Ceppi, P., Myers, T. A., Nowack, P., Wall, C. J., & Zelinka, M. D. (2024). Implications of a pervasive climate model bias for low-cloud feedback. Geophysical Research Letters (in press)
Quaas, J., Andrews, T., Bellouin, N., Block, K., Boucher, O., Ceppi, P., Dagan, G., Doktorowski, S., Eichholz, H. M., Forster, P., Goren, T., Gryspeerdt, E., Hodnebrog, Ø., Jia, H., Kramer, R., Lange, C., Maycock, A. C., Mülmenstädt, J., Myhre, G., O’Connor, F. M., Pincus, R., Samset, B. H., Senf, F., Shine, K. P., Smith, C., Stjern, C. W., Takemura, T., Toll, V., & Wall, C. J. (2024). Adjustments to climate perturbations – mechanisms, implications, observational constraints. AGU Advances (link, pdf)
Vishny, D. N., Wall, C. J., & Lutsko, N. J. (2024). Impact of atmospheric cloud radiative effects on annular mode persistence in idealized simulations. Geophysical Research Letters (link, pdf)
Song, C., McCoy, D. T., Eidhammer, T., Gettelman, A., McCoy, I. L., Watson-Parris, D., Wall, C. J., Elsaesser, G., & Wood, R. (2024). Buffering of aerosol-cloud adjustments by coupling between radiative susceptibility and precipitation efficiency, Geophysical Research Letters (link, pdf)
Sokol, A.B., Wall, C. J., & Hartmann, D. L. (2024). Anvil Cloud Thinning Implies Greater Climate Sensitivity, Nature Geoscience (link, pdf)
Andersen, H., Cermak, J., Douglas, A., Myers, T. A., Nowack, P., Stier, P., Wall, C. J., & Kemsley, S. W. (2023). Sensitivities of Cloud Radiative Effects to Large-Scale Meteorology and Aerosols from Global Observations, Atmospheric Chemistry and Physics (link, pdf)
Wall, C. J., Storelvmo, T., & Possner, A. (2023). Global Observations of Aerosol Indirect Effects from Marine Liquid Clouds, Atmospheric Chemistry and Physics (link, pdf)
Pincus, R., Hubanks, P. A., Platnick, S. A., Meyer, K., Holz, R. E., Botambekov, D., & Wall, C. J. (2023). Updated Observations of Clouds by MODIS for Global Model Assessment, Earth System Science Data (link, pdf)
Lutsko, N. J., Luongo, M. T., Wall, C. J., & Myers, T. A. (2022). Correlation Between Cloud Adjustments and Cloud Feedbacks Responsible for Larger Range of Climate Sensitivities in CMIP6, Journal of Geophysical Research: Atmospheres (link, pdf)
Wall, C. J., Norris, J. R., Possner, A., McCoy, D. T., McCoy, I. L., & Lutsko, N. J. (2022). Assessing Effective Radiative Forcing from Aerosol-Cloud Interactions over the Global Ocean, Proceedings of the National Academey of Sciences of the U.S.A. (pdf, SI Appendix)
Wall, C. J., Lutsko, N. J., & Vishny, D. N. (2022). Revisiting Cloud Radiative Heating and the Southern Annular Mode, Geophysical Research Letters (pdf, SI Appendix)
Wall, C. J., Storelvmo, T., Norris, J. R., & Tan, I. (2022). Observational Constraints on Southern Ocean Cloud-Phase Feedback, Journal of Climate (pdf, SI Appendix)
Gasparini, B., Sokol, A. B., Wall, C. J., Hartmann, D. L., & Blossey, P. N. (2022). Diurnal Differences in Tropical Maritime Anvil Cloud Evolution, Journal of Climate (pdf)
Gasparini, B., Rasch, P. J., Hartmann, D. L., Wall, C. J., & Dütsch, M. (2021). A Lagrangian Perspective on Tropical Anvil Cloud Lifecycle in Present and Future Climate, Journal of Geophysical Research: Atmospheres (pdf)
Wall, C. J., Norris, J. R., Gasparini, B., Smith, W. L., Thieman, M. M., & Sourdeval, O. (2020). Observational Evidence that Radiative Heating Modifies the Life Cycle of Tropical Anvil Clouds. Journal of Climate (pdf)
Wall, C. J., Hartmann, D. L., & Norris, J. R. (2019). Is the Net Cloud Radiative Effect Constrained to be Uniform over the Tropical Warm Pools? Geophysical Research Letters (link, pdf, SI Appendix)
Wall, C. J., & Hartmann, D. L. (2018). Balanced Cloud Radiative Effects Across a Range of Dynamical Conditions Over the Tropical West Pacific. Geophysical Research Letters (link, pdf, SI Appendix)
Wall, C. J., Hartmann, D. L., Thieman, M. M., Smith, W. L., & Minnis, P. (2018). The Life Cycle of Anvil Clouds and the Top-of-Atmosphere Radiation Balance over the Tropical West Pacific. Journal of Climate (link, pdf)
Wall, C. J., Hartmann, D. L., & Ma, P. L. (2017). Instantaneous Linkages between Clouds and Large-Scale Meteorology over the Southern Ocean in Observations and a Climate Model. Journal of Climate (link, pdf)
Correction: Wall, Hartmann, & Ma (2017) analyzed the CALIPSO-CloudSat-CERES-MODIS (CCCM) merged dataset. They incorrectly used latitude/longitude coordinates from the variables "Colatitude of the subsatellite point at the surface at observation" and "Longitude of the subsatallite point at observation" (SSF-6 and SSF-7). These coordinates are offset from the true latitude/longtidue coordinates of the CCCM observations at the surface by about 1°-2° longitude and 0.2°-0.3° latitude because the CALIOP lidar views a slight angle off nadir, and the CCCM data coincide with those measurements. The correct latitude/longitude coordinates of the CCCM observations at the surface are given by the variables "Colatitude of the CERES FOV at surface" and "Longitude of the CERES FOV at surface" (SSF-10 and SSF-11).
Wall, C. J., Kohyama, T., & Hartmann, D. L. (2017). Low-Cloud, Boundary Layer, and Sea Ice Interactions over the Southern Ocean during Winter. Journal of Climate (link, pdf)
Kay, J. E., Wall, C. J., Yettella, V., Medeiros, B., Hannay, C., Caldwell, P., & Bitz, C. (2016). Global Climate Impacts of Fixing the Southern Ocean Shortwave Radiation Bias in the Community Earth System Model (CESM). Journal of Climate (link, pdf)
Wall, C. J., & Hartmann, D. L. (2015). On the Influence of Poleward Jet Shift on Shortwave Cloud Feedback in Global Climate Models. Journal of Advances in Modelling Earth Systems (link, pdf)