Recent Publications
This page lists the most recently-uploaded publications that have been added to the ESD Publications database. Select one or more Research Program(s) to filter the list.
| Publication Citation | Research Program(s) | Revision create time |
|---|---|---|
| Kiefer, M., D.F. Hurst, G.P. Stiller, S. Lossow, H. Vömel, J. Anderson, F. Azam, J.-L. Bertaux, L. Blanot, K. Bramstedt, J.P. Burrows, R. Damadeo, B.M. Dinelli, P. Eriksson, M. García-Comas, J.C. Gille, M. Hervig, Y. Kasai, F. Khosrawi, D. Murtagh, G.E. Nedoluha, S. Noël, P. Raspollini, W.G. Read, K.H. Rosenlof, A. Rozanov, C.E. Sioris, T. Sugita, T. von Clarmann, K.A. Walker, and K. Weigel (2023), The SPARC water vapour assessment II: biases and drifts of water vapour satellite data records with respect to frost point hygrometer records, Atmos. Meas. Tech., 16, 4589-4642, doi:10.5194/amt-16-4589-2023. | UARP | |
| Yao, Y., V. Humphrey, A.G. Konings, Y. Wang, Y. Yin, N. Holtzman, J.D. Wood, Y. Bar‐On, and C. Frankenberg (2024), Investigating Diurnal and Seasonal Cycles of Vegetation Optical Depth Retrieved From GNSS Signals in a Broadleaf Forest, Geophys. Res. Lett., 51, e2023GL107121, doi:10.1029/2023GL107121. | ||
| Wang, Y., R.K. Braghiere, Y. Yin, Y. Yao, D. Hao, and C. Frankenberg (2024), Beyond the visible: Accounting for ultraviolet and far-red radiation in vegetation productivity and surface energy budgets, doi:10.1111/gcb.17346. | ||
| Wang, Y., and C. Frankenberg (2024), Toward More Accurate Modeling of Canopy Radiative Transfer and Leaf Electron Transport in Land Surface Modeling, Earth's Future, 16, e2023MS003992, doi:10.1029/2023MS003992. | ||
| Frankenberg, C., Y.M. Bar‐On, Y. Yin, P.O. Wennberg, D.J. Jacob, and A.M. Michalak (2024), Data Drought in the Humid Tropics: How to Overcome the Cloud Barrier in Greenhouse Gas Remote Sensing, Geophys. Res. Lett., 51, e2024GL108791, doi:10.1029/2024GL108791. | ||
| Nedoluha, G.E., R.M. Gomez, I. Boyd, H. Neal, D.R. Allen, D.E. Siskind, and A. Lambert (2022), Measurements of mesospheric water vapor from 1992 to 2021 at three stations from the Network for the Detection of Atmospheric Composition Change, J. Geophys. Res., 127, e2022JD037227, doi:10.1029/2022JD037227. | UARP | |
| Zhang, J., X. Gong, E. Crosbie, G. Diskin, K. Froyd, S. Hall, A. Kupc, R. Moore, J. Peischl, A. Rollins, J. Schwarz, M. Shook, C. Thompson, K. Ullmann, C. Williamson, A. Wisthaler, L. Xu, L. Ziemba, C.A. Brock, and J. Wang (2024), Stratospheric air intrusions promote global-scale new particle formation.Science, Wang, 385, 210-216, doi:10.1126/science.adn2961. | Atmospheric Composition, TCP | |
| Roberts, J.M., S. Wang, P.R. Veres, J.A. Neuman, M.A. Robinson, I. Bourgeois, J. Peischl, T.B. Ryerson, C.R. Thompson, H.M. Allen, J.D. Crounse, P.O. Wennberg, S.R. Hall, K. Ullmann, S. Meinardi, I.J. Simpson, and D. Blake (2024), Observations of cyanogen bromide (BrCN) in the global troposphere and their relation to polar surface O3 destruction, Atmos. Chem. Phys., doi:10.5194/acp-24-3421-2024. | Atmospheric Composition, TCP | |
| zhang, X., S. Wang, E.C. Apel, R. Schwantes, R.S. Hornbrook, A.J. Hills, K.E. Demarsh, Z. Moo, J. Ortega, W. Brune, R.L. Mauldin, C. Cantrell, A. Teng, D. Blake, T. Campos, B. Daube, L. Emmons, S. Hall, K. Ullmann, S. Wofsy, P.O. Wennberg, G.S. Tyndall, and J. Orlando (2022), Probing isoprene photochemistry at atmospherically relevant nitric oxide levels, Chem, 8, 2022, doi:10.1016/j.chempr.2022.08.003. | Atmospheric Composition, TCP | |
| Nedoluha, G., R.M. Gomez, I. Boyd, H. Neal, D.R. Allen, and A. Lambert (2024), The Spread of the Hunga Tonga H2O Plume in the Middle Atmosphere Over the First Two Years Since Eruption, J. Geophys. Res., 129, e2024JD040907, doi:10.1029/2024JD040907. | UARP | |
| Travis, K.R., J.H. Crawford, A. Soja, E.B. Wiggins, E.M. Gargulinski, R.H. Moore, J.P. DiGangi, J.B. Nowak, C. Warneke, C.C. Womack, M.A. Robinson, J.M. Katich, M. Coggon, A.W. Rollins, J. Gilman, J.E. Dibb, T.F. Hanisco, G.M. Wolfe, J. Liao, J.M. St. Clair, E.C. Apel, R.S. Hornbrook, A.J. Hills, J.L. Jimenez, P. Campuzano-Jost, D.A. Day, H. Guo, D. Pagonis, B.A. Nault, J.L. McCarty, A. Fried, P.S. Rickly, R.J. Yokelson, P.O. Wennberg, L. Xu, I.J. Simpson, D.R. Blake, A. Lamplugh, A.E. Perring, and A.E. Perring (2023), Emission Factors for Crop Residue and Prescribed Fires in the Eastern US during FIREX-AQ, J. Geophys. Res., 128, e2023JD039309, doi:10.1029/2023JD039309. | TCP | |
| Chan, Y.-C., L. Jaeglé, P. Campuzano-Jost, D.C. Catling, J. Cole-Dai, V.I. Furdui, W.A. Jackson, J.L. Jimenez, D. Kim, A.E. Wedum, and B. Alexander (2023), Stratospheric gas-phase production alone cannot explain observations of atmospheric perchlorate on Earth, Geophys. Res. Lett., 50, org/10.1029/2023GL102745, doi:10.1029/2023GL102745. | TCP | |
| Wang, J., L. Castro-Garcia, G.D. Jenerette, M. Chandler, C. Ge, D. Kucera, S. Koutzoukis, and J. Zeng (2024), published by Wiley Periodicals LLC on behalf of American Geophysical Union. 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 , Wang Et Al., 1, 15. | ASP, MAP, Atmospheric Composition, ACMAP, RSP, TCP, UARP | |
| Wei, J., J. Wang, Z. Li, S. Kondragunt, S. Anenberg, Y. Wang, H. Zhang, D. Diner, J. Hand, A. Lyapustin, R. Kahn, P. Colarco, A. da Silv, and C. Ichoku (2024), Long-term mortality burden trends attributed to black carbon and PM2·5 from wildfire emissions across the continental USA from 2000 to 2020: a deep learning modelling study. | ASP, MAP, Atmospheric Composition, ACMAP, TCP | |
| Wang, Z., S. Xiao, C. Reuben, Q. Wang, and J. Wang (2024), Soil NOx Emission Prediction via Recurrent Neural Networks, Tech Science Press, doi:10.32604/cmc.2023.044366. | Atmospheric Composition, ACMAP, TCP | |
| Gordon, A.E., C.R. Homeyer, J.B. Smith, R. Ueyama, J.M. Dean-Day, E.L. Atlas, K. Smith, J.V. Pittman, D.S. Sayres, D.M. Wilmouth, A. Pandey, J.M. St. Clair, T.F. Hanisco, J. Hare, R.A. Hannun, S. Wofsy, B.C. Daube, and S. Donnelly (2024), Airborne observations of upper troposphere and lower stratosphere composition change in active convection producing above-anvil cirrus plumes, Atmos. Chem. Phys., doi:10.5194/acp-24-7591-2024. | Atmospheric Composition, UARP | |
| Pan, L.L., E.L. Atlas, S.B. Honomichl, W.P. Smith, D.E. Kinnison, S. Solomon, M.L. Santee, A. Saiz-Lopez, J.C. Laube, B. Wang, R. Ueyama, J.F. Bresch, R.S. Hornbrook, E.C. Apel, A.J. Hills, V. Treadaway, K. Smith, S. Schauffler, S. Donnelly, R. Hendershot, R. Lueb, T. Campos, S. Viciani, F. D’Amato, G. Bianchini, M. Barucci, J.R. Podolske, L.T. Iraci, C. Gurganus, P. Bui, J.M. Dean-Day, L. Millán, J.-. Ryoo, B. Barletta, J.-. Koo, J. Kim, Q. Liang, W.J. Randel, T. Thornberry, and P.A. Newman (2024), East Asian summer monsoon delivers large abundances of very-short-lived organic chlorine substances to the lower stratosphere, Proc. Natl. Acad. Sci., doi:10.1073/pnas.2318716121. | Atmospheric Composition, UARP | |
| Jensen, E.J., B. Kärcher, S. Woods, M. Krämer, and R. Ueyama (2024), The Impact of Gravity Waves on the Evolution of Tropical Anvil Cirrus Microphysical Properties, J. Geophys. Res.. | Atmospheric Composition, UARP | |
| Uchoa, I., J.O. Wenegrat, and L. Renault (2024), Sink of eddy energy by submesoscale sea surface temperature variability in a coupled regional model, J. Phys. Oceanogr (submitted). | POP | |
| Torres, H.S., E. Rodriguez, A. Wineteer, P. Klein, A.F. Thompson, J. Callies, E. D'Asaro, D. Perkovic-Martin, J.T. Farrar, F. Polverari, and R. Akbar (2024), Airborne observations of fast-evolving ocean submesoscale turbulence, Nat. Comm. | POP |