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Publications Citing DCOTSS Data
List of peer-reviewed publications that cite using DCOTSS data.
Filters
| Title | Year Sort ascending | Author | Topic | Dataset |
|---|---|---|---|---|
| Atmospheric turbulence in the upper troposphere and lower stratosphere from airborne observations during the DCOTSS field campaign | Kim, SooHyun, Ueyama, Rei, Atlas, Rachel, DeanDay, Jonathan, Bui, Paul, Smith, Jessica B., Podglajen, Aurelien, Homeyer, Cameron R. | Clouds, Cloud Properties, Convective Clouds/Systems (Observed/Analyzed), Weather Events, Cloud Top Height, Brightness Temperature, Tropopause, RADAR, Radar Reflectivity, Aerosols, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons, Methane, Atmospheric Ozone, Sulfur Compounds, Static Pressure, Atmospheric Winds, Atmospheric Temperature, Upper Level Winds, Nitrogen Dioxide, Atmospheric Water Vapor, Formaldehyde, Oxygen Compounds, Hydrogen Compounds, Nitrogen Compounds, Carbon And Hydrocarbon Compounds, Water Vapor Indicators, Halocarbons And Halogens, Halons, Water Vapor, Atmospheric Chemistry, Aerosol Concentration, Aerosol Size Distribution, Chlorine Nitrate, Photolysis Rates, Atmospheric Pressure, U/V Wind Components, Horizontal Wind Velocity/Speed, Vertical Wind Velocity/Speed, Nitrous Oxide, Airspeed/Ground Speed, Altitude, Chemical Composition, Sea Salt, Nitrate Particles, Sulfate Particles, Organic Particles | ||
| Quantifying Tropopause-Overshooting Volume From Satellite and Radar Observations During the DCOTSS 2021 and 2022 Campaigns | Itterly, Kyle F., Bedka, Kristopher M., Homeyer, Cameron R., Khlopenkov, Konstantin | Cloud Microphysics, Cloud Dynamics | ||
| Stratospheric aerosol perturbation by tropospheric biomass burning and deep convection | Shen, X., Jacquot, J. L., Li, Y., Sharpe, S. A. L., Dykema, J. A., Schill, G. P., Bowman, K. P., Homeyer, C. R., Fraund, M., Moffet, R. C., Olayemi, T. E., Pittman, J. V., Rivera-Adorno, F. A., Murphy, D. M., Smith, J. B., Laskin, A., Keutsch, F. N., Cziczo, D. J. | Aerosols, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons, Methane, Atmospheric Ozone, Sulfur Compounds, Static Pressure, Atmospheric Winds, Atmospheric Temperature, Upper Level Winds, Nitrogen Dioxide, Atmospheric Water Vapor, Formaldehyde, Oxygen Compounds, Hydrogen Compounds, Nitrogen Compounds, Carbon And Hydrocarbon Compounds, Water Vapor Indicators, Halocarbons And Halogens, Halons, Water Vapor, Atmospheric Chemistry, Aerosol Concentration, Aerosol Size Distribution, Chlorine Nitrate, Photolysis Rates, Atmospheric Pressure, U/V Wind Components, Horizontal Wind Velocity/Speed, Vertical Wind Velocity/Speed, Nitrous Oxide, Airspeed/Ground Speed, Altitude, Chemical Composition, Sea Salt, Nitrate Particles, Sulfate Particles, Organic Particles | ||
| Airborne observations of upper troposphere and lower stratosphere composition change in active convection producing above-anvil cirrus plumes | Gordon, Andrea E., Homeyer, Cameron R., Smith, Jessica B., Ueyama, Rei, Dean-Day, Jonathan M., Atlas, Elliot L., Smith, Kate, Pittman, Jasna V., Sayres, David S., Wilmouth, David M., Pandey, Apoorva, St. Clair, Jason M., Hanisco, Thomas F., Hare, Jennifer, Hannun, Reem A., Wofsy, Steven, Daube, Bruce C., Donnelly, Stephen | Clouds, Cloud Properties, Convective Clouds/Systems (Observed/Analyzed), Weather Events, Cloud Top Height, Brightness Temperature, Tropopause, RADAR, Radar Reflectivity, Aerosols, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons, Methane, Atmospheric Ozone, Sulfur Compounds, Static Pressure, Atmospheric Winds, Atmospheric Temperature, Upper Level Winds, Nitrogen Dioxide, Atmospheric Water Vapor, Formaldehyde, Oxygen Compounds, Hydrogen Compounds, Nitrogen Compounds, Carbon And Hydrocarbon Compounds, Water Vapor Indicators, Halocarbons And Halogens, Halons, Water Vapor, Atmospheric Chemistry, Aerosol Concentration, Aerosol Size Distribution, Chlorine Nitrate, Photolysis Rates, Atmospheric Pressure, U/V Wind Components, Horizontal Wind Velocity/Speed, Vertical Wind Velocity/Speed, Nitrous Oxide, Airspeed/Ground Speed, Altitude, Chemical Composition, Sea Salt, Nitrate Particles, Sulfate Particles, Organic Particles | ||
| Using the NAMA as a Natural Integrator to Quantify the Convective Contribution to Lower Stratospheric Water Vapor Over North America | Sayres, David S., Smith, Jessica B., Wilmouth, David M., Pandey, Apoorva, Homeyer, Cameron R., Bowman, Kenneth P., Anderson, James G. | Aerosols, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons, Methane, Atmospheric Ozone, Sulfur Compounds, Static Pressure, Atmospheric Winds, Atmospheric Temperature, Upper Level Winds, Nitrogen Dioxide, Atmospheric Water Vapor, Formaldehyde, Oxygen Compounds, Hydrogen Compounds, Nitrogen Compounds, Carbon And Hydrocarbon Compounds, Water Vapor Indicators, Halocarbons And Halogens, Halons, Water Vapor, Atmospheric Chemistry, Aerosol Concentration, Aerosol Size Distribution, Chlorine Nitrate, Photolysis Rates, Atmospheric Pressure, U/V Wind Components, Horizontal Wind Velocity/Speed, Vertical Wind Velocity/Speed, Nitrous Oxide, Airspeed/Ground Speed, Altitude, Chemical Composition, Sea Salt, Nitrate Particles, Sulfate Particles, Organic Particles | ||
| Stratospheric Hydration Processes in Tropopause-Overshooting Convection Revealed by Tracer-Tracer Correlations From the DCOTSS Field Campaign | Homeyer, Cameron R., Gordon, Andrea E., Smith, Jessica B., Ueyama, Rei, Wilmouth, David M., Sayres, David S., Hare, Jennifer, Pandey, Apoorva, Hanisco, Thomas F., DeanDay, Jonathan M., Hannun, Reem, St. Clair, Jason M. | Aerosols, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons, Methane, Atmospheric Ozone, Sulfur Compounds, Static Pressure, Atmospheric Winds, Atmospheric Temperature, Upper Level Winds, Nitrogen Dioxide, Atmospheric Water Vapor, Formaldehyde, Oxygen Compounds, Hydrogen Compounds, Nitrogen Compounds, Carbon And Hydrocarbon Compounds, Water Vapor Indicators, Halocarbons And Halogens, Halons, Water Vapor, Atmospheric Chemistry, Aerosol Concentration, Aerosol Size Distribution, Chlorine Nitrate, Photolysis Rates, Atmospheric Pressure, U/V Wind Components, Horizontal Wind Velocity/Speed, Vertical Wind Velocity/Speed, Nitrous Oxide, Airspeed/Ground Speed, Altitude, Chemical Composition, Sea Salt, Nitrate Particles, Sulfate Particles, Organic Particles | ||
| Extreme Altitudes of Stratospheric Hydration by Midlatitude Convection | Homeyer, Cameron R., Smith, Jessica B., Bedka, Kristopher M., Bowman, Kenneth P., Wilmouth, David M., Ueyama, Rei, DeanDay, Jonathan M., St. Clair, Jason M., Hannun, Reem, Hare, Jennifer, Pandey, Apoorva, Sayres, David S., Hanisco, Thomas F., Gordon, Andrea E., Tinney, Emily N. | Clouds, Cloud Properties, Convective Clouds/Systems (Observed/Analyzed), Weather Events, Cloud Top Height, Brightness Temperature, Tropopause, RADAR, Radar Reflectivity, Aerosols, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons, Methane, Atmospheric Ozone, Sulfur Compounds, Static Pressure, Atmospheric Winds, Atmospheric Temperature, Upper Level Winds, Nitrogen Dioxide, Atmospheric Water Vapor, Formaldehyde, Oxygen Compounds, Hydrogen Compounds, Nitrogen Compounds, Carbon And Hydrocarbon Compounds, Water Vapor Indicators, Halocarbons And Halogens, Halons, Water Vapor, Atmospheric Chemistry, Aerosol Concentration, Aerosol Size Distribution, Chlorine Nitrate, Photolysis Rates, Atmospheric Pressure, U/V Wind Components, Horizontal Wind Velocity/Speed, Vertical Wind Velocity/Speed, Nitrous Oxide, Airspeed/Ground Speed, Altitude, Chemical Composition, Sea Salt, Nitrate Particles, Sulfate Particles, Organic Particles, Cloud Microphysics, Cloud Dynamics |