Rapidly Evolving Cirrus Clouds Modulated by Convectively Generated Gravity Waves
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In this paper, gravity buoyancy waves generated by a storm in Northern Australia on 13 November 2015 caused an observable rippling effect on cirrus clouds up to 1,000 km away, as seen by the recently launched Himawari-8/9 geostationary satellite.Abstract:
Cirrus clouds can strongly affect Earth's radiation balance, but questions remain about their growth mechanisms and rates Here we show that gravity (buoyancy) waves generated by a storm in Northern Australia on 13 November 2015 caused an observable rippling effect on cirrus clouds up to 1,000 km away, as seen by the recently launched Himawari-8/9 geostationary satellite Regional model simulations reproduce the propagation speed of the wave, which agrees with theoretical predictions, and show that the wave amplitude and timing near the tropopause can account for the cirrus modulation The observed cirrus reach peak optical depths of order 03–10 and appear roughly in phase with the arrival of the relative humidity maximum, providing new evidence that cirrus clouds can respond rapidly (<30 min) to environmental lifting Moreover, the edge of a thick anvil cloud attached to the storm itself is observed to expand at the same speed as the wave, showing that the lifting mechanism can also apply to optically thicker ice clouds close to convective centersread more
Citations
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Numerical study of convection observed during the Winter Monsoon Experiment using a mesoscale two-dimensional model [presentation]
TL;DR: In this article, a two-dimensional version of the Pennsylvania State University mesoscale model has been applied to Winter Monsoon Experiment data in order to simulate the diurnally occurring convection observed over the South China Sea.
Gravity waves generated by deep tropical convection: estimates from balloon observations and mesoscale simulations
TL;DR: In this paper, a case study of gravity waves generated by a developing cyclone, Tropical Storm Gelane (February 2010), is carried out using observations complemented by numerical simulations with the Weather Research and Forecast model, with a resolution down to 1 km.
Clarifying the Dominant Sources and Mechanisms of Cirrus Cloud Formation
Daniel J. Cziczo,Karl D. Froyd,Karl D. Froyd,Corinna Hoose,Eric J. Jensen,Minghui Diao,Mark A. Zondlo,Jessica B. Smith,Cynthia H. Twohy,Daniel M. Murphy +9 more
TL;DR: In this paper, the composition of the residual particles within cirrus crystals after the ice was sublimated was determined in situ, showing that mineral dust and metallic particles are the dominant sources of residual particles, whereas sulfate and organic particles are underrepresented, and elemental carbon and biological materials are essentially absent.
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What Drives the Life Cycle of Tropical Anvil Clouds
Characterization of momentum transport associated with organized moist convection and gravity waves
TL;DR: In this paper, the relationship between the convective momentum transport and gravity wave momentum flux is examined, and a model for parameterization of these two processes is proposed, which is based on the model proposed in this paper.
References
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A Description of the Advanced Research WRF Version 3
C. Skamarock,B. Klemp,Jimy Dudhia,O. Gill,Dale Barker,G. Duda,Xiang-Yu Huang,Wei Wang,G. Powers +8 more
TL;DR: The Technical Note series provides an outlet for a variety of NCAR manuscripts that contribute in specialized ways to the body of scientific knowledge but which are not suitable for journal, monograph, or book publication.
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Radiative transfer for inhomogeneous atmospheres: RRTM, a validated correlated-k model for the longwave
TL;DR: A rapid and accurate radiative transfer model (RRTM) for climate applications has been developed and the results extensively evaluated as discussed by the authors, which is performed using the correlated-k method: the k distributions are attained directly from the LBLRTM line-byline model, which connects the absorption coefficients used by RRTM to high-resolution radiance validations done with observations.
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A New Vertical Diffusion Package with an Explicit Treatment of Entrainment Processes
TL;DR: In this article, a revised vertical diffusion algorithm with a nonlocal turbulent mixing coefficient in the planetary boundary layer (PBL) is proposed for weather forecasting and climate prediction models, which improves several features compared with the Hong and Pan implementation.
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Coupling an Advanced Land Surface–Hydrology Model with the Penn State–NCAR MM5 Modeling System. Part I: Model Implementation and Sensitivity
Fei Chen,Jimy Dudhia +1 more
TL;DR: In this paper, the authors address and document a number of issues related to the implementation of an advanced land surface-hydrology model in the Penn State-NCAR fifth-generation Mesoscale Model (MM5).
Journal ArticleDOI
Numerical Study of Convection Observed during the Winter Monsoon Experiment Using a Mesoscale Two-Dimensional Model
TL;DR: In this article, a two-dimensional version of the Pennsylvania State University mesoscale model has been applied to Winter Monsoon Experiment data in order to simulate the diurnally occurring convection observed over the South China Sea.