SG Publications
This page lists the publications in the ESD Publications database, sorted by first author and year. To filter the list, select one or more Research Program(s) to filter the list, or else specify a publication year (e.g., 2011). Options to view other pages of the list are provided at the bottom of the page.
| Publication Citation |
|---|
| Sauvageat, E., R. Albers, M. Kotiranta, K. Hocke, R.M. Gomez, G. Nedoluha, and A. Murk (2021), Comparison of Three High Resolution Real-Time Spectrometers for Microwave Ozone Profiling Instruments, in IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 14, 10045-10056, doi:10.1109/JSTARS.2021.3114446. |
| Saylor, C., J.B. Rundle, and A. Donnellan (2021), This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes., Earth and Space, 10.1029/2020EA001433. |
| Schueneman, M.K., B.A. Nault, P. Campuzano-Jost, D.S. Jo, D.A. Day, J.C. Schroder, B.B. Palm, A. Hodzic, J.E. Dibb, and J.L. Jimenez (2021), Aerosol pH indicator and organosulfate detectability from aerosol mass spectrometry measurements, Atmos. Meas. Tech., 14, 2237-2260, doi:10.5194/amt-14-2237-2021. |
| Schueneman, M.K., B.A. Nault, P. Campuzano-Jost, D.S. Jo, D.A. Day, J.C. Schroder, B.B. Palm, A. Hodzic, J.E. Dibb, and J.L. Jimenez (2021), Aerosol pH Indicator and Organosulfate Detectability from Aerosol Mass Spectrometry Measurements, Atmos. Meas. Tech., doi:10.5194/amt-2020-339. |
| Scott, B., G. Stephens, E. Berndt, Y. Blanchard, J. Blanchet, G. Carmichael, A. da Silva, R. Ferrare, M. Kacenelenbogen, D. Kirschbaum, Q. Libois, G. Mace, A. Omar, W. Petersen, J. Redemann, F. Seidel, S. van den Heever, D. Waliser, and D. Winker (2021), Aerosol, Cloud, Convection, and Precipitation (ACCP) Science & Applications, tech., report. |
| Sedlacek, A., E. Lewis, T. Onasch, P. Zuidema, J. Redemann, D. Jaffee, and L. Kleinman (2021), Black Carbon Particle Mixing State Analysis Allows Classification of Biomass Burn Aerosol Lifecycle into Three Aging Regimes, Proc. Natl. Acad. Sci., 2021-12527. |
| Seethala, C., P. Zuidema, J. Edson, M. Brunke, G. Chen, X.-Y. Li, D. Painemal, C. Robinson, T. Shingler, M. Shook, A. Sorooshian, L. Thornhill, F. Tornow, H. Wang, X. Zeng, and L. Ziemba (2021), On Assessing ERA5 and MERRA2 Representations of Cold-Air Outbreaks Across the Gulf Stream, Geophys. Res. Lett.. |
| Shen, L., D. Zavala-Araiza, R. Gautam, M. Omara, T. Scarpelli, J. Sheng, M.P. Sulprizio, J. Zhuang, Y. Zhang, Z. Qu, X. Lu, S.P. Hamburg, and D.J. Jacob (2021), Unravelling a large methane emission discrepancy in Mexico using satellite observations, Remote Sensing of Environment, 260, 112461, doi:10.1016/j.rse.2021.112461. |
| Silber, I., A.M. Fridlind, J. Verlinde, A.S. Ackerman, G.V. Cesana, and D.A. Knopf (2021), The prevalence of precipitation from polar supercooled clouds, Atmos. Chem. Phys., 21, 3949-3971, doi:10.5194/acp-21-3949-2021. |
| Siméon, A., F. Waquet, J.-C. Péré, F. Ducos, F. Thieuleux, F. Peers, S. Turquety, and I. Chiapello (2021), Combining POLDER-3 satellite observations and WRF-Chem numerical simulations to derive biomass burning aerosol properties over the Southeast Atlantic region, Atmos. Chem. Phys. Discuss., doi:10.5194/acp-2021-256. |
| Sinclair, K., B. van Diedenhoven, B. Cairns, M. Alexandrov, A.M. Dzambo, and T. L'Ecuyer (2021), Inference of Precipitation in Warm Stratiform Clouds Using Remotely Sensed Observations of the Cloud Top Droplet Size Distribution, Geophys. Res. Lett.. |
| Smith, J. (2021), PERSPECTIVES ATMOSPHERIC SCIENCE Convective hydration of the stratosphere Cirrus plumes above superstorm anvils are visible manifestations of a hydraulic jump, Atmos. Chem. Phys.. |
| Song, Q., Z. Zhang, H. Yu, P. Ginoux, and J. Shen (2021), Global dust optical depth climatology derived from CALIOP and MODIS aerosol retrievals on decadal timescales: regional and interannual variability, Atmos. Chem. Phys., 21, 13369-13395, doi:10.5194/acp-21-13369-2021. |
| Southerland, V.A., S.C. Anenberg, M. Harris, J. Apte, P. Hystad, A. van Donkelaar, R.V. Martin, M. Beyers, and A. Roy (2021), Assessing the Distribution of Air Pollution Health Risks within Cities: A Neighborhood-Scale Analysis Leveraging High-Resolution Data Sets in the Bay Area, California, Research A Section 508-conformant HTML version of this article, doi:10.1289/EHP7679. |
| Spectra, I., G.W. Potentials, T. Gierczak, F. Bernard, D.K. Papanastasiou, and J.B. Burkholder (2021), Atmospheric Chemistry of c‑C5HF7 and c‑C5F8: TemperatureDependent OH Reaction Rate Coefficients, Degradation Products,, J. Phys. Chem. A, 125, 1050-1061, doi:10.1021/acs.jpca.0c10561. |
| Stephens, B.B., E.J. Morgan, J.D. Bent, R.F. Keeling, A.S. Watt, S.R. Shertz, and B.C. Daube (2021), Airborne measurements of oxygen concentration from the surface to the lower stratosphere and pole to pole, Atmos. Meas. Tech., 14, 2543-2574, doi:10.5194/amt-14-2543-2021. |
| Stephens, K.J., C. Wauthier, R. Bussard, M. Higgins, and C. Peter (2021), Assessment of mitigation strategies for tropospheric phase contributions to InSAR time-series datasets over two Nicaraguan volcanoes, 1-8. |
| Sun, J., F. Xu, G. Cervone, M. Gervais, C. Wauthier, and M. Salvador (2021), data using a time-dependent deep neural network, Remote Sensing of Environment. |
| Sun, J., G. Vecchi, and B. Soden (2021), Sea Surface Salinity Response to Tropical Cyclones Based on Satellite Observations, Remote Sens., 13, 420, doi:10.3390/rs13030420. |
| Sun, W., Y. Fang, X. Luo, Y.P. Shiga, Y. Zhang, A.E. Andrews, K.W. Thoning, J.B. Fisher, T.F. Keenan, and A.M. Michalak (2021), Midwest US croplands determine model divergence in North American carbon fluxes, AGU Advances, 2, doi:10.1029/2020AV000310. |
