-0053] Black Carbon Flux Across the Himalaya through the Kali Gandaki Valley in Nepal
• [A11C-0054] The scavenging processes controlling the seasonal cycle in Arctic sulphate and black carbon aerosol
• [A11C-0055] Seasonal variations of Asian black carbon outflow to the Pacific: Contribution from anthropogenic sources in China and biomass burning sources in Siberia and Southeast Asia
• [A11C-0056] The Arctic is especially sensitive to black carbon emissions from within the region
• [A11C-0057] Investigating the forcing-per-emission relationship of regional BC direct and cloud-related climate effects
• [A11C-0058] Shifting seasonal cycles of surface ozone: the role of regional vs. global emission changes
• [A11C-0059] Evolution of biomass burning aerosol over the Amazon: airborne measurements of aerosol chemical composition, microphysical properties, mixing state and optical properties during SAMBBA
• [A11C-0060] Black Carbon, CO2, CO, CH4, and C2-C4 Hydrocarbon Emissions from Agricultural Residue Burning
• [A11C-0061] Methane emissions by management and treatment of municipal wastewater in Mexico 2010
• [A11C-0062] Initial characterization of surface-based carbonaceous aerosol during DISCOVER-AQ in Houston, TX
• [A11C-0063] The climate impact of ship NOx emissions: uncertainties due to plume chemistry