The following 15 publications cited the product ATom: Merged Atmospheric Chemistry, Trace Gases, and Aerosols, Version 2.
| Year | Citation |
|---|---|
| 2024 | Schuck, T.J., J. Degen, E. Hintsa, P. Hoor, M. Jesswein, T. Keber, D. Kunkel, F. Moore, F. Obersteiner, M. Rigby, T. Wagenhäuser, L.M. Western, A. Zahn, and A. Engel. 2024. The interhemispheric gradient of SF6 in the upper troposphere. Atmospheric Chemistry and Physics. 24(1):689-705. https://doi.org/10.5194/acp-24-689-2024 |
| 2024 | Wu, W., X. Liu, X. Xiong, Q. Yang, L. Zhou, L. Lei, D.K. Zhou, and A.M. Larar. 2024. Spectral Fingerprinting of Methane from Hyper-Spectral Sounder Measurements Using Machine Learning and Radiative Kernel-Based Inversion. Remote Sensing. 16(3):578. https://doi.org/10.3390/rs16030578 |
| 2023 | Anderson, D.C., B.N. Duncan, J.M. Nicely, J. Liu, S.A. Strode, and M.B. Follette-Cook. 2023. Technical note: Constraining the hydroxyl (OH) radical in the tropics with satellite observations of its drivers – first steps toward assessing the feasibility of a global observation strategy. Atmospheric Chemistry and Physics. 23(11):6319-6338. https://doi.org/10.5194/acp-23-6319-2023 |
| 2023 | Jiang, Y., M. Xia, Z. Wang, P. Zheng, Y. Chen, and T. Wang. 2023. Photochemical ageing of aerosols contributes significantly to the production of atmospheric formic acid. Atmospheric Chemistry and Physics. 23(23):14813-14828. https://doi.org/10.5194/acp-23-14813-2023 |
| 2023 | Jin, Y., B.B. Stephens, R.F. Keeling, E.J. Morgan, C. Rödenbeck, P.K. Patra, and M.C. Long. 2023. Seasonal Tropospheric Distribution and Air?Sea Fluxes of Atmospheric Potential Oxygen From Global Airborne Observations. Global Biogeochemical Cycles. 37(10). https://doi.org/10.1029/2023GB007827 |
| 2023 | Katich, J.M., E.C. Apel, I. Bourgeois, C.A. Brock, T.P. Bui, P. Campuzano-Jost, R. Commane, B. Daube, M. Dollner, M. Fromm, K.D. Froyd, A.J. Hills, R.S. Hornbrook, J.L. Jimenez, A. Kupc, K.D. Lamb, K. McKain, F. Moore, D.M. Murphy, B.A. Nault, J. Peischl, A.E. Perring, D.A. Peterson, E.A. Ray, K.H. Rosenlof, T. Ryerson, G.P. Schill, J.C. Schroder, B. Weinzierl, C. Thompson, C.J. Williamson, S.C. Wofsy, P. Yu, and J.P. Schwarz. 2023. Pyrocumulonimbus affect average stratospheric aerosol composition. Science. 379(6634):815-820. https://doi.org/10.1126/science.add3101 |
| 2023 | Luo, G. and F. Yu. 2023. Impact of Air Refreshing and Cloud Ice Uptake Limitations on Vertical Profiles and Wet Depositions of Nitrate, Ammonium, and Sulfate. Geophysical Research Letters. 50(18). https://doi.org/10.1029/2023GL104258 |
| 2023 | Prather, M.J., H. Guo, and X. Zhu. 2023. Deconstruction of tropospheric chemical reactivity using aircraft measurements: the Atmospheric Tomography Mission (ATom) data. Earth System Science Data. 15(7):3299-3349. https://doi.org/10.5194/essd-15-3299-2023 |
| 2023 | Tilmes, S., M.J. Mills, Y. Zhu, C.G. Bardeen, F. Vitt, P. Yu, D. Fillmore, X. Liu, B. Toon, and T. Deshler. 2023. Description and performance of a sectional aerosol microphysical model in the Community Earth System Model (CESM2). Geoscientific Model Development. 16(21):6087-6125. https://doi.org/10.5194/gmd-16-6087-2023 |
| 2023 | van Caspel, W.E., D. Simpson, J.E. Jonson, A.M.K. Benedictow, Y. Ge, A. di Sarra, G. Pace, M. Vieno, H.L. Walker, and M.R. Heal. 2023. Implementation and evaluation of updated photolysis rates in the EMEP MSC-W chemistry-transport model using Cloud-J v7.3e. Geoscientific Model Development. 16(24):7433-7459. https://doi.org/10.5194/gmd-16-7433-2023 |
| 2022 | Lian, S., L. Zhou, D.M. Murphy, K.D. Froyd, O.B. Toon, and P. Yu. 2022. Global distribution of Asian, Middle Eastern, and North African dust simulated by CESM1/CARMA. Atmospheric Chemistry and Physics. 22(20):13659-13676. https://doi.org/10.5194/acp-22-13659-2022 |
| 2022 | Pozzer, A., S.F. Reifenberg, V. Kumar, B. Franco, M. Kohl, D. Taraborrelli, S. Gromov, S. Ehrhart, P. Jöckel, R. Sander, V. Fall, S. Rosanka, V. Karydis, D. Akritidis, T. Emmerichs, M. Crippa, D. Guizzardi, J.W. Kaiser, L. Clarisse, A. Kiendler-Scharr, H. Tost, and A. Tsimpidi. 2022. Simulation of organics in the atmosphere: evaluation of EMACv2.54 with the Mainz Organic Mechanism (MOM) coupled to the ORACLE (v1.0) submodel. Geoscientific Model Development. 15(6):2673-2710. https://doi.org/10.5194/gmd-15-2673-2022 |
| 2022 | Thompson, C.R., S.C. Wofsy, M.J. Prather, P.A. Newman, T.F. Hanisco, T.B. Ryerson, D.W. Fahey, E.C. Apel, C.A. Brock, W.H. Brune, K. Froyd, J.M. Katich, J.M. Nicely, J. Peischl, E. Ray, P.R. Veres, S. Wang, H.M. Allen, E. Asher, H. Bian, D. Blake, I. Bourgeois, J. Budney, T.P. Bui, A. Butler, P. Campuzano-Jost, C. Chang, M. Chin, R. Commane, G. Correa, J.D. Crounse, B. Daube, J.E. Dibb, J.P. DiGangi, G.S. Diskin, M. Dollner, J.W. Elkins, A.M. Fiore, C.M. Flynn, H. Guo, S.R. Hall, R.A. Hannun, A. Hills, E.J. Hintsa, A. Hodzic, R.S. Hornbrook, L.G. Huey, J.L. Jimenez, R.F. Keeling, M.J. Kim, A. Kupc, F. Lacey, L.R. Lait, J.F. Lamarque, J. Liu, K. McKain, S. Meinardi, D.O. Miller, S.A. Montzka, F.L. Moore, E.J. Morgan, D.M. Murphy, L.T. Murray, B.A. Nault, J.A. Neuman, L. Nguyen, Y. Gonzalez, A. Rollins, K. Rosenlof, M. Sargent, G. Schill, J.P. Schwarz, J.M.S. Clair, S.D. Steenrod, B.B. Stephens, S.E. Strahan, S.A. Strode, C. Sweeney, A.B. Thames, K. Ullmann, N. Wagner, R. Weber, B. Weinzierl, P.O. Wennberg, C.J. Williamson, G.M. Wolfe, and L. Zeng. 2022. The NASA Atmospheric Tomography (ATom) Mission: Imaging the Chemistry of the Global Atmosphere. Bulletin of the American Meteorological Society. 103(3):E761-E790. https://doi.org/10.1175/BAMS-D-20-0315.1 |
| 2021 | Long, M.C., B.B. Stephens, K. McKain, C. Sweeney, R.F. Keeling, E.A. Kort, E.J. Morgan, J.D. Bent, N. Chandra, F. Chevallier, R. Commane, B.C. Daube, P.B. Krummel, Z. Loh, I.T. Luijkx, D. Munro, P. Patra, W. Peters, M. Ramonet, C. Rodenbeck, A. Stavert, P. Tans, and S.C. Wofsy. 2021. Strong Southern Ocean carbon uptake evident in airborne observations. Science. 374(6572):1275-1280. https://doi.org/10.1126/science.abi4355 |
| 2021 | Novak, G.A., C.H. Fite, C.D. Holmes, P.R. Veres, J.A. Neuman, I. Faloona, J.A. Thornton, G.M. Wolfe, M.P. Vermeuel, C.M. Jernigan, J. Peischl, T.B. Ryerson, C.R. Thompson, I. Bourgeois, C. Warneke, G.I. Gkatzelis, M.M. Coggon, K. Sekimoto, T.P. Bui, J. Dean-Day, G.S. Diskin, J.P. DiGangi, J.B. Nowak, R.H. Moore, E.B. Wiggins, E.L. Winstead, C. Robinson, K.L. Thornhill, K.J. Sanchez, S.R. Hall, K. Ullmann, M. Dollner, B. Weinzierl, D.R. Blake, and T.H. Bertram. 2021. Rapid cloud removal of dimethyl sulfide oxidation products limits SO 2 and cloud condensation nuclei production in the marine atmosphere . Proceedings of the National Academy of Sciences. 118(42): https://doi.org/10.1073/pnas.2110472118 |