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Cronin, T. W., & Wing, A. A. (2017). Clouds, Circulation, and Climate Sensitivity in a Radiative-Convective Equilibrium Channel Model. J. Adv. Model. Earth Syst., 9(8), 2883–2905.
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He, J., & Soden, B. J. (2015). Anthropogenic Weakening of the Tropical Circulation: The Relative Roles of Direct CO[sub:2]Forcing and Sea Surface Temperature Change. J. Climate, 28(22), 8728–8742.
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Heath, N. K., Fuelberg, H. E., Tanelli, S., Turk, F. J., Lawson, R. P., Woods, S., et al. (2017). WRF nested large-eddy simulations of deep convection during SEAC(4)RS. J. Geophys. Res. Atmos., 122(7), 3953–3974.
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Lozier, M. S., Lozier MS, Li, F., Li F, Bacon, S., Bacon S, et al. (2019). A sea change in our view of overturning in the subpolar North Atlantic. Science, 363(6426).
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Mapes, B. E. (2016). Gregarious convection and radiative feedbacks in idealized worlds. J. Adv. Model. Earth Syst., 8(2), 1029–1033.
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Miyamoto, Y., Yamaura, T., Yoshida, R., Yashiro, H., Tomita, H., & Kajikawa, Y. (2016). Precursors of deep moist convection in a subkilometer global simulation. J. Geophys. Res. Atmos., 121(20), 12,080–12,088.
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Nicholson, S. E. (2015). Evolution and current state of our understanding of the role played in the climate system by land surface processes in semi-arid regions. Global and Planetary Change, 133, 201–222.
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Wing, A. A. (2019). Self-Aggregation of Deep Convection and its Implications for Climate. Curr Clim Change Rep, 5(1), 1–11.
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Zhu, P. (2015). On the Mass-Flux Representation of Vertical Transport in Moist Convection. J. Atmos. Sci., 72(12), 4445–4468.
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