Resolution Requirements for the Simulation of Deep Moist Convection

Bryan, G. H.; Wyngaard, J. C.; Fritsch, J. Michael

doi:10.1175/1520-0493(2003)131<2394:rrftso>2.0.co;2

Cited by 668 publications

(722 citation statements)

References 36 publications

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“…Nonetheless, simulations of moist updraughts show much similarity to the cases presented here. For example, Bryan et al (2003) illustrated that updraught structures embedded within squall lines possess very similar structures to thermals. Furthermore, Lane et al (2001) simulated overshooting moist convection that possessed similar v-shaped updraught structures shortly after overshoot, implying the presence of a secondary circulation.…”

Section: Discussionmentioning

confidence: 99%

The vortical response to penetrative convection and the associated gravity‐wave generation

Lane¹

2008

Atmospheric Science Letters

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This study documents the vortical motions that arise due to penetrative convective updraughts. Using an idealized axisymmetric model of dry thermals it is shown that in a stable environment the baroclinic generation of vorticity forms a circulation that opposes updraught overshoot and manifests the first signature of gravity waves emanating from the thermal. Continued baroclinic generation of vorticity of oscillating sign completes the first full wavelength and populates the wave packet. These examples provide an alternate description of the generation of gravity waves by penetrative convection and provide further insight into the morphology of the wave source

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Section: Discussionmentioning

confidence: 99%

The vortical response to penetrative convection and the associated gravity‐wave generation

Lane¹

2008

Atmospheric Science Letters

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“…The model was integrated over a single domain covering most of western North America using two different choices of horizontal grid spacing (9 and 3 km). The 9-km simulations were conducted because they are comparable to the current grid spacing of operational NWP models and, although this is not an optimal choice of grid spacing for applications where deep cumulus convection is important (e.g., Bryan et al 2003; …”

Section: Methodsmentioning

confidence: 99%

Influence of Terrain Resolution on Banded Convection in the Lee of the Rocky Mountains

Schumacher

Schultz

Knox

2015

Monthly Weather Review

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On 16-17 February 2007, snowbands formed in the lee of the Rocky Mountains in Wyoming, Colorado, and Nebraska on the anticyclonic-shear side of a midlevel jet streak. Two types of bands were prevalent: a longer, wider band associated with frontogenesis along an equatorward-moving cold front (major band) and multiple shorter, narrower bands farther poleward (minor bands). To understand how the upstream terrain affected the occurrence and intensity of the bands, multiple mesoscale model simulations were performed in which the terrain was incrementally smoothed. The evolutions of the synoptic patterns were similar in all simulations that included topography, but the synoptic pattern differed and no bands developed in a simulation with a flat land surface. These results allowed a focus on the changes to the banded precipitation due to the terrain resolution. Remarkably, although the exact location of the bands differed from run to run, the bands in all simulations with topography were in roughly the same region where they occurred on 16-17 February 2007. The major band was associated with frontogenesis along an equatorward-moving cold front that became stalled against the terrain. The minor bands formed from the release of conditional, symmetric, and inertial instabilities by ascent up the large-scale topography, rather than by ascent up specific small-scale topographic features. Because the bands were not tied to specific terrain features, these results suggest that the precise location of the minor bands is unpredictable.

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“…In addition to the above configuration, the 12-km outer nest used the Betts-Miller-Janjic convective scheme (Betts 1986;Betts and Miller 1986;Janjic 1994), which currently is employed operationally at the National Centers for Environmental Prediction (NCEP). Bryan et al (2003) point out that a more realistic depiction of moist convection is likely with a horizontal grid spacing O(100 m), but because such grid spacing is not likely to be used operationally in the near future, the horizontal grid spacing of 4 km used in this study is a compromised choice considering the operational orientation of the paper. The NARR, which is used in the present study, contains data on 29 pressure levels with a vertical grid spacing of 25 hPa below 700 hPa and above 300 hPa, and a vertical grid spacing of 50 hPa between these two levels.…”

Section: Methodology a Model Setup And Datamentioning

confidence: 99%

On the Impact of WRF Model Vertical Grid Resolution on Midwest Summer Rainfall Forecasts

Aligo

Gallus

Segal

2009

Weather and Forecasting

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Weather Research and Forecast (WRF) model exploratory sensitivity simulations were performed to determine the impact of vertical grid resolution (VGR) on the forecast skill of Midwest summer rainfall. Varying the VGR indicated that a refined VGR, while adopting the widely used North America Regional Reanalysis (NARR) for initial and lateral boundary conditions, does not necessarily result in a consistent improvement in quantitative precipitation forecasts (QPFs). When averaged over a variety of microphysical schemes in an illustrative case, equitable threat score (ETS) and bias values actually worsened with a greater overpredicted rainfall for half of the rainfall thresholds when the VGR was refined. Averaged over strongly forced cases, ETS values worsened for all rainfall thresholds while biases mostly increased, indicating a further overprediction of rainfall when the number of levels was increased. Skill improved, however, for all rainfall thresholds when the resolution above the melting level was increased. Skill also improved for most rainfall thresholds when the resolution in the surface layer was increased, which is attributed to better-resolved surface turbulent momentum and thermal fluxes. Likewise, a refined VGR resulted in improvements in weakly forced cases, which are governed mostly by thermodynamic forcing and are sensitive to vertical profiles of temperature and moisture. Application of the factor separation method suggested that the refined VGR more frequently had a negative impact on skill through the interaction between lower-atmospheric processes and microphysical processes above the melting level. KeywordsAgronomy, atmospheric process, equitable threat score, illustrative case, lateral boundary conditions, melting levels, microphysical process, negative impacts, quantitative precipitation forecast, reanalysis, sensitivity simulation, summer rainfall, surface layers, thermal fluxes, turbulent momentum, vertical grids, WRF model, atmospheric thermodynamics, climate prediction, rainfall, weather forecasting Varying the VGR indicated that a refined VGR, while adopting the widely used North America Regional Reanalysis (NARR) for initial and lateral boundary conditions, does not necessarily result in a consistent improvement in quantitative precipitation forecasts (QPFs). When averaged over a variety of microphysical schemes in an illustrative case, equitable threat score (ETS) and bias values actually worsened with a greater overpredicted rainfall for half of the rainfall thresholds when the VGR was refined. Averaged over strongly forced cases, ETS values worsened for all rainfall thresholds while biases mostly increased, indicating a further overprediction of rainfall when the number of levels was increased. Skill improved, however, for all rainfall thresholds when the resolution above the melting level was increased. Skill also improved for most rainfall thresholds when the resolution in the surface layer was increased, which is attributed to better-resolved surface turbulent momentum ...

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Resolution Requirements for the Simulation of Deep Moist Convection

Cited by 668 publications

References 36 publications

The vortical response to penetrative convection and the associated gravity‐wave generation

The vortical response to penetrative convection and the associated gravity‐wave generation

Influence of Terrain Resolution on Banded Convection in the Lee of the Rocky Mountains

On the Impact of WRF Model Vertical Grid Resolution on Midwest Summer Rainfall Forecasts

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