Poster presenters MUST confirm their attendance by registering for the conference by 1 August 2016
Abstracts whose presenting author has not registered for the conference by this deadline will be withdrawn.
The poster session for scientific sessions 1, 3 and 6 will be on Tuesday 27 September from 8am-11am.
The poster session for scientific sessions 2, 4 and 5 will be on Thursday 29 September from 8am-11am.
Poster presenters should be at their poster from 9am-11am on the day of their poster presentation.
Poster presentation guidelines are available here.
Session Numbers and Names
1. Atmospheric Chemistry and Urbanization
2. Atmospheric Chemistry, Ecosystems and Agriculture
3.Atmospheric Chemistry and Energy
4.Atmospheric Chemistry and Fundamental Studies
5. Atmospheric Chemistry and Climate Change
6. Atmospheric Chemistry: Observing Composition and Variability
List of CONFIRMED abstracts under poster presentations can be found here.
Use keywords such as: Abstract ID, Name, Title, Affiliation etc to filter the list according to your convenience.
Abstract ID format: Session Number.Abstract Number. Session numbers are listed above.
| Abstract ID Programmed for php | Abstract Title | Presenting Author and Affiliation |
|---|---|---|
| 1.004 | Air pollution in Rwanda, a growing East African country | Helen Langley DeWitt, MIT |
| 1.006 | Modelling urban δ13C variations in the Greater Toronto Area | Stephanie Pugliese (Early Career Scientist), Department of Chemistry, University of Toronto, Canada |
| 1.013 | Evaluation of surface emissions in Asia | Louise GRANIER (Early Career Scientist), LATMOS/IPSL |
| 1.014 | Impacts of meteorological factor and aerosol chemical compositions on visibility impairment in Nanjing, China | Xingna YU, Nanjing University of Information Science and Technology |
| 1.016 | Chemical Composition of PM10 a background site in Leicester, UK:Correlation between Levoglucosan and PNSD | Sarkawt Muhammad Lateef Hama (Early Career Scientist), University of Leicester, Department of Chemistry, Leicester, United Kingdom |
| 1.022 | Dependence of Simulated Tropospheric Ozone Trends on Uncertainties in U.S. Vehicle Emissions. | Sarah A Monks, CIRES/NOAA |
| 1.024 | Photochemical smog modeling for ozone air quality management in Bangkok Metropolitan Region | Didin Agustian Permadi (Early Career Scientist), Environmental Engineering and Management Field of Study, Asian Institute of Technology (AIT), Bangkok, Thailand |
| 1.026 | Modeling of the anthropogenic heat flux and its effect on air quality over the Yangtze River Delta region, China | Min Xie, Nanjing University |
| 1.027 | Airborne Observations of Water Vapor Stable Isotope Ratios in the Lower Troposphere around Washington, D.C. and Indianapolis | Olivia Salmon (Early Career Scientist), Purdue University |
| 1.030 | Airborne Particles in the Urban-Marine Environment | Doreena Dominick (Early Career Scientist), University of Wollongong |
| 1.031 | Factors contributing to the haze pollution in Wuhan during October 2014: local Emissions, regional transport and biomass burning | MIAOMIAO LU (Early Career Scientist), Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, China |
| 1.034 | The Global Reactive Carbon Budget of the Troposphere: a Modeling Perspective | Sarah Safieddine (Early Career Scientist), Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, Cambridge, MA, USA |
| 1.035 | Monitoring and Forecasting Air Quality over China: Results from the PANDA Modeling System | IDIR BOUARAR, Max Planck Institute for Meteorology, Hamburg, Germany |
| 1.036 | Evaluation of the MOSAIC air quality box model using recent field campaign observations | Yunha Lee, Washington State University |
| 1.038 | Isotopic constraints on sulfate and nitrate aerosol formation mechanisms in Chinese haze events | Becky Alexander, University of Washington |
| 1.039 | Influence of NOx emissions on Central Valley fog frequency and persistence | Ellyn Gray (Early Career Scientist), UC Berkeley |
| 1.040 | Investigating Combustion and Emission Trends in Megacities through Synthesis of Combustion Signatures Using Multiple Datasets | Wenfu Tang (Early Career Scientist), University of Arizona |
| 1.047 | Investigation of Secondary Organic Aerosol (SOA) formation pathways in Beijing using an observation-based SOA model | Wenyi Yang (Early Career Scientist), LAPC, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, China |
| 1.050 | Improving our understanding air quality satellite measurements: an update from KORUS-AQ | Barry Lefer, NASA |
| 1.058 | Quantifying uncertainties in multi-pollutants health impacts in urban/rural regions across the UK | Sara Fenech (Early Career Scientist), School of GeoSciences, University of Edinburgh |
| 1.060 | Nitrogen oxides and specified hydrocarbons – twenty years of ambient observations in air masses dominated by traffic emissions in Germany | Christian Ehlers (Early Career Scientist), Research Centre Jülich, Institute IEK-8:Troposphere, 52428 Jülich, Germany |
| 1.066 | Does vehicular use ban program will improve air quality in Mexico Megacity? | Jose-Agustin Garcia-Reynoso, Universidad Nacional Autonoma de México, Centro de Ciencias de la Atmosfera, Mexico City, Mexico |
| 1.073 | Nitryl chloride as a ‘new’ radical source and its impact on ozone in polluted troposphere: an overview of field measurement and model results in China | Tao Wang, Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hong Kong, China |
| 1.075 | Improving the short-term air quality predictions over the U.S. using chemical data assimilation and analog-based uncertainty | Rajesh Kumar, NCAR |
| 1.078 | Supporting decision-making processes through the analysis of air quality policies acceptability | Michela Maione, University of Urbino |
| 1.081 | Evaluation of performance of simulated secondary pollutants by using air quality models for urban areas in Japan | Kazuyo Yamaji, Kobe University, Kobe, Japan |
| 1.083 | Analysis of first PM2.5 samples from a Harvard Impactor located in the city of Natal, Brazil | Ediclê Duarte (Early Career Scientist), Federal University of Rio Grande do Norte - Graduate Program in Climate Sciences |
| 1.088 | Ozone variations at and around a high altitude site in the central Himalayas | Manish Naja, ARIES |
| 1.089 | High resolution simulations of black carbon aerosols and their vertical stratification over Santiago and its transport to the Andean cryosphere | Andrea Paz Orfanoz-Cheuquelaf (Early Career Scientist), CR2, Universidad de Chile |
| 1.094 | The causes and consequences of unanticipated decreases in carbonaceous aerosol over the U.S. between 1990 - 2012 | David Andrew Ridley, Massachusetts Institute of Technology |
| 1.101 | Health risk assessment of toxic heavy metals in fine particles of road dusts in Dhaka city, Bangladesh | Hossain Khan Md. Dulal (Early Career Scientist), Department of Chemistry, University of Dhaka, Dhaka-1000, Bangladesh |
| 1.102 | Using a mobile laboratory and continue wavelet transform to evaluate vehicular emission in megacity Beijing | Tong Zhu, State Key Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University |
| 1.103 | Volatile Organic Compounds at the Urban, Marine and Biogenic interface in South-East Australia | Elise-Andree Guerette (Early Career Scientist), Centre for Atmospheric Chemistry, University of Wollongong |
| 1.104 | Evaluation of VOC emissions from vehicles during parking events in Japan | Hiroyuki Yamada, National Traffic Safety and Environment Laboraoty |
| 1.113 | Insights into the contribution of residential biomass burning to urban pollution in two Colorado cities | Matthew Coggon (Early Career Scientist), University of Colorado, Cooperative Institute for Research in Environmental Sciences, Boulder, CO, USA |
| 1.115 | A world avoided: Impacts of changes in anthropogenic emissions on the burden and impacts of air pollutants | Alexander Archibald, Cambridge University & NCAS |
| 1.117 | Role of Automobile Exhaust on the Photoreductive Solubilization of Atmospheric Iron | John Haynes (Early Career Scientist), University of Denver, Department of Chemistry and Biochemistry, Denver, Colorado, USA |
| 1.119 | In-use heavy-duty diesel vehicle emission measurements used to investigate the durability of diesel particulate filters | Molly Haugen (Early Career Scientist), University of Denver |
| 1.122 | EMISSIONS AND ATMOSPHERIC CHEMISTRY FROM HAVANA´ STATIONARY SOURCES | Osvaldo Cuesta -Santos, Air pollution and Atmospheric Chemistry Center, Cuban Meteorological Institute, Havana, Cuba |
| 1.125 | First results from a field campaign at a high altitude urban metropolitan area in the Central Andes | Marcos Froilan Andrade Flores, Laboratory for Atmospheric Physics, Institute for Physical Research, Universidad Mayor de San Andrés, La Paz, Bolivia |
| 1.127 | Impacts of the decadal urbanization on thermal circulations and ozone production in the Pearl River Delta region, China | Mengmeng Li (Early Career Scientist), School of Atmospheric Sciences, Nanjing University, Nanjing, China |
| 1.129 | Vehicle Emissions and Urban Air Quality: Fundamentals, Trends, and Challenges | Timothy John Wallington, Ford Motor Company |
| 1.134 | Chemical characterization and source apportioning of Particulate Matter(PM10 and PM2.5) during winter fog season(2015-2016) in the three megacities of Pakistan | Gufran Bulbul (Early Career Scientist), Department of Space Science, Institute of Space Technology Islamabad Pakistan |
| 1.139 | Hemispheric and regional source-receptor relationships for air pollution in East Asia | Michael Gauss, Norwegian Meteorological Institute, Bergen, Norway |
| 1.140 | Modeling and Constraining the Production and Composition of Secondary Organic Aerosol from a Diesel Engine using Parameterized and Semi-Explicit Chemistry and Thermodynamics Models | Sailaja Eluri (Early Career Scientist), Colorado State University |
| 1.146 | Use of concurrent top down approaches to assess emissions inventories for the central Mexico cities belt | Luis Gerardo Ruiz Suárez, Universidad Nacional Autónoma de México, Centro de Ciencias de la Atmósfera, Coyoacan, Ciudad de México, 04510, México |
| 1.147 | Response of winter fine particulate matter concentrations to emission and meteorology changes in North China | Meng Gao (Early Career Scientist), The University of Iowa |
| 1.149 | Implementation of a high-resolution WRF-Chem CO tracer model in Buenos Aires, Argentina. | Felix Carrasco (Early Career Scientist), Centro de Investigaciones del Mar y la Atmósfera (CIMA-CONICET-UBA), Buenos Aires, Argentina |
| 1.151 | The vehicles emissions reduce by catalytic oxidation of carbon monoxide on nano-catalyst . | Sadig Hasanov (Early Career Scientist), Huseyn |
| 1.155 | Spatial and temporal trend of Persistent Organic Pollutants in airborne particle matter in Metropolitan Area of Mexico City | Erik Beristain-Montiel (Early Career Scientist), Universidad Nacional Autónoma de México, Atmospheric Science Center, Mexico City, D.F., Mexico |
| 1.156 | Air pollution in Mexico City from remote sensing measurements | Wolfgang Stremme, Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de Mexico (UNAM), Mexico City, Mexico |
| 1.157 | An investigation of air pollution levels along selected roads in Nairobi, Kenya | Zablon Weku Shilenje (Early Career Scientist), Kenya Meteorological Department, P. O. Box 30259, Nairobi, Kenya |
| 1.158 | Spatial distribution of gaseous pollutants (NOx, SO2, NH3, HNO3 and O3) in Abidjan, Côte d’Ivoire | DAGAUD JULIEN EYMARD BAHINO (Early Career Scientist), Laboratoire de Physique de l'Atmosphere et de Mécanique des Fluides , UFR SSMT, Universite Felix Houphouet Boigny, Abidjan, Cote d'Ivoire |
| 1.159 | Chemical composition and source apportionment of PM2.5 in Beijing based on daily samples collected in 2012-2014 | Yanhua Fang (Early Career Scientist), State Key Joint Laboratory of Environmental Simulation and Pollution Control,College of Environmental Sciences and Engineering, Peking University, Beijing, China |
| 1.165 | An estimation of NOx emissions from OMI-observed NO2 columns over East Asia | Kyung Man HAN, Gwangju Institute of Science and Technology, School of Earth Science and Environmental Engineering, Gwangju, South Korea |
| 1.167 | Urban areas of central and southern Chile exceed particulate matter air quality thresholds | Manuel A. Leiva Guzmán, Center for Environmental Sciences and Chemistry Department, Faculty of Sciences, University of Chile |
| 1.168 | Clean Air and Urban Landscapes: Towards a Clean Air Plan for Western Sydney | Clare Murphy (Paton-Walsh), Centre for Atmospheric Chemistry, University of Wollongong, Australia |
| 1.169 | Are Selective Catalytic Reduction Systems on Diesel Engines an Atmospheric Source of Isocyanic Acid? | Shantanu Jathar, Colorado State University, Mechanical Engineering, Fort Collins, CO, USA |
| 1.170 | Development of a reactive plume model and its applications | Dasom Lee (Early Career Scientist), GIST, School of Earth and Environmental Engineering, Gwangju, South Korea |
| 1.171 | Indoor air quality in Temuco, Chile (38°44'S, 72°36W) | Hector Jorquera, Departmento de Ingeniería Química y Bioprocesos, Pontificia Universidad Católica de Chile, Avda. Vicuña Mackenna 4860, Santiago 7820436, Chile. |
| 2.001 | Transport and deposition of wildfire-emitted black carbon on Arctic ice (2002–2013) | Wei Min Hao, US Forest Service |
| 2.004 | Ozone Enhancement and Attribution to Wildfires: A Study in the Colorado Front Range | Audra McClure-Begley (Early Career Scientist), University of Colorado-CIRES and National Oceanic and Atmospheric Administration Global Monitoring Division, Boulder CO |
| 2.005 | Spatial and temporal distribution of agricultural fires in Mexico and Central America: A 14-year preliminary climatology | Blanca Estela Rios Ramos (Early Career Scientist), Centro de Ciencias de la Atmosfera, UNAM |
| 2.007 | Impact of severe drought on photosynthesis, isoprene emission and atmospheric formaldehyde in the Missouri Ozarks | Yiqi Zheng (Early Career Scientist), Yale University |
| 2.009 | Long-term measurement of isoprene in a South East Asian tropical rainforest. Initial results and conclusions | Shani Garraway (Early Career Scientist), WACL, Department of Chemistry, University of York, United Kingdom |
| 2.011 | Impacts of ozone-vegetation coupling and feedbacks on surface ozone air quality | Amos TAI, Earth System Science Programme, Faculty of Science, Chinese University of Hong Kong, Hong Kong |
| 2.012 | Global and regional comparison of biomass burning emissions | Katerina Sindelarova, LATMOS, UPMC, Paris, France; Czech Academy of Sciences, Czech Rep. |
| 2.015 | Detecting short-term ozone deposition impacts on ecosystems in remote sensing observations | Laurens Ganzeveld, Wageningen University |
| 2.016 | The role of dew as a nighttime reservoir and morning source for atmospheric ammonia | Jennifer Murphy, University of Toronto |
| 2.017 | Investigating organic carbon fluxes: Biosphere-atmosphere exchange of gas-phase organic compounds and particles over Manitou Experimental Forest | Delphine Farmer, Colorado State University |
| 2.019 | Development, evaluation and application of a modified micrometeorological gradient method for estimating gaseous dry deposition over forest canopies | Zhiyong Wu (Early Career Scientist), Air Quality Research Division, Environment Canada, Toronto |
| 2.020 | Impact of atmospheric light absorbing aerosol deposition on the seasonal water balance in snow dominated catchments | Felix Matt (Early Career Scientist), University of Oslo |
| 2.021 | Atmospheric Reactive Nitrogen in Rocky Mountain National Park | Yixing Shao (Early Career Scientist), Department of Atmospheric Science, Colorado State University, Fort Collins, CO USA |
| 2.022 | Investigating Ammonia Sources with the Cross-Track Infrared Spectrometer (CrIS) | Matthew Alvarado, Atmospheric and Environmental Research, Lexington, MA, USA |
| 2.023 | Biomass burning smoke predictions across scales: from regional forecasts using near-real-time emission constraints to city scale simulation and inversion of a fire plume | Pablo Saide (Early Career Scientist), NCAR Atmospheric Chemistry Observations and Modeling (ACOM) Lab, Boulder CO, U.S. |
| 2.025 | The CU Mobile Solar Occultation Flux Instrument: Column Measurements to Quantify Emissions from Biomass Burning | Natalie Kille (Early Career Scientist), Cooperative Institute for Research in Environmental Sciences, University of Colorado at Boulder, Boulder, CO, USA |
| 2.026 | Emissions of CO2, CO, and CH4 from peat forest fires on Sumatra Island in non El-Niño year 2013 | HIDEKi NARA, National Institute for Environmental Studies |
| 2.031 | Non-stomatal uptake controls inter-annual variability in ozone dry deposition velocity over a northern mid-latitude deciduous forest | Olivia Clifton (Early Career Scientist), Lamont Doherty Earth Observatory of Columbia University |
| 2.032 | Development of top-down emission inventories and models for non-anthropogenic sources; examples of vegetation fires, biogenic aerosols, sea salt, and wind-blown dust | Mikhail Sofiev, Finnish Meteorological Institute |
| 2.033 | African Dust as a source of nutrients to a Tropical Montane Cloud Forest in the Caribbean | Elvis Torres-Delgado (Early Career Scientist), University of Puerto Rico |
| 2.034 | Ozone deposition degrades water-use efficiency across multiple ecosystems | Jason Ducker (Early Career Scientist), Florida State University |
| 2.038 | The effects of canopy mixing on fluxes and vertical concentration gradient of VOCs above a forest canopy | Kirsti Ashworth, Climate and Space Sciences and Engineering, U. Michigan, Ann Arbor, MI, USA |
| 2.039 | Assessing the role of dry deposition in observed ozone-meteorology correlations | Sarah Kavassalis (Early Career Scientist), University of Toronto, Department of Chemistry, Toronto, Ontario, Canada |
| 2.040 | Regional air quality degradation in Northern South America due to biomass burning transboundary pollution | Andrea Juliana Hernandez Villamizar (Early Career Scientist), Universidad Nacional de Colombia, Department of Chemical and Environmental Engineering, Bogota D.C., Colombia |
| 2.042 | Using mobile laboratory and aircraft measurements to characterize feedlot emissions and their contribution to atmospheric methane over the Denver-Julesburg Basin | Scott Eilerman (Early Career Scientist), NOAA ESRL Chemical Sciences Division / Cooperative Institute for Research in Environmental Sciences (CIRES), Boulder, CO, USA |
| 2.044 | Exploring the direct impacts of particulate matter and surface ozone on global crop production | Luke Schiferl (Early Career Scientist), MIT, Dept of Civil and Environmenal Engineering, Cambridge, MA, USA |
| 2.045 | Contribution of post-harvest agricultural paddy residue fires in the N.W. Indo-Gangetic Plain to ambient carcinogenic benzenoids, toxic isocyanic acid and carbon monoxide | PRAPHULLA CHANDRA BOGGARAPU (Early Career Scientist), Department of Earth and Environmental Sciences, Indian Institute of Science Education and Research Mohali, Sector 81, S.A. S. Nagar, Manauli PO, Punjab, 140306, India |
| 2.047 | Tracking agricultural soil NOx and NH3 emissions variability with novel methodologies | David Miller (Early Career Scientist), Institute at Brown for Environment and Society, Brown University, Providence, RI, USA |
| 2.049 | The impact of extreme vegetation fires in South East Asia | Paola Crippa (Early Career Scientist), Newcastle University, School of Civil Engineering and Geosciences, Newcastle Upon Tyne, UK |
| 2.062 | The impacts of land-use change on air quality and climate | Jamie Wilson (Early Career Scientist), Institute of Climate and Atmospheric Science, Earth and Environment, University of Leeds, Leeds, North Yorkshire, United Kingdom |
| 2.064 | Ambient concentrations of BVOCs at a South African grazed grass-savannah ecosystem | Kerneels Jaars (Early Career Scientist), North-West University, Unit for Environmental Sciences and Management, Potchefstroom, South Africa |
| 2.066 | Rapidly changing interactions between forests and atmospheric chemistry: contemporary changes in land cover and anthropogenic emissions | Jeffrey A. Geddes (Early Career Scientist), Boston University, Department of Earth and Environment, Boston, MA, USA |
| 2.067 | There’s the smoke, where’s the fire? A regional analysis of which fire-prone regions have the largest impact on U.S. air quality | Steven Brey (Early Career Scientist), Colorado State University, Department of Atmospheric Science, Fort Collins Colorado, USA |
| 2.075 | Assessment of Emission from Crop Residue Open Burning in Southeast Asia | Nguyen Thi Kim Oanh, Environmental Engineering and Management, School of Environment, Resources and Development, Asian Institute of Technology |
| 2.077 | The Holistic Interactions of Shallow Clouds, Aerosols, and Land-Ecosystems Campaign: Measurement Strategy and Preliminary Findings | Jerome Fast, Pacific Northwest National Laboratory |
| 2.079 | Uncertainty in biogenic emissions from Eucalypts: Implications in urban Southeast Australia | Kathryn Emmerson, CSIRO Oceans & Atmosphere, Aspendale, VIC 3195, Australia |
| 2.080 | Estimating Biomass Burning Smoke Plume Injection Height using CALIOP, MODIS, and the NASA Langley Trajectory Model | Amber Soja, NIA / NASA LaRC |
| 2.082 | Accuracy evaluation of MODIS MCD64A1 burned area data product in boreal Eurasia | Chunmao Zhu (Early Career Scientist), Department of Environmental Geochemical Cycle Research, Japan Agency for Marine-Earth Science and Technology, Japan |
| 2.083 | Global modeling study of dust source and soluble Fe input to the Southern Ocean | AKINORI ITO, JAMSTEC |
| 2.084 | Secondary Organic Aerosol Production from Herbivore-Induced Plant Volatiles | Celia Faiola (Early Career Scientist), Aerosol Physics Research Group, University of Eastern Finland, Kuopio, Finland |
| 2.085 | Biomass burning emission inventories over Africa: AMMABB and GFED uncertainties investigations | N'Datchoh Evelyne TOURE (Early Career Scientist), Laboratoire d'Aerologie, UMR 5560, Toulouse (France) / Laboratoire de Physique de l'Atmosphere, Universite Felix-Houphouet BoignyAbidjan (Cote d'Ivoire) |
| 2.087 | Measurement of isoprene emissions from UK woodland using an airborne platform. | James Daniel Lee, University of York |
| 2.088 | Comparison of biomass burning inventories processed by GEOS-Chem with total column and satellite data in Australia. | Maximilien Desservettaz (Early Career Scientist), University of Wollongong - CSIRO, Australia |
| 2.089 | Investigating the effects of aged wildfire smoke on photochemistry in the Northern Front Range of Colorado | Jakob Lindaas (Early Career Scientist), Colorado State University |
| 2.092 | Fungal content in aerosols at the Caribbean region during African Dust incursions | Gilmarie Santos-Figueroa (Early Career Scientist), Department of Chemistry, University of Puerto Rico, San Juan, Puerto Rico |
| 2.093 | Distribution of oceanic dimethyl sulfide in the Arctic Ocean and the Southern Ocean made by membrane inlet mass spectrometry | Keyhong Park, Korea Polar Research Institute, Yeonsu-gu, Incheon 21990, South Korea |
| 2.094 | VOC observations over the Southern Ocean during ORCAS | Rebecca Hornbrook, Atmospheric Chemistry Observations & Modeling Laboratory, NCAR, Boulder, Colorado, USA |
| 2.098 | Impacts on Ozone of a New Interactive Soil NOx Scheme | Claudia Steadman (Early Career Scientist), University of Edinburgh and Centre for Ecology and Hydrology, Edinburgh, United Kingdom |
| 2.099 | Emission Factors of Trace Gases and Particulates from Australian Savanna Fires | Maximilien Desservettaz (Early Career Scientist), University of Wollongong, Australia |
| 2.100 | Chemical Mechanisms in the Forest Canopy: Understanding the HOx-NOx-BVOC Triad | Allison Steiner, University of Michigan |
| 3.001 | The impacts of solid fuel interventions and electrification on ambient air quality in India | Luke Conibear (Early Career Scientist), EPSRC Centre for Doctoral Training in Bioenergy, University of Leeds, Leeds, LS2 9JT, UK |
| 3.004 | The atmospheric response to building a large-scale space-based solar power system | Robert Portmann, NOAA Earth Systems Research Laboratory, Chemical Sciences Division, Boulder, Colorado, USA |
| 3.006 | Top-down estimates of methane and nitrogen oxide emissions from the Haynesville and Fayetteville shale gas production regions | Yuyan Cui (Early Career Scientist), NOAA/ESRL/CIRES |
| 3.007 | Emissions of volatile organic compounds (VOCs) from oil and natural gas activities in 13 major U.S. shale basins | Jessica Gilman, NOAA Chemical Sciences Division |
| 3.008 | Mobile Field Measurements of Methane Gas Using Open-Path Cavity-Ring-Down spectroscopy | Laura McHale (Early Career Scientist), Colorado State University |
| 3.013 | Rapid Changes of Residential and Power Sector Energy Use in China: Emissions and Chemical Impacts | Scott Archer-Nicholls (Early Career Scientist), National Center for Atmospheric Science (NCAR), Boulder, CO, USA |
| 3.015 | Chemical characterization of gas-phase organic compound emissions from unconventional fossil fuel operations and their impact on regional atmospheric composition and air quality | Drew Gentner, Dept. of Chemical and Environmental Engineering, Yale University |
| 3.018 | Methane attribution in a U.S. onshore dry gas basin using ground and airborne measured C2H6/CH4 enhancement ratios | Ingrid Mielke-Maday (Early Career Scientist), University of Colorado Boulder/NOAA/CIRES, Boulder, Colorado, USA |
| 3.019 | Open-Path Hydrocarbon Laser Sensor for Oil and Gas Production Facility and Fenceline Monitoring | Betsy Farris (Early Career Scientist), Colorado State University, Dept. of Mechanical Engineering, Fort Collins, CO, USA |
| 3.021 | First Emission Estimates From Oil and Gas Exploration and Production Activities in the Norwegian Sea | Anke Roiger, Institute of Atmospheric Physics, German Aerospace Centre (DLR), 82234 Oberpfaffenhofen, Germany |
| 3.022 | Black carbon emissions from transport activity in Chile: historic trends and 2050 forecast | Mauricio Osses Alvarado, Departamento de Ingeniería Mecánica - Universidad Técnica Federico Santa María, Santiago, Chile |
| 3.030 | Emissions of NOx, SOx, and PM from stationary combustion sources in Brazil: Spatial distribution and population exposure assessment | Jorge Martins, Department of Physics, Federal University of Technology – Parana, Londrina, PR, Brazil |
| 3.036 | Future tropospheric ozone impacts of unconventional oil and natural gas development in Mexico | Zitely Tzompa (Early Career Scientist), Colorado State University, Atmospheric Science, Fort Collins, CO, USA |
| 3.039 | Wintertime NOx Chemistry in Power Plant Plumes | Dorothy Fibiger (Early Career Scientist), NSF-AGS PostDoc, NOAA/CSD, Boulder, CO, USA |
| 3.043 | Impacts of flaring emissions in Africa | Cathy LIOUSSE, Laboratoire d'Aerologie, CNRS, Toulouse, France |
| 3.045 | Impacts of national Power Development Plan on future air and climate pollutant emissions in Thailand | Savitri GARIVAIT, The Joint Graduate School of Energy and Environment (JGSEE), Center of Excellence on Energy Technology and Environment (CEE-PERDO), King Mongkut's University of Technology Thonburi (KMUTT), THAILAND |
| 3.049 | US Oil and Gas Emissions: Are they Rapidly Increasing? | Lori Bruhwiler, NOAA Earth System Research Laboratory, Boulder, CO |
| 3.050 | Health and climate impacts in and from G-20 countries using realistic diesel emissions under present and future standards. | Forrest Lacey (Early Career Scientist), University of Colorado at Boulder |
| 3.052 | Results from a global survey of natural gas flaring from the VIIRS instrument: 2012-2014 | Mikhail Zhizhin, Cooperative Institute for Research in the Environmental Sciences, University of Colorado, Boulder |
| 3.053 | Short-term variability in natural gas methane emissions from the Marcellus Shale | Dana Caulton (Early Career Scientist), Princeton University, Department of Civil and Environmental Engineering 59 Olden St. Princeton, NJ 08540 |
| 3.054 | Quantification and Intercomparison of Methane Emissions from Production Sites in Dry Vs Wet Oil and Natural Gas Fields in the Western and Midcontinental United States | Anna Robertson (Early Career Scientist), University of Wyoming, Atmospheric Science, Laramie, WY, USA |
| 3.055 | Experimental Campaign: Measuring black carbon concentrations in exhaust plumes from heavy duty trucks driving through the Andes Cordillera | Sebastian Tolvett (Early Career Scientist), Departamento de Ingeniería Mecánica, Universidad Tecnológica Metropolitana, Campus Macul, Av. José Pedro Alessandri 1242, Ñuñoa, Santiago |
| 3.056 | Photochemical production of secondary organic aerosol from a non-road diesel engine: Influence of an alternative fuel and emissions control systems | Shantanu Jathar, Colorado State University |
| 3.057 | VOC Fluxes from Natural Gas Production in the Upper Green River Basin, Wyoming. | Rachel Edie (Early Career Scientist), University of Wyoming, Atmospheric Sciences, Laramie, WY, United States |
| 3.059 | The Influence of BTEX Landfill Gas Emissions: A Case Study on Residents’ in Roodepoort, Gauteng | Sarah Jane Roffe (Early Career Scientist), University of the Witwatersrand. School of Geography, Archaeology and Environmental Studies |
| 3.060 | Eight Years of Airborne Methane Measurements in Indianapolis | Rebecca Harvey (Early Career Scientist), Purdue University |
| 3.061 | Health Impacts of Energy-Related Urban Air Pollution in South Africa | Katye Altieri, University of Cape Town |
| 3.064 | Study of the air quality in region impacted by emissions from thermoelectric power plants burning sugarcane bagasse in Brazil | Leila D. Martins, Federal University of Technology, Parana, Av. Dos Pioneiros, 3131, Londrina, 86047-125, Brazil |
| 3.068 | Sensitivity of Surface Ozone to Recent Increases of Volatile Organic Compound Emissions from the Growth of North American Oil and Natural Gas Industries | Detlev Helmig, University of Colorado |
| 3.069 | Global methane budget and natural gas leakage based on long-term δ13C-CH4 measurements and updated isotopic source signatures | Stefan Schwietzke (Early Career Scientist), NOAA/ESRL/GMD, CU/CIRES, Boulder, CO, USA |
| 3.070 | High wintertime ozone in the Uinta Basin: Insights from aircraft, tethersonde and surface measurements | Samuel Oltmans, NOAA/OAR Global Monitoring Division, Boulder, Colorado, USA |
| 3.071 | Assessing the impact of the Martin Drake coal-fired power plant on ambient mercury concentrations in Colorado Springs, CO, USA | Lynne Gratz, Colorado College Environmental Program, Colorado Springs, CO, USA |
| 3.072 | Simulating the contribution of emissions from oil and gas development to regional nitrogen deposition at National Parks within the Intermountain West | Michael Barna, National Park Service, Fort Collins, CO USA |
| 4.002 | Atmospheric aerosol formation over East Antarctic sea ice – possible Hg catalysed nucleation? | Ruhi S Humphries (Early Career Scientist), CSIRO Oceans and Atmosphere Business Unit, Aspendale, Australia |
| 4.005 | OH-Radical Oxidation of Organic Species at the Air-Water Interface | SHINICHI ENAMI, National Institute for Environmental Studies, Onogawa, Tsukuba, Ibaraki 305-8506, Japan |
| 4.006 | Quantification of gas-wall partitioning in Teflon environmental chambers using rapid bursts of low-volatility oxidized species generated in-situ | Jordan Krechmer (Early Career Scientist), University of Colorado Boulder |
| 4.008 | Temperature dependence of bromine activation due to reaction of bromide with ozone in a proxy for aerosols and sea ice | Jacinta Edebeli (Early Career Scientist), Paul Scherrer Institute |
| 4.009 | Evaluation of Ozone Depleting Substance Replacement Compounds: OH rate coefficients, infrared spectrum, and global warming potentials of (E)-(CF3)2CFCH=CHF (HFO-1438ezy(E)) | James Burkholder, NOAA, ESRL/CSD, Boulder, CO |
| 4.010 | Development of Portable Chemosensors for Atmospheric Radicals | Andrew Rickard, National Centre for Atmospheric Science, Department of Chemistry, University of York, York, UK |
| 4.012 | A protocol for the prediction of photolysis processes in numerical models | Peter Brauer (Early Career Scientist), Wolfson Atmospheric Chemistry Laboratories, Department of Chemistry, University of York, York, YO10 5DD, UK |
| 4.013 | Synthesizing laboratory and field measurements to trace the bulk oxidation properties and volatility distributions of gas-phase species detected by chemical ionization mass spectrometry | Beth Friedman (Early Career Scientist), Department of Chemistry, Colorado State University, Fort Collins, CO |
| 4.016 | Development of a Global Atmospheric Chemistry Model for the Study of PAHs (EMAC-PAH) and Application | MEGA OCTAVIANI (Early Career Scientist), Max Planck Institute for Chemistry, Mainz, Germany |
| 4.021 | Solid versus liquid phase state and glass transition temperature of secondary organic aerosols in the global atmosphere | Ying Li, Max Planck Institute for Chemistry, Multiphase Department, Mainz, Germany |
| 4.022 | Investigation of the below-cloud scavenging of the soluble inorganic aerosols by the rainfall during summer in Beijing | Danhui Xu (Early Career Scientist), State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China |
| 4.026 | Phase transition in salt solutions at the bulk and interface with core level spectroscopy | Thorsten Bartels-Rausch, Paul Scherrer Institut |
| 4.027 | Mass-independent isotopic fractionation and transport in volcanic sulfates | Tommaso Galeazzo (Early Career Scientist), LATMOS/IPSL, UPMC-CNRS |
| 4.029 | Chemistry-clouds interactions over West Africa: the role of moist thermals on the atmospheric oxidation capacity | Fabien Brosse (Early Career Scientist), Laboratoire d'Aérologie, Université de Toulouse, CNRS, UPS, France |
| 4.030 | Parametric and Structural Uncertainties Related to Air Pollution and Human Health: Influence of Resolution, Chemical Mechanism, Meteorology, and Model (CESM CAM-Chem and GEOS-Chem) | Benjamin Brown-Steiner (Early Career Scientist), Center for Global Change Science, Joint Program on the Science and Policy of Global Change, Massachusetts Institute of Technology |
| 4.032 | Molecular Halogens in the Arctic: Fluxes, Diurnal Variations, and Implications | Siyuan Wang (Early Career Scientist), University of Michigan Ann Arbor |
| 4.036 | On-line measurement of aerosol volatility at a regional background site in China | Lingyan He, Peking University Shenzhen Graduate School |
| 4.038 | Oxidative Potential Evolution of Particulate Trimethylamine during Ozonolysis | yanli ge (Early Career Scientist), State Key Joint Laboratory of Environment Simulation and Pollution Control, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences & College of Resources and Environment, University of Chinese Academy of Sciences, Beijing, China |
| 4.039 | Heterogeneous reaction of SO2 with soot: the role of the chemical composition of soot in surface sulfates formation | yan zhao (Early Career Scientist), State Key Joint Laboratory of Environment Simulation and Pollution Control, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences & College of Resources and Environment, University of Chinese Academy of Sciences, Beijing, China |
| 4.040 | Chemical Aging of Primary and Secondary Organic Aerosol | Spyros Pandis, Carnegie Mellon University |
| 4.041 | Ultra-high Resolution Mass Spectrometric Characterization of Organosulfates in Chinese Aerosols | Bin Yu KUANG (Early Career Scientist), Department of Chemistry, Hong Kong University of Science and Technology, Hong Kong, China |
| 4.045 | Decadal and seasonal distributions of low molecular weight dicarboxylic acids and related compounds, and their stable carbon isotope ratios in the remote marine aerosols from the western North Pacific | Kimitaka KAWAMURA, Chubu University |
| 4.046 | Development of a new explicit oxidation mechanism of organics in clouds | Laurent DEGUILLAUME, Laboratoire de Météorologie Physique/CNRS |
| 4.047 | Introducing biological processes in cloud chemistry models | Nadine CHAUMERLIAC, LaMP/CNRS |
| 4.049 | Evaluation of updated isoprene, terpene and aromatic oxidation in the MOZART chemical mechanism | Louisa Emmons, National Center for Atmospheric Research, ACOM, Boulder, CO, USA |
| 4.051 | A global modelling study of the release of ClNO2 from tropospheric aerosol and its impact on tropospheric oxidation | Paul Griffiths, Cambridge University |
| 4.052 | OH reactivity and experimental OH budget in Wangdu (North China Plane) in summer 2014 | Hendrik Fuchs, Institute of Energy and Climate Research, IEK-8: Troposphere, Forschungszentrum Juelich GmbH, Juelich, Germany |
| 4.053 | Interaction of acidic trace gases with ice: XPS and NEXAFS analysis with the new NAPP chamber for solid interfaces at SLS | Astrid Waldner (Early Career Scientist), Paul Scherrer Institut, Energy and Environment, Labor for Umweltchemie, Villigen PSI, Switzerland; ETH Zurich, Institute for Atmospheric and Climate Science, Zurich, Switzerland |
| 4.057 | Long-term variation of precipitation frequency and its correlations with aerosols in China during the past 50 years | Jianqi Hao, State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China |
| 4.058 | Molecular Composition of Biomass Burning Aerosol from Household Cookstoves in Rural Haryana, India | Lauren Fleming (Early Career Scientist), Department of Chemistry, University of California, Irvine, CA, USA |
| 4.059 | Secondary Organic Aerosol Formation from the Green Leaf Volatile Cis-3-Hexen-1-ol | THAIS DA SILVA BARBOSA (Early Career Scientist), CAPES Foundation, Brazil Ministry of Education, Brasilia, DF 70.040-020, Brazil |
| 4.060 | Atmospheric Chemistry of E- and Z-CF3CH=CHCF3 | Freja F. Oesterstroem (Early Career Scientist), Copenhagen Center for Atmospheric Research, Department of Chemistry, University of Copenhagen, Universitetsparken 5, DK-2100 Copenhagen Ø, Denmark |
| 4.061 | Simultaneous and time-resolved measurement of alpha-pinene ozonolysis products in gaseous and aerosol phases for the determination of gas-aerosol partitioning | Satoshi Inomata, National Institute for Environmental Studies, Tsukuba, Ibaraki, Japan |
| 4.062 | Organic aerosol hygroscopicity and the contribution to CCN concentrations over a mid-latitude forest facing the North Pacific | Yange Deng (Early Career Scientist), Graduate School of Environmental Studies, Nagoya University, Japan. |
| 4.064 | Secondary Organic Aerosol from α-Pinene Oxidation at Sub-zero Temperatures: Formation of Extremely Low-Volatility Organic Compounds (ELVOC) | Kasper Kristensen (Early Career Scientist), Department of Chemistry, Aarhus University, DK-8000, Aarhus C, Denmark |
| 4.065 | The Impact of Particle Size, Phase, and Organic Compounds on Interactions between Trace Gases and Particles | Cassandra Gaston, Rosenstiel School of Marine and Atmospheric Science, University of Miami, Miami, FL 33149, USA |
| 4.066 | Microphysical and chemical processes affecting wet removal of soluble trace gases in deep convection observed over the central U.S. | Megan Bela (Early Career Scientist), Department of Atmospheric and Oceanic Sciences, Laboratory for Atmospheric and Space Physics, University of Colorado, Boulder, CO, USA |
| 4.068 | PROFILES OF NOX AND O3 IN AN AMAZONIAN RAINFOREST: COMPARISON OF MEASURED PROFILES WITH A MULTI-LAYER CANOPY CHEMICAL EXCHANGE MODEL | Stefan Aiko Wolff (Early Career Scientist), Biogeochemistry Department, Max Planck Institute for Chemistry – Mainz, Germany |
| 4.069 | Effects of Ammonia on SOA Formation and Composition | Julia Montoya (Early Career Scientist), Department of Chemistry, University of California Irvine, Irvine, CA 92697, USA |
| 4.071 | Quantifying the sources of atmospheric ice nucleating particles from prescribed burns and wildfires | Gregory Schill (Early Career Scientist), Colorado State University, Department of Atmospheric Science, Fort Collins, CO, USA |
| 4.073 | Gas and particle phase characterization of limonene ozonolysis products and their role in SOA formation | Julia Hammes (Early Career Scientist), Department of Chemistry and Molecular Biology, University of Gothenburg, Gothenburg, Sweden |
| 4.074 | Hydrogen Shift Reactions in four Methyl-Buten-Ol (MBO) Peroxy Radicals and its impact on the Atmosphere | Hasse Knap (Early Career Scientist), Department of Chemistry, University of Copenhagen, Universitetsparken 5, 2100 Copenhagen Ø, Denmark |
| 4.077 | Winter OH reactivity in Helsinki, Finland. | Arnaud Patrick PRAPLAN, Finnish Meteorological Institute, P.O. Box 503, 00101 Helsinki, Finland |
| 4.078 | Impacts of Emissions and Chemical Complexity on Global Simulations of Secondary Organic Aerosol | Jamie Kelly (Early Career Scientist), University of Edinburgh |
| 4.079 | Carboxylic acid photochemistry is a marine source of glyoxal and other aldehydes | Randall Chiu (Early Career Scientist), University of Colorado Boulder |
| 4.081 | Mechanistic insights and the atmospheric role of isoprene low-NOX oxidation products | Jean C. Rivera-Rios (Early Career Scientist), Department of Chemistry and Chemical Biology, Harvard University |
| 4.082 | Estimation of light absorption of brown carbon in PM2.5 with an improved AAE method | Xiaofeng Huang, Peking University Shenzhen Graduate School |
| 4.083 | Impacts of cloud aqueous processes on chemistry and transport of biogenic VOC | Yang Li (Early Career Scientist), University of Michigan |
| 4.084 | Revising concepts of methanesulfonic acid (MSA) formation in the remote tropical Pacific marine boundary layer using high-resolution measurements and a thermodynamic model of aerosol chemistry | Rebecca Simpson (Early Career Scientist), University of Hawaii at Manoa |
| 4.085 | On inferring the unobserved chemical state of the atmosphere: box model experiments | Jérôme Barré, NCAR |
| 4.086 | Reassessing the global secondary organic aerosol (SOA) budget and vertical distribution: stronger production, faster removal, shorter lifetime. | Alma Hodzic Roux, NCAR |
| 4.087 | Characterizing secondary organic aerosol yields from biogenic hydrocarbon precursor mixtures using an aerosol chemical ionization time-of-flight mass spectrometer | Michael Link (Early Career Scientist), Colorado State University |
| 4.088 | Uncertainties in Particle Wall Loss Correction during Secondary Organic Aerosol Formation in Chamber Experiments | Renee McVay (Early Career Scientist), California Institute of Technology, Chemical Engineering, Pasadena, CA, USA |
| 4.089 | IUPAC Task Group on Atmospheric Chemical Kinetic Data Evaluation | Timothy John Wallington, Research and Advanced Engineering, Ford Motor Company, Dearborn MI 48121, USA |
| 5.001 | Factors Affecting Aerosol Radiative Forcing | Jingxu Wang (Early Career Scientist), Peking University |
| 5.002 | Distinctive Timing Of US Historical Surface Ozone Change Determined By Climate And Anthropogenic EmissionsS | YINGYING YAN (Early Career Scientist), Peking University |
| 5.005 | Wildfires in a warmer climate: Emission fluxes, emission heights and black carbon concentrations in 2090-2099 | Andreas Veira (Early Career Scientist), Max Planck Institute for Meteorology |
| 5.006 | Evaluating Secondary Inorganic Aerosols in 3-Dimensions | Keren Mezuman (Early Career Scientist), Earth and Environmental Sciences, Columbia University, New York, NY, USA, NASA Goddard Institute for Space Studies, New York, NY, USA |
| 5.008 | Aerosols and climate interaction in Community Earth System Model | Yangyang Xu (Early Career Scientist), NCAR |
| 5.011 | Changes in Air Quality in Different World Regions for the Past Decades: analyses using chemistry-climate simulations and observations from satellite and monitoring stations | Thierno Doumbia (Early Career Scientist), LATMOS/IPSL, UPMC Univ. Paris 06 Sorbonne Universités, UVSQ, CNRS, Paris, France |
| 5.012 | Investigating Black Carbon-Snow (“Dirty Snow”) Albedo Feedback in Climate Studies | Cenlin He (Early Career Scientist), Department of Atmospheric and Oceanic Sciences and Joint Institute for Regional Earth System Science and Engineering, University of California, Los Angeles (UCLA), Los Angeles, CA 90095, USA |
| 5.013 | Changes in anthropogenic surface emissions in different world regions during the past decades | Claire GRANIER, LATMOS-Lab. Aerologie, France; NOAA/U. Colorado-CIRES, USA |
| 5.016 | GEIA: Working Towards Better Emissions Information | Gregory Frost, NOAA ESRL/CSD, Boulder, CO, USA |
| 5.017 | BC enhancement of glacier melting on Cerro Tronador: modeling and measurements | Julian Gelman Constantin (Early Career Scientist), Gerencia de Química - Comision Nacional de Eergia Atomica, San Martin, Buenos Aires, Argentina |
| 5.018 | Sensitivity of dust emissions to aerosol feedback and the impact of dust loading on climate forcing with varied resolutions using FIM-Chem | Li Zhang, CIRES, University of Colorado Boulder |
| 5.022 | Radiative Forcing from Anthropogenic Sulfur and Organic Emissions Reaching the Stratosphere | Pengfei Yu (Early Career Scientist), NOAA/CIRES |
| 5.023 | Impacts of atmospheric and aerosol processes on black carbon concentrations in the Arctic | Knut von Salzen, Environment and Climate Change Canada |
| 5.025 | Absorption coefficient of urban aerosol in Nanjing, west Yangtze River Delta of China | Bingliang Zhuang, School of Atmospheric Sciences, Nanjing University |
| 5.027 | Impact of aerosols on regional climate in southern and northern China during strong/weak East Asian summer monsoon years | Shu Li, Nanjing University |
| 5.028 | Climate forcing of different secondary organic aerosol descriptions in the Community Earth System Model (CESM) | Simone Tilmes, NCAR |
| 5.030 | Attribution of recent ozone trends in the Southern Hemisphere mid-latitudes using chemistry-climate model simulations | Guang Zeng, National Institute of Water and Atmospheric Research, Wellington, New Zealand |
| 5.031 | Drivers of Increase in Atmospheric Methane since 2007 | Ancelin COULON (Early Career Scientist), ETH Zürich |
| 5.034 | Understanding and Quantifying the Missing Free Tropospheric Aerosol Loading Over Monsoon Asia | Jason Blake Cohen, National University of Singapore, Singapore |
| 5.035 | The Underestimated Role of the Stratospheric Source on Tropospheric Ozone | Thomas Trickl, Karlsruher Institut für Technologie, IMK-IFU, Garmisch-Partenkirchen, Germany |
| 5.036 | What does a 1.5 °C warmer world mean for atmospheric chemistry? | Nicola Wareing (Early Career Scientist), Lancaster Environment Centre, Lancaster University, Lancaster, UK |
| 5.037 | Temperature as a driver of ground-level ozone concentration in Europe | Tim Butler, Institute for Advanced Sustainability Studies, Potsdam, Germany |
| 5.038 | The application of long-term observations of NOx and CO to constrain a global emissions inventory | Birgit Hassler, CIRES/NOAA ESRL CSD, Boulder, Colorado, USA |
| 5.039 | Drivers of global chemical climate forcing 1990 - 2010 | Kandice HARPER (Early Career Scientist), Yale University, School of Forestry & Environmental Studies, New Haven, CT, USA |
| 5.040 | Contribution of Arctic seabird-colony ammonia to atmospheric particles and cloud-albedo radiative effect | Betty Croft, Dalhousie University, Department of Physics and Atmospheric Science, Halifax, N.S. Canada |
| 5.041 | CMIP5 estimate of Earth’s energy budget | Erik Larson (Early Career Scientist), CIRES, University of Colorado, Boulder, CO, USA / NOAA ESRL CSD, Boulder, CO, USA |
| 5.044 | Numerical Study on the Impacts of East Asia Summer Monsoon on Ozone formation in China | Tijian Wang, Nanjing University |
| 5.048 | Ocean-Atmosphere Exchange of Ammonia in the 21st Century and the Competing Effects of Temperature and Ocean Acidification | Claudia Steadman (Early Career Scientist), University of Edinburgh School of GeoSciences and Centre for Ecology & Hydrology, Edinburgh, UK |
| 5.050 | An uncertain future for lightning and the consequences for atmospheric composition and radiative forcing | Ruth Doherty, University of Edinburgh |
| 5.054 | What Controls Aerosol Optical Depth in Continental Airmasses in Summer? | Charles Brock, NOAA Earth System Research Laboratory, Boulder, CO USA |
| 5.055 | Long-term trends of global tropospheric column ozone | Audrey Gaudel (Early Career Scientist), Cooperative Institute for Research in Environmental Sciences/NOAA Earth System Research Laboratory Chemical Sciences Division, Boulder, CO USA |
| 5.056 | Parallel simulations of methane oxidation in UM-UKCA reveal hemispheric biases in climatological oxidant fields and methane concentrations | Ines Heimann (Early Career Scientist), Department of Chemistry, University of Cambridge |
| 5.059 | Transport from the Northern Hemisphere Midlatitude Surface: A Comparison Between the CCMI Models | Clara Orbe (Early Career Scientist), Global Modeling and Assimilation Office, Goddard Space Flight Center |
| 5.062 | Injection of iodine to the stratosphere and implications for future ozone depletion | Jean-Francois LAMARQUE, NCAR |
| 5.064 | A Reanalysis of MOPITT-CO observations | Benjamin GAUBERT (Early Career Scientist), NCAR-ACOM |
| 5.065 | Estimation of sulfuryl fluoride emissions at regional and global scales by inverse modeling using AGAGE measurements | Alicia Gressent (Early Career Scientist), MIT, Center for Global Change Science, Cambridge, Massachusetts, USA. |
| 5.067 | Sources and impacts of short-lived OVOC in the remote tropical marine troposphere | Rainer Volkamer, Department of Chemistry and Biochemistry & CIRES, University of Colorado, Boulder, CO, USA |
| 5.068 | Multi-model comparison of marine boundary layer O3 in HTAP2 simulations with cargo ship observations in Asia-Pacific | Kohei IKEDA, National Institute for Environmental Studies, Japan |
| 5.071 | Impacts of precipitation patterns on the wet deposition and lifetime of aerosols | Pei Hou (Early Career Scientist), Michigan Technological University |
| 5.074 | Evaluation of the co-benefits of low carbon policies on residential sector in Asian region for air pollution abatement | Gakuji Kurata, Kyoto University |
| 5.075 | air Pollution in the Arctic: Climate, Environment and Societies (PACES) | Kathy Law, LATMOS-CNRS, France |
| 5.077 | An atmospheric definition of the equator and its implications for atmospheric chemistry and climate | Christopher Holmes, Florida State University |
| 5.078 | How Will Secondary Organic Aerosols Change in the Future? | Joyce Penner, University of Michigan |
| 5.082 | Attribution of methane radiative forcing to spatially resolved short-lived precursor emissions | Thomas Walker (Early Career Scientist), NASA Jet Propulsion Laboratory |
| 5.092 | Regional tropospheric ozone pollution over the Indian Subcontinent and transport pathways as observed by a chemical transport model | Liji David (Early Career Scientist), Colorado State University, Departments of Chemistry and Atmospheric Science, Fort Collins, Colorado |
| 5.093 | Investigating the effects of ‘nudging’ on the dynamical-chemical consistency of the UTLS | David Plummer, Canadian Centre for Climate Modelling and Analysis, Environment and Climate Change Canada, Montreal, Quebec, Canada |
| 5.095 | The mutual regional features in the seasonal cycle of surface O3 simulated in the global chemical models | Tatsuya Nagashima, National Institute for Environmental Studies, Japan |
| 5.097 | Global tropospheric ozone trend and variations from 2003 - 2011 as seen by SCIAMACHY | Felix Ebojie (Early Career Scientist), University of Bremen |
| 5.099 | Recent changes in the free tropospheric ozone over East Asian Pacific rim | HIROSHI TANIMOTO, National Institute for Environmental Studies |
| 5.100 | Atmospheric chemistry and climate in the cloud: Complex models available for all | Paul Young, Lancaster Environment Centre, Lancaster University, UK |
| 5.103 | Interannual Variability in Interhemispheric Transport Times and Long-term Trends | Xiaokang Wu (Early Career Scientist), Johns Hopkins University |
| 5.108 | Long-term assessment of aerosol OC and EC contents collected in the northern interior of South Africa | Petra Maritz (Early Career Scientist), 1 Unit for Environmental Sciences and Management, North-West University, Potchefstroom Campus, Private Bag X6001, Potchefstroom, 2520, South Africa, *20229143@nwu.ac.ac |
| 5.109 | Climate versus emission drivers of ozone pollution trends and extremes | Meiyun Lin, Princeton University Program in Atmospheric and Oceanic Sciences and NOAA Geophysical Fluid Dynamics Laboratory, Princeton, New Jersey, USA |
| 5.116 | The aerosol radiative effects and global burden of mortality from uncontrolled combustion of domestic waste | John Kodros (Early Career Scientist), Colorado State University, Department of Atmospheric Science, Fort Collins, Colorado, USA |
| 5.117 | Modeling Greenland's Climatic Response to the Presence of Biomass Burning-Based Absorbing Aerosols in the Atmosphere and Snow during the Summer of 2012 | Jamie Ward (Early Career Scientist), University of Michigan Ann Arbor |
| 5.119 | The Community Emissions Data System (CEDS) | Rachel Hoesly (Early Career Scientist), PNNL - Joint Global Change Research Institute |
| 5.120 | Could SO2 emission cuts from coal and ships be accentuating climate warming? | Daniel Cohan, Rice University, Dept. of Civil & Environmental Engineering, Houston, Texas USA |
| 5.121 | Evolution and removal of brown carbon in biomass burning emission | RUDRA POKHREL (Early Career Scientist), Department of Atmospheric Science, University of Wyoming, Laramie, WY, USA |
| 5.122 | International air quality and climate impacts of emissions control strategies | Daven Henze, University of Colorado Boulder |
| 5.123 | Rapid increases in dust storm activity and valley fever infection in the southwestern United States | Daniel Tong, NOAA Air Resources Lab & George Mason University |
| 5.133 | The CAPRICORN Project – investigating cloud-aerosol interactions over the Southern Ocean | Melita Keywood, CSIRO, Australia |
| 5.134 | The policy relevance of atmospheric greenhouse gas concentration trends to 2016 | Peter Carter, Climate Emergency Institute |
| 5.137 | Twelve years of aerosol composition measurements at Whistler Peak: Comparisons with a global chemical transport model | Anne Marie Macdonald, Environment and Climate Change Canada, Air Quality Research Division, Toronto, Ontario, Canada |
| 5.139 | An overview of global ozone metrics relevant to human health calculated for the Tropospheric Ozone Assessment Report | Zoe Fleming, National Centre for Atmospheric Science, Universty of Leicester, UK |
| 5.140 | Access to Emissions Distributions and Related Ancillary Data through the ECCAD database | Sabine DARRAS, Observatoire Midi-Pyrénées, CNRS, SEDOO, Toulouse, France |
| 5.142 | Evidence that Palmer Station Antarctica seasonal O2 and CO2 cycles understate regional marine boundary layer means | Jonathan Bent (Early Career Scientist), National Center for Atmospheric Research, Earth Observing Laboratory, Boulder, CO, USA |
| 5.143 | Recent aircraft- and ground-based observations of longer-lived VOCs and comparisons to CAM-chem model simulations | Eric Apel, NCAR, ACOM, Boulder, CO, USA |
| 5.144 | Top-down NOx emissions for China (2005-2012): a hybrid inversion method and trend analysis | Zhen Qu (Early Career Scientist), University of Colorado at Boulder |
| 5.146 | The effect of slope and elevation on ion characteristics for Arctic precipitation | Ann-Lise Norman, The University of Calgary, Dept. of Physics & Astronomy, Calgary, Alberta. Canada |
| 5.148 | Global comparisons of seasonal cycles of tropospheric ozone and its precursors observed at high-altitude sites | Sachiko OKAMOTO, Center for Global Environmental Research, National Institute for Environmental Studies, Tsukuba, Ibaraki, Japan |
| 5.149 | Development of quasi-realtime model system for SLCPs over Pan-Arctic region | Masayuki Takigawa, Institute of Arctic Climate and Environment Research, Japan Agency for Marine-Earth Science and Technology |
| 5.150 | Wetland classification and methane emission inventory for West Siberia | Shamil Maksyutov, CGER, NIES, Tsukuba, Japan |
| 5.151 | Regional differences in stratospheric intrusions over the USA investigated using the NASA MERRA-2 reanalysis | Katherine Emma Knowland (Early Career Scientist), USRA/GESTAR, GMAO, NASA Goddard Space Flight Center, Greenbelt, Maryland, USA |
| 5.152 | Source Apportionment of Light-absorbing Carbonaceous Aerosol in Beijing | Mei Zheng, State Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University, Beijing 100871, China |
| 6.002 | Quantifying Lower Tropospheric Methane Concentrations Using GOSAT near-IR and TES thermal IR measurements. | John Worden, JPL / Caltech |
| 6.003 | Long-term measurements of atmospheric inorganic gaseous species at Cape Point, South Africa | Pieter Gideon van Zyl, North-West University |
| 6.004 | Wintertime Reactive Nitrogen Chemistry During the 2015 WINTER Aircraft Campaign | Erin McDuffie (Early Career Scientist), 1) NOAA ESRL Chemical Sciences Division, Boulder, CO USA, 2) Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO USA, 3) Department of Chemistry, University of Colorado, Boulder CO USA |
| 6.007 | Using Self-Organizing Map (SOM) Clusters to Create Ozonesonde-based Climatologies and Characterize Linkages among US Ozone Profile Variability and Pollution | Ryan Stauffer (Early Career Scientist), Earth System Science Interdisciplinary Center (ESSIC), University of Maryland – College Park, College Park, Maryland, USA |
| 6.008 | Seasonal variation of nitro-aromatic constituents in size segregated water soluble organic aerosols | Irena Grgić, National Institute of Chemistry, Ljubljana, Slovenia |
| 6.009 | Design of a novel aircraft open-path cavity ringdown spectrometer | Gabriela Adler Katz (Early Career Scientist), 1) Chemical Sciences Division, NOAA Earth System Research Laboratory (ESRL), Boulder, Colorado, USA 2) Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado Boulder, Boulder, Colorado, USA |
| 6.011 | Enabling the use of low cost air quality sensors for atmospheric chemistry research | Peter Edwards, Department of Chemistry, University of York, York, UK |
| 6.025 | The Tropospheric Ozone Assessment Report: A community-wide effort to quantify tropospheric ozone in a rapidly changing world | Owen Cooper, University of Colorado/NOAA ESRL |
| 6.027 | A First Look at the Global Distribution of Newly Formed Particles from the NASA Atmospheric Tomography Mission (Atom) | Christina Williamson (Early Career Scientist), Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO and National Oceanic and Atmospheric Administration Earth System Research Laboratory, Chemical Sciences Division, Boulder, CO |
| 6.028 | Comparison of VOCs and their roles in ozone formation at a polluted site and a clean site in southern China | Chuan Wang (Early Career Scientist), Key Laboratory for Urban Habitat Environmental Science and Technology, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen |
| 6.029 | Long-term trends of tropospheric ozone precursors at the Czech EMEP and ACTRIS station Kosetice | Milan Vana, CHMI |
| 6.032 | Variations of atmospheric methane and its carbon and hydrogen isotopic ratios at Churchill, Canada | RYO FUJITA (Early Career Scientist), Center for Atmospheric and Oceanic Studies, Graduate School of Science, Tohoku University, Sendai, Japan |
| 6.033 | Geographical and Temporal Differences in NOAA Observed Surface Ozone in the Arctic | Irina Petropavlovskikh, CIRES/NOAA, Boulder, CO, USA |
| 6.036 | Spatial and temporal variability of in-situ and column integrated trace gases during DISCOVER-AQ | Melanie Follette-Cook, MSU/GESTAR/GSFC |
| 6.037 | Deployment of both dense networks and small numbers of low-cost and minimal infrastructure air quality sensors. A study in variable sensing scales. | Mohammed Iqbal Mead, Centre for Atmospheric Informatics and Emissions Technology. Cranfield University. UK. |
| 6.038 | Development of a Economic, Portable Sensor Network for the Monitoring of Trace Tropospheric Gases | Elizabeth Pillar-Little (Early Career Scientist), Department of Chemistry, University of Kentucky, 505 Rose Street, Lexington, KY 40506 |
| 6.044 | Air pollutants in the lower troposphere over two rural sites in the North China Plain: results from ground-based and unmanned aircraft observations | Xiaobin Xu, Key Laboratory for Atmospheric Chemistry of CMA, Chinese Academy of Meteorological Sciences, Beijing, China |
| 6.045 | Eastern Mediterranean transport patterns and atmospheric conditions associated with high and low summer ozone levels in the lower troposphere and the boundary layer | Pavlos Kalabokas, Academy of Athens, Research Center for Atmospheric Physics and Climatology |
| 6.054 | SHADOZ (Southern Hemisphere Additional Ozonesondes) Network Report: Station Activities and Impacts of Re-processed Ozone Profile Data (1998-2015) | Anne Thompson, NASA-Goddard Space Flt Center |
| 6.056 | Fifteen year CO emission estimates constrained with MOPITT CO measurements | Zhe Jiang, Jet Propulsion Laboratory |
| 6.058 | Open-Path Laser Based Sensors for Measurements of Ammonia in the Atmosphere | Soran Shadman (Early Career Scientist), Colorado State University |
| 6.059 | Aromatic VOC effects on OH and Ozone at global scale | David Cabrera (Early Career Scientist), Max Planck Institute for Chemistry |
| 6.060 | Evaluating Uncertainties in OMI-based estimates of Nitrogen Oxide Production Efficiency by Lightning over the tropics and subtropics | Dale Allen, University of Maryland College Park |
| 6.062 | Measurements of organic composition of aerosol and rainwater samples using offline aerosol mass spectrometry | Rachel O'Brien, Massachusetts Institute of Technology |
| 6.065 | Measurements of nitrous acid (HONO) within the clean tropical marine boundary layer | Leigh Crilley (Early Career Scientist), School of Geography, Earth and Environmental Sciences, University of Birmingham, UK. |
| 6.073 | Exploring the Vertical Extent of Reactive Halogen Chemistry in the Vicinity of Barrow, Alaska | Peter Peterson (Early Career Scientist), Department of Chemistry, University of Michigan, Ann Arbor, Michigan, USA |
| 6.075 | Airborne Measurements of Mineral Dust Abundance, Mixing State, and Ice Nucleating Properties | Karl Froyd, NOAA Chemical Sciences Division / University of CO |
| 6.078 | Convective Influence on Methanol (CH3OH) in the Tropical Upper Troposphere | Mijeong Park, NCAR |
| 6.079 | Quantifying information content and gaps in the AERONET network in South America | Laura Gallardo, CR2/DGF/UCHILE |
| 6.083 | Utilizing model sensitivity analysis to set research priorities and constrain the global acetone budget. | Jared Brewer (Early Career Scientist), Colorado State University |
| 6.085 | Distributions of BrO and IO in the tropical marine boundary layer and free tropopshere | Barbara Dix, University of Colorado, Boulder, CO, USA |
| 6.088 | PERSEUS: A SAMPLE PRECONCENTRATION AND GC/MS DETECTOR SYSTEM FOR ANALYSIS OF FLASK AIR SAMPLES FOR ATMOSPHERIC TRACE HALOCARBONS, HYDROCARBONS AND SULFUR-CONTAINING COMPOUNDS | Benjamin R. Miller, Cooperative Institute for Research in Environmental Science (CIRES), University of Colorado, Boulder, 80309, USA |
| 6.093 | Impact of the summer circulation regimes on the vertical tropospheric distribution of pollutants and aerosol processes over the Western Mediterranean area | Silvia Bucci (Early Career Scientist), Institute for Atmospheric Sciences and Climate of the National Research Council , (ISAC-CNR), Rome, 00133, Italy |
| 6.095 | Atmospheric CH4 mixing ratios and its correlation with CO and a surrogate of Non-Methane Hydrocarbons in Mexico City | Mónica Solano (Early Career Scientist), Centro de Ciencias de la Atmósfera |
| 6.096 | Assessing the impact of the anthropocene on atmospheric composition using remote sensing from aircraft and space based instrumentation. | John Philip Burrows, Univeristy of Bremen |
| 6.097 | Importance of Vertical Mixing on Observed and Modeled Surface Ozone in the Colorado Front Range | Lisa Kaser (Early Career Scientist), National Center for Atmospheric Research, Boulder, CO, USA |
| 6.098 | Changing of emission source contribution of transboundary transported particulate PAHs, EC, and OC observed at Noto, coastal site of Sea of Japan, during the period from 2004 to 2013 | Yayoi Inomata, Kanazawa University |
| 6.102 | Fluxes of Greenhouse Gases from Baltimore-Washington and Indianapolis: Results from the Winter 2015/2016 Aircraft Observations | Xinrong Ren, University of Maryland |
| 6.106 | Quantifying isotopic signatures of atmospheric NOx emissions | Meredith Hastings, Institute at Brown for Environment and Society & Dept of Earth Environmental and Planetary Sciences, Brown University, Providence, RI, USA |
| 6.108 | European emissions of hydrofluorocarbons: top down estimates and comparison with bottom up inventories | Umberto Giostra, DiSPeA, Università di Urbino, Italy |
| 6.110 | Influence of winds on retrievals of space based measurements of NO2 | Ronald Cohen, UC Berkeley |
| 6.115 | Characterization of the northern Colorado front range tropospheric C2H6, CH4, HCHO, NH3, O3, and CO from ground based high spectral resolution FTIR measurements: oil & natural gas signature | Ivan Ortega (Early Career Scientist), National Center for Atmospheric Research, Boulder, CO, USA |
| 6.119 | Study of methane variability in Mexico City from total column and surface measurements | Alejandro Bezanilla Morlot (Early Career Scientist), Center for Atmospheric Sciences, National Autonomous University of Mexico (UNAM), Mexico City, Mexico |
| 6.120 | Attribution of Atmospheric Sulfur Dioxide over the English Channel to Dimethylsulfide and Changing Ship Emissions | Mingxi Yang, Plymouth Marine Laboratory |
| 6.123 | ORGANOCHLORINE PESTICIDES IN THE ATMOSPHERIC AEROSOL AROUND MEXICO COUNTRY USING PASSIVE SAMPLERS | Gloria Eliana Arias Loaiza (Early Career Scientist), Estudiante de Doctorado. Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de México, Ciudad Universitaria, Coyoacán 04510, Ciudad de México |
| 6.126 | Inverse modeling of CH4 surface fluxes using GOSAT observations – Level 4 product updates | Heon-Sook Kim, NIES |
| 6.127 | Effects of Wet Deposition on the Abundance and Size Distribution of Black Carbon in East Asia | Yutaka Kondo, National Institute of Polar Research |
| 6.128 | Towards developing a climatology for assessing the radiative impact of smoke aerosols on the UV radiation | Irina Sokolik, Georgia Institute of Technology |
| 6.130 | Aircraft and Satellite Measurements to Support Numerical Simulation of Urban Smog formation: Policy Relevant Science | Russell R. Dickerson, The University of Maryland |
| 6.133 | Evidence for Biogenic Influence on Summertime Arctic Aerosol | Megan Willis (Early Career Scientist), Department of Chemistry, University of Toronto, Toronto, Ontario, Canada |
| 6.135 | CO2 variability and trends in Mexico | Jorge Luis Baylon Cardiel (Early Career Scientist), Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de México (UNAM), Mexico City, Mexico |
| 6.138 | NO2 and HCHO variability in Mexico City from MAX-DOAS measurements | Claudia Rivera, Facultad de Química , Universidad Nacional Autónoma de Mexico (UNAM), Mexico City, Mexico |
| 6.139 | Downmixing of stratospheric air observed from FTIR measurements in central Mexico | Michel Grutter, Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de México (UNAM), Mexico |
| 6.142 | Satellite measurement of the lower tropospheric ozone enhancement over East Asia – elimination of the effect from the upper troposphere and lower stratosphere | Sachiko Hayashida, Nara Women's University |
| 6.143 | Characteristics and transformations of pollution gases to particulate matters in fog-haze episodes | Duanyang Liu (Early Career Scientist), Jiangsu Meteorological Observatory |
| 6.146 | Trace gas transport out of the Indian Summer Monsoon | Laura Tomsche (Early Career Scientist), Max-Planck-Institute for Chemistry, Mainz, Germany |
| 6.148 | Atmospheric chemistry of reactive nitrogen species over Indo-Gangetic plains (India). | Saumya Singh (Early Career Scientist), Jawaharlal Nehru University, School of Environmental Science, New Delhi, India. |
| 6.149 | Source Apportionment of PM2.5 and Secondary Organic Aerosol Estimation in Pearl River Delta of China | Beibing Zou (Early Career Scientist), Key Laboratory for Urban Habitat Environmental Science and Technology, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055 |
| 6.150 | Convective transport of short-lived hydrocarbons and bromocarbons from the surface to the upper troposphere and lower stratosphere | Qing Liang, NASA GSFC/USRA |
| 6.151 | Formaldehyde column density measurements as a suitable pathway to estimate near-surface ozone tendencies from space | Jason Schroeder (Early Career Scientist), NASA Langley |
| 6.152 | Path-dependent lifetimes: Observations and Models | Huang Yang (Early Career Scientist), Department of Earth and Planetary Sciences, Johns Hopkins University, Baltimore, Maryland, USA |
| 6.154 | Understanding the origin of CCN in the remote troposphere | Agnieszka Kupc (Early Career Scientist), Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, Boulder, CO, USA; National Oceanic and Atmospheric Administration (NOAA), Earth System Research Laboratory, Chemical Sciences Division, Boulder, CO, USA; University of Vienna, Faculty of Physics, Aerosol and Environmental Physics, Vienna, Austria |
| 6.155 | Influence of the weather pattern on the photochemical ozone production of Lima, Peru | Rodrigo Seguel, SAGU Chile |
| 6.156 | Ozone responses to atmospheric modulations in Malaysia | Fatimah Ahamad (Early Career Scientist), School of Environmental and Natural Resource Sciences, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia |
| 6.157 | Chemical four dimensional variational data assimilation in WRFDA-Chem: Improving Black Carbon Emission Inventories during ARCTAS-CARB | Jonathan Guerrette (Early Career Scientist), University of Colorado, Department of Mechanical Engineering, Boulder, CO |
| 6.158 | Seasonality, Interannual Variability and Regional Sources of PAN over North America: New Satellite Observations and Model Analyses | Emily Fischer, Colorado State University |
| 6.159 | Measurements of black carbon containing aerosols in South Korea during KORUS-AQ | Kara Lamb (Early Career Scientist), CIRES/NOAA |
| 6.161 | Observations of particle organic nitrate from airborne/ground platforms: Insights into vertical/geographical distribution, gas/particle partitioning, losses, and contribution to total particle nitrate | Douglas A. Day, Cooperative Institute for Research in Environmental Sciences (CIRES) and Dept. of Chemistry & Biochemistry, University of Colorado, Boulder, CO, USA |
| 6.168 | Emission sources of C2-C7 non-methane hydrocarbons at an urban site of western India. | RAVI YADAV (Early Career Scientist), PHYSICAL RESEARCH LABORATORY, SPACE AND ATMOSPHERIC SCIENCE DIVISION, AHMEDABAD, GUJARAT, INDIA |
| 6.169 | Long term trends in atmospheric composition from Australian ground-based remote sensing measurements | Nicholas Brian Jones, School of Chemistry, University of Wollongong, Wollongong, NSW, Australia |
| 6.174 | Influence of meteorological and trace gas factors on surface ozone concentrations in the interior of South Africa | Tracey Leah Laban (Early Career Scientist), Unit for Environmental Sciences and Management, North-West University, Potchefstroom, South Africa |
| 6.177 | Stratospheric intrusions investigated using high-resolution global simulations from the NASA GEOS-5 model | Katherine Emma Knowland (Early Career Scientist), USRA/GESTAR, GMAO, NASA Goddard Space Flight Center, Greenbelt, Maryland, USA |
| 6.179 | New insights into VOC emissions and chemistry using high-resolution chemical-ionization time-of-flight mass spectrometry (H3O+ ToF-CIMS) | Abigail Koss (Early Career Scientist), CIRES/NOAA |
| 6.180 | Universal Spot Sampler: a new approach with unlimited possibilities for the chemical characterization of ambient aerosols | Arantzazu Eiguren-Fernandez, Aerosol Dynamics Inc. |
| 6.182 | Enhanced formation of Isoprene-derived Organic Aerosol in Sulfur-rich Power Plant Plumes during Southeast Nexus (SENEX) | Lu Xu (Early Career Scientist), School of Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA, USA |
| 6.185 | New method for the calibration of an Aerosol Photo-Acoustic Spectrometer for in-situ measurement of Black and Brown Carbon | Katie Foster (Early Career Scientist), Department of Atmospheric Science, University of Wyoming, Laramie, Wyoming, USA |
| 6.190 | Characteristics of atmospheric depositions of ionic and carbonaceous components in North and South East Asia | Keiichi Sato, Asia Center for Air Pollution Research |
| 6.191 | Formaldehyde and ethane variability in central Mexico from ground-based FTIR measurements | CESAR AUGUSTO GUARIN DURAN (Early Career Scientist), Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de Mexico (UNAM), Mexico City, Mexico |
| 6.192 | A Low Power, High Mobility Cavity Ring-Down Spectroscopy Analyzer for In Situ Measurements of CO2, CH4, and H2O | Milos Markovic, Picarro Inc. |
| 6.193 | ELEMENTAL ANALYSIS OF FINE ATMOSPHERIC AEROSOLS FROM A SITE IN MEXICO CITY | ALFONSO ENRIQUE HERNÁNDEZ LÓPEZ (Early Career Scientist), CENTRO DE CIENCIAS DE LA ATMÓSFERA, UNIVERSIDAD NACIONAL AUTÓNOMA DE MÉXICO. CIRCUITO INVESTIGACIÓN CIENTÍFICA, 04510, México, D.F., MEXICO |
| 6.194 | Isotopic Methane and Ethane-to-Methane Ratio Analysis Using a Cavity Ring-Down Spectrometer | Iain Green, Picarro Inc. |
| 6.195 | Satellite Maps and Relevant Compositional Properties of PM2.5 in Difficult Winter Situations and Comparisons to DISCOVER-AQ Airborne Sampling | Robert Chatfield, NASA Ames Research Center |
| 6.198 | Seasonal and geographical patterns of chlorine species in Northern Europe | Roberto Sommariva, Department of Chemistry, University of Leicester, Leicester, UK |
| 6.201 | A sun photometer to connect local and remote sensing of aerosols | Daniel Murphy, NOAA |
| 6.203 | Tracing sources of airborne particulate matter using stable lead and strontium isotopes in Kyrgyzstan | Nitika Dewan (Early Career Scientist), University of Denver |
| 6.205 | Indirect Evidence on the Composition and Origin of Ultrafine Atmospheric Particles in the High Arctic | Konstantinos Eleftheriadis, ERL, INRaSTES, NCSR Demokritos, Athens 15310, Greece |
| 6.206 | Source of SO2 and fine sulfate particles (<0.45 µm) in the Arctic summer | Roghayeh Ghahremaninezhad (Early Career Scientist), Depatrment of Physics and Astronomy, University of Calgary, Calgary, Canada |
| 6.208 | 16 years of carbon monoxide observations from MOPITT | Helen Worden, NCAR |
| 6.209 | First Lidar measurements in the Brazilian Northeast to study transatlantic transport of Saharan aerosols | Judith Hoelzemann, Department of Atmospheric and Climate Sciences, Federal University of Rio Grande do Norte, Natal, Rio Grande do Norte, Brazil |
| 6.210 | Dynamic and Thermodynamic Forcing of Bioaerosol Spore Production | Alexis Attwood, Droplet Measurement Technologies, Boulder, CO USA |
| 6.211 | An investigation on the origin of regional spring time ozone episodes in the Western Mediterranean and Central Europe | Pavlos Kalabokas, Research Center for Atmospheric Physics and Climatology, Academy of Athens, Athens, Greece |
| 6.212 | The Copernicus Atmosphere Monitoring Service (CAMS) | Claire GRANIER, LATMOS-Lab. Aerologie, France; NOAA/U. Colorado-CIRES, USA |
| 6.213 | More than 15 years long-term monitoring of hydroxyl radicals at the GAW station Hohenpeissenberg | Dagmar Kubistin, German Meteorological Service, Meteorological Observatory Hohenpeissenberg, Germany |
| 6.214 | Subseasonal variability of surface ozone in the Mexico City basin | Bradford Barrett, US Naval Academy, Oceanography Department, Annapolis, MD USA |
| 6.215 | Constraining regional and national fossil fuel CO2 emissions using atmospheric observations of CO2 and 14CO2 | Sourish Basu, NOAA Earth System Research Laboratory, Global Monitoring Division, Boulder CO, USA |
| 6.216 | Tropical sources and sinks of carbonyl sulfide observed from space | Elliott Campbell, UC Merced |
