Evaluating Clouds in Long-Term Cloud-Resolving Model Simulations with Observational Data
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Minghua Zhang | Chung-Lin Shie | Shaocheng Xie | Christa D. Peters-Lidard | Joanne Simpson | Xiping Zeng | J. Geiger | Wei-Kuo Tao | Sujay V. Kumar | W. Tao | Minghua Zhang | S. Xie | C. Peters-Lidard | J. Eastman | J. Simpson | S. Lang | Xiping Zeng | Stephen Lang | J. L. Eastman | C. Shie | J. Geiger | C. Peters‐Lidard
[1] Peter V. Hobbs,et al. The Mesoscale and Microscale Structure and Organization of Clouds and Precipitation in Midlatitude Cyclones. XII: A Diagnostic Modeling Study of Precipitation Development in Narrow Cold-Frontal Rainbands , 1984 .
[2] W. Grabowski,et al. The multidimensional positive definite advection transport algorithm: nonoscillatory option , 1990 .
[3] Leo J. Donner,et al. Three-Dimensional Cloud-System Modeling of GATE Convection , 1999 .
[4] Adrian M. Tompkins,et al. The Impact of Dimensionality on Long-Term Cloud-Resolving Model Simulations , 2000 .
[5] Andrew J. Heymsfield,et al. The microphysical properties of tropical convective anvil cirrus: A comparison of models and observations , 2001 .
[6] Kerry A. Emanuel,et al. Thermodynamic control of hurricane intensity , 1999, Nature.
[7] An Equation for Moist Entropy in a Precipitating and Icy Atmosphere , 2005 .
[8] Hugh Swann,et al. Sensitivity to the representation of precipitating ice in CRM simulations of deep convection , 1998 .
[9] Christopher S. Bretherton,et al. Modeling Tropical Precipitation in a Single Column , 2000 .
[10] Wojciech W. Grabowski,et al. Cloud-resolving modeling of cloud systems during Phase III of GATE. Part II: Effects of resolution and the third spatial dimension , 1998 .
[11] H. D. Orville,et al. Bulk Parameterization of the Snow Field in a Cloud Model , 1983 .
[12] D. Raymond,et al. Modelling tropical atmospheric convection in the context of the weak temperature gradient approximation , 2005 .
[13] Akio Arakawa,et al. CLOUDS AND CLIMATE: A PROBLEM THAT REFUSES TO DIE. Clouds of many , 2022 .
[14] Xiaoqing Wu,et al. Long-Term Behavior of Cloud Systems in TOGA COARE and Their Interactions with Radiative and Surface Processes. Part I: Two-Dimensional Modeling Study , 1998 .
[15] J. Townshend,et al. Global land cover classi(cid:142) cation at 1 km spatial resolution using a classi(cid:142) cation tree approach , 2004 .
[16] Sujay V. Kumar,et al. Land information system: An interoperable framework for high resolution land surface modeling , 2006, Environ. Model. Softw..
[17] Minghua Zhang,et al. An intercomparison of cloud‐resolving models with the atmospheric radiation measurement summer 1997 intensive observation period data , 2002 .
[18] Stephen K. Cox,et al. Cirrus Clouds. Part I: A Cirrus Cloud Model , 1985 .
[19] A. Tompkins,et al. Radiative–convective equilibrium in a three‐dimensional cloud‐ensemble model , 1998 .
[20] L. Donner,et al. Cloud microphysics, radiation and vertical velocities in two‐ and three‐dimensional simulations of deep convection , 2006 .
[21] Piotr K. Smolarkiewicz,et al. Gravity Waves, Compensating Subsidence and Detrainment around Cumulus Clouds , 1989 .
[22] R. Hemler,et al. Numerical simulation of deep tropical convection associated with large-scale convergence , 1986 .
[23] C. Sui,et al. Mechanisms of Cloud-radiation interaction in the tropics and midlatitudes , 1996 .
[24] Steven E. Koch,et al. An Overview of the International H2O Project (IHOP_2002) and Some Preliminary Highlights , 2004 .
[25] Gerald M. Stokes,et al. The Atmospheric Radiation Measurement Program , 2003 .
[26] Joanne Simpson,et al. Statistical properties of a cloud ensemble - A numerical study , 1987 .
[27] Brian E. Mapes,et al. Gregarious Tropical Convection , 1993 .
[28] Steven K. Krueger,et al. Numerical simulation of tropical cumulus clouds and their interaction with the subcloud layer , 1988 .
[29] D. Randall,et al. Explicit simulation of cumulus ensembles with the GATE phase III data: Budgets of a composite easterly wave , 2001 .
[31] Audrey B. Wolf,et al. Modeling springtime shallow frontal clouds with cloud-resolving and single-column models , 2005 .
[32] J. Iaquinta,et al. Cirrus Crystal Terminal Velocities , 2000 .
[33] E. Clothiaux,et al. ARM Value-Added Cloud Products: Description and Status , 2003 .
[34] Audrey B. Wolf,et al. Intercomparison and evaluation of cumulus parametrizations under summertime midlatitude continental conditions , 2001 .
[35] J. D. Tarpley,et al. Real‐time and retrospective forcing in the North American Land Data Assimilation System (NLDAS) project , 2003 .
[36] Joanne Simpson,et al. Goddard Cumulus Ensemble Model. Part I: Model Description , 1993 .
[37] John F. B. Mitchell,et al. Intercomparison and interpretation of climate feedback processes in 19 atmospheric general circulation models , 1990 .
[38] Effects of Convectively Generated Gravity Waves and Rotation on the Organization of Convection , 2004 .
[39] W. Collins,et al. Long-Term Behavior of Cloud Systems in TOGA COARE and Their Interactions with Radiative and Surface Processes. Part II: Effects of Ice Microphysics on Cloud–Radiation Interaction , 1999 .
[40] Alexander Khain,et al. Microphysics, Radiation and Surface Processes in the Goddard Cumulus Ensemble (GCE) Model , 2003 .
[41] Wojciech W. Grabowski,et al. Cloud Resolving Modeling of Tropical Cloud Systems during Phase III of GATE. Part III: Effects of Cloud Microphysics , 1999 .
[42] E. Clothiaux,et al. Objective Determination of Cloud Heights and Radar Reflectivities Using a Combination of Active Remote Sensors at the ARM CART Sites , 2000 .
[43] G. Mace,et al. Profiles of Low-Level Stratus Cloud Microphysics Deduced from Ground-Based Measurements , 2003 .
[44] W. Grabowski. Coupling Cloud Processes with the Large-Scale Dynamics Using the Cloud-Resolving Convection Parameterization (CRCP) , 2001 .
[45] J. Dudhia,et al. A Revised Approach to Ice Microphysical Processes for the Bulk Parameterization of Clouds and Precipitation , 2004 .
[46] Jon Petch,et al. Sensitivity studies using a cloud‐resolving model simulation of the tropical west Pacific , 2001 .
[47] C. Bretherton,et al. An intercomparison of radiatively driven entrainment and turbulence in a smoke cloud, as simulated by different numerical models , 1996 .
[48] Y. Ogura,et al. Response of Tradewind Cumuli to Large-Scale Processes , 1980 .
[49] Marcel Lesieur,et al. Turbulence in fluids , 1990 .
[50] Joanne Simpson,et al. Goddard Cumulus Enble Model. Part II: Applications for Studying Cloud Precipitating Processes and for NASA TRMM , 1993 .
[51] Minghua Zhang,et al. Constrained Variational Analysis of Sounding Data Based on Column-Integrated Budgets of Mass, Heat, Moisture, and Momentum: Approach and Application to ARM Measurements. , 1997 .
[52] W. Tao,et al. GEWEX Cloud System Study (GCSS) Working Group 4: Precipitating Convective Cloud Systems , 1997 .
[53] S. Bony,et al. Comparing clouds and their seasonal variations in 10 atmospheric general circulation models with satellite measurements , 2005 .
[54] D. Raymond. The Hadley Circulation as a Radiative-Convective Instability , 2000 .
[55] B. Albrecht,et al. The Large-Scale Response of the Tropical Atmosphere to Cloud-Modulated Infrared Heating , 1975 .
[56] K. Emanuel,et al. Equilibrium atmospheres of a two‐column radiative‐convective model , 1999 .
[57] K. Emanuel,et al. The Representation of Cumulus Convection in Numerical Models , 1993 .
[58] Douglas K. Lilly,et al. Numerical Simulation of Two‐Dimensional Turbulence , 1969 .
[59] R. Fovell,et al. Mantle Echoes Associated with Deep Convection: Observations and Numerical Simulations , 2004 .
[60] I. Held,et al. Modeling Tropical Convergence Based on the Moist Static Energy Budget , 1987 .
[61] David J. Raymond,et al. Regulation of moist convection over the West Pacific warm pool , 1995 .
[62] D. Randall,et al. A cloud resolving model as a cloud parameterization in the NCAR Community Climate System Model: Preliminary results , 2001 .
[63] D. Randall,et al. Cloud resolving modeling of the ARM summer 1997 IOP: Model formulation, results, uncertainties, and sensitivities , 2003 .
[64] Minghua Zhang,et al. Simulations of midlatitude frontal clouds by single-column and cloud--resolving models during the Atmospheric Radiation Measurement March 2000 cloud intensive operational period , 2005 .
[65] William D. Hall,et al. Source code documentation for the Clark-Hall cloud-scale model code version g3ch01. Technical note , 1996 .
[66] D. Randall,et al. Simulations of the Atmospheric General Circulation Using a Cloud-Resolving Model as a Superparameterization of Physical Processes , 2005 .
[67] K. Piotr,et al. The Multidimensional Positive Advection Transport Algorith Nonoscillatory Option , 2003 .
[68] Andrew J. Heymsfield,et al. A scheme for parameterizing ice cloud water content in general circulation models , 1990 .
[69] David A. Randall,et al. Explicit Simulation of Cumulus Ensembles with the GATE Phase III Data: Comparison with Observations , 1996 .
[70] David J. Raymond,et al. Instability and large‐scale circulations in a two‐column model of the tropical troposphere , 2000 .
[71] Wei-Kuo Tao,et al. A Study of the Response of Deep Tropical Clouds to Mesoscale Processes: Three-Dimensional Numerical Experiments , 1986 .
[72] M. H. Zhang,et al. Objective Analysis of ARM IOP Data: Method and Sensitivity , 1999 .
[73] G. Mace,et al. Cirrus Cloud Properties from a Cloud-Resolving Model Simulation Compared to Cloud Radar Observations , 2003 .
[74] Kerry A. Emanuel,et al. The Behavior of a Simple Hurricane Model Using a Convective Scheme Based on Subcloud-Layer Entropy Equilibrium , 1995 .
[75] K. Lau,et al. Large-Scale Forcing and Cloud–Radiation Interaction in the Tropical Deep Convective Regime , 1999 .
[76] J. Klemp,et al. The Simulation of Three-Dimensional Convective Storm Dynamics , 1978 .