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2019
[14] Zhou, W.*, S-P Xie and D. Yang (2019), Enhanced equatorial warming causes deep-tropical contraction and subtropical monsoon shift. Nature Climate Change, 1-6. [Link]
[13] Amaya, D., Kosaka Y., W. Zhou, Y. Zhang, S-P Xie, and A. J. Miller (2019), The Pacific Meridional Mode pacemaker effect on historical ENSO. Journal of Climate, 32 (22), 7643-7661. [link]
[12] Zhou, W.* and S-P Xie (2019), A spectral plume model for understanding tropical temperature profile and convective updraft velocities. Journal of the Atmospheric Sciences, 76, 2801–2814. [link]
[11] Zhou, W.*, M. Zhao and D. Yang (2019), Understand the direct effect of CO2 increase on tropical circulation and TC activity: land surface warming versus direct radiative forcing. Geophysical Research Letters, 46 (12), 6859-6867. [link]
2018
[10] Zhu, X., D. Li, W. Zhou, G. Ni, Z. Cong, and T. Sun (2018), An idealized LES study of urban modification of moist convection. Quarterly Journal of the Royal Meteorological Society, 143 (709), 3228-3243. [link]
[9] Zhou, W.* and S-P Xie (2018), A hierarchy of idealized monsoons in an intermediate GCM. Journal of Climate, 31 (22), 9021-9036. [link]
[8] Zhou Z-Q, S-P Xie, G-J Zhang, and W. Zhou (2018), Evaluating AMIP skill in simulating interannual variability over the Indo-Western Pacific. Journal of Climate, 31 (6), 2253-2265. [link]
2017
[7] Zhou, W.* and S-P Xie (2017), Intermodel spread of the double‐ITCZ bias in coupled GCMs tied to land surface temperature in AMIP GCMs. Geophysical Research Letters, 44 (15), 7975-7984. [link]
[6] Zhou, W.* and S-P Xie (2017), Intermodel spread around the Kuroshio-Oyashio extension region in coupled GCMs caused by meridional variation of the westerly jet from atmospheric GCMs. Journal of Climate, 30 (12), 4589-4599. [link]
[5] Zhou, W.*, I. M. Held, and S. T. Garner (2017), Tropical cyclones in rotating radiative-convective equilibrium with coupled SST. Journal of the Atmospheric Science, 74 (3), 879-892. [link]
2016
[4] Zhou, W.*, S-P Xie, and Z-Q Zhou (2016), Slow preconditioning for the abrupt convective jump over the northwest Pacific during summer. Journal of Climate, 29 (22), 8103-8113. [link]
[3] Merlis, T. M., W. Zhou, I. M. Held, and M. Zhao (2016), Surface temperature dependence of tropical cyclone permitting simulations in a spherical model with uniform thermal forcing. Geophysical Research Letters, 43, 2859–2865. [link]
2015
[2] Zhou, W.* (2015), The impact of vertical shear on the sensitivity of tropical cyclogenesis to environmental rotation and thermodynamic state. Journal of Advances in Modeling Earth Systems, 7 (4), 1872-1884. [link]
2014
[1] Zhou, W.*, I. M. Held, and S. T. Garner (2014), Parameter study of tropical cyclones in rotating radiative–convective equilibrium with column physics and resolution of a 25-km GCM. Journal of the Atmospheric Sciences, 71, 1058–1069. [link]