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Title: Updraft dynamics and microphysics: on the added value of the cumulus thermal reference frame in simulations of aerosol–deep convection interactions

Journal Article · · Atmospheric Chemistry and Physics (Online)
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Abstract. One fundamental question about atmospheric moist convection processes that remains debated is whether, or under which conditions, a relevant variability in background aerosol concentrations may have a significant dynamical impact on convective clouds and their associated precipitation. Furthermore, current climate models must parameterize both the microphysical and the cumulus convection processes, but this is usually implemented separately, whereas in nature there is a strong coupling between them. As a first step to improve our understanding of these two problems, we investigate how aerosol concentrations modify key properties of updrafts in eight large-eddy-permitting regional simulations of a case study of scattered convection over Houston, Texas, in which convection is explicitly simulated and microphysical processes are parameterized. Dynamical and liquid-phase microphysical responses are investigated using the following two different reference frames: static cloudy updraft grid cells versus tracked cumulus thermals. In both frameworks, we observe the expected microphysical responses to higher aerosol concentrations, such as higher cloud number concentrations and lower rain number concentrations. In terms of the dynamical responses, both frameworks indicate weak impacts of varying aerosol concentrations relative to the noise between simulations over the observationally derived range of aerosol variability for this case study. On the other hand, results suggest that thermals are more selective than cloudy updraft grid cells in terms of sampling the most active convective air masses. For instance, vertical velocity from thermals is significantly higher at upper levels than when sampled from cloudy updraft grid points, and several microphysical variables have higher average values in the cumulus thermal framework than in the cloudy updraft framework. In addition, the thermal analysis is seen to add rich quantitative information about the rates and covariability of microphysical processes spatially and throughout tracked thermal lifecycles, which can serve as a stronger foundation for improving subgrid-scale parameterizations.

Sponsoring Organization:
USDOE
Grant/Contract Number:
SC0021247; SC0016237
OSTI ID:
1840787
Journal Information:
Atmospheric Chemistry and Physics (Online), Journal Name: Atmospheric Chemistry and Physics (Online) Journal Issue: 2 Vol. 22; ISSN 1680-7324
Publisher:
Copernicus GmbHCopyright Statement
Country of Publication:
Germany
Language:
English

References (44)

Evaluation of cloud-resolving and limited area model intercomparison simulations using TWP-ICE observations: 1. Deep convective updraft properties: Eval. of TWP-ICE CRMs and LAMs Pt. 1 journal December 2014
Bubble theory of penetrative convection journal January 1953
The motion in and around isolated thermals journal April 1959
Parameterizations: representing key processes in climate models without resolving them: Parameterizations journal May 2011
Impact of radiation frequency, precipitation radiative forcing, and radiation column aggregation on convection-permitting West African monsoon simulations journal March 2018
Integrated modeling of aerosol, cloud, precipitation and land processes at satellite-resolved scales journal May 2015
A parameterization of aerosol activation: 2. Multiple aerosol types journal March 2000
Effects of aerosols and relative humidity on cumulus clouds journal January 2007
WRF and GISS SCM simulations of convective updraft properties during TWP-ICE journal January 2009
Impact of aerosols on convective clouds and precipitation: AEROSOL IMPACT ON CONVECTIVE CLOUDS journal April 2012
Impacts of Aerosol and Environmental Conditions on Maritime and Continental Deep Convective Systems Using a Bin Microphysical Model journal June 2020
Flood or Drought: How Do Aerosols Affect Precipitation? journal September 2008
From aerosol-limited to invigoration of warm convective clouds journal June 2014
Substantial convection and precipitation enhancements by ultrafine aerosol particles journal January 2018
Aerosol invigoration of atmospheric convection through increases in humidity journal December 2020
Evaluation of Parametric Assumptions for Shallow Cumulus Convection journal March 1995
Mass-Flux Budgets of Shallow Cumulus Clouds journal January 2003
Modeling Supersaturation and Subgrid-Scale Mixing with Two-Moment Bulk Warm Microphysics journal March 2008
Factors Determining the Impact of Aerosols on Surface Precipitation from Clouds: An Attempt at Classification journal June 2008
Slippery Thermals and the Cumulus Entrainment Paradox* journal August 2013
Parameterization of Cloud Microphysics Based on the Prediction of Bulk Ice Particle Properties. Part I: Scheme Description and Idealized Tests journal January 2015
Properties of a Mesoscale Convective System in the Context of an Isentropic Analysis journal May 2015
Extracting Microphysical Impacts in Large-Eddy Simulations of Shallow Convection journal December 2014
Impacts of Updraft Size and Dimensionality on the Perturbation Pressure and Vertical Velocity in Cumulus Convection. Part II: Comparison of Theoretical and Numerical Solutions and Fully Dynamical Simulations journal April 2016
Sticky Thermals: Evidence for a Dominant Balance between Buoyancy and Drag in Cloud Updrafts journal August 2015
A Numerical Investigation of Cumulus Thermals journal October 2016
Review of Aerosol–Cloud Interactions: Mechanisms, Significance, and Challenges journal November 2016
The Influence of Successive Thermals on Entrainment and Dilution in a Simulated Cumulus Congestus journal February 2017
Theoretical Expressions for the Ascent Rate of Moist Deep Convective Thermals journal May 2018
On the Role of Entrainment in the Fate of Cumulus Thermals journal October 2018
Aerosol Effects on Clouds and Precipitation over Central Europe in Different Weather Regimes journal November 2018
Entrainment in Resolved, Dry Thermals journal December 2019
Thermal Chains and Entrainment in Cumulus Updrafts. Part II: Analysis of Idealized Simulations journal November 2020
Impacts of Varying Concentrations of Cloud Condensation Nuclei on Deep Convective Cloud Updrafts—A Multimodel Assessment journal April 2021
The Structure of Thermals in Cumulus from Airborne Dual-Doppler Radar Observations journal May 2006
A Doppler radar study of convective draft lengths over Darwin, Australia journal July 2021
A study of thermals in cumulus clouds
  • Blyth, Alan M.; Lasher-Trapp, Sonia G.; Cooper, William A.
  • Quarterly Journal of the Royal Meteorological Society, Vol. 131, Issue 607 https://doi.org/10.1256/qj.03.180
journal April 2005
Cloud-system resolving model simulations of aerosol indirect effects on tropical deep convection and its thermodynamic environment journal January 2011
Basic convective element: bubble or plume? A historical review journal January 2014
Uncertainty from the choice of microphysics scheme in convection-permitting models significantly exceeds aerosol effects journal January 2017
Derivation of aerosol profiles for MC3E convection studies and use in simulations of the 20 May squall line case journal January 2017
A new look at the environmental conditions favorable to secondary ice production journal January 2020
Use of polarimetric radar measurements to constrain simulated convective cell evolution: a pilot study with Lagrangian tracking journal January 2019
The scientific basis for a satellite mission to retrieve CCN concentrations and their impacts on convective clouds journal January 2012

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