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Title: Criticality in the Shallow-to-Deep Transition of Simulated Tropical Marine Convection

Journal Article · · Journal of the Atmospheric Sciences
 [1]
  1. a Department of Meteorology, Naval Postgraduate School, Monterey, California
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Abstract Idealized simulations of tropical, marine convection depict shallow, nonprecipitating cumuli located beneath the 0°C level transitioning into cumulonimbi that reach up to 12 km and higher. The timing of the transition was only weakly related to environmental stability, and 13 of the 15 simulations run with 5 different lapse-rate profiles had rain develop at nearly the same time after model start. The key quantity that apparently controlled deep convective formation was vertical acceleration inside cloudy updrafts between cloud base and the 0°C level. Below a critical value of updraft vertical acceleration, little rainfall occurred. Just as the domain-mean updraft acceleration reached the critical value, the first convection quickly grew to past 12 km altitude. Then, as acceleration increased above the critical value, rain rate averaged in the model domain increased quickly over about a 3-h-long period. The specific value of the critical updraft acceleration depended on how updrafts were defined and in what layer the acceleration was averaged; however, regardless of how criticality was defined, a robust relationship between domain-mean updraft vertical acceleration and rain rate occurred. Positive acceleration of updrafts below the 0°C level was present below 2.75 km and was largest in the 500 m above cloud base. However, the maximum difference between updraft and environmental temperatures occurred between 2 and 3 km. The domain-mean Archimedean buoyancy of updrafts relative to some reference state was a poor predictor for domain-mean rain rate. The exact value of the critical updraft acceleration likely depends on numerous other factors that were not investigated. Significance Statement A numerical model is utilized to investigate potential thermodynamic and dynamic quantities related to the growth of cumulus clouds into cumulonimbus clouds over tropical oceans when the atmosphere is sufficiently moist to support rainfall. Archimedean buoyancy alone cannot be used to predict rain rate reliably. Instead the total buoyancy not relative to an arbitrary reference state must be considered. The simulated relationship between total vertical acceleration in updrafts and rain rate was robust. While the processes that control the vertical acceleration remain unclear, our results highlight the importance of observing processes that occur on spatial scales of tens of meters and temporal scales of a few minutes.

Research Organization:
Naval Postgraduate School, Monterey, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Biological and Environmental Research (BER); US Department of the Navy, Office of Naval Research (ONR)
Grant/Contract Number:
89243021SSC000077; N0001421WX01472
OSTI ID:
1969778
Alternate ID(s):
OSTI ID: 1980921
Journal Information:
Journal of the Atmospheric Sciences, Journal Name: Journal of the Atmospheric Sciences Vol. 79 Journal Issue: 7; ISSN 0022-4928
Publisher:
American Meteorological SocietyCopyright Statement
Country of Publication:
United States
Language:
English

References (39)

A Benchmark Simulation for Moist Nonhydrostatic Numerical Models journal December 2002
On the Role of Entrainment in the Fate of Cumulus Thermals journal October 2018
Moisture Vertical Structure, Column Water Vapor, and Tropical Deep Convection journal June 2009
An Expression for Effective Buoyancy in Surroundings with Horizontal Density Gradients journal December 2003
The MJO Transition from Shallow to Deep Convection in CloudSat /CALIPSO Data and GISS GCM Simulations journal June 2012
Effective Buoyancy, Inertial Pressure, and the Mechanical Generation of Boundary Layer Mass Flux by Cold Pools journal August 2015
Saildrone: Adaptively Sampling the Marine Environment journal June 2020
The Tropical Dynamical Response to Latent Heating Estimates Derived from the TRMM Precipitation Radar journal June 2004
Vertical Velocity Statistics in Fair-Weather Cumuli at the ARM TWP Nauru Climate Research Facility journal December 2010
Tropical Convective Transition Statistics and Causality in the Water Vapor–Precipitation Relation journal March 2017
Evaluation of Global Precipitation in Reanalyses journal September 2008
Quality-Controlled Upper-Air Sounding Dataset for DYNAMO/CINDY/AMIE: Development and Corrections journal April 2014
The Colorado State University Convective CLoud Outflows and UpDrafts Experiment (C3LOUD-Ex) journal July 2021
The 600–800-mb Minimum in Tropical Cloudiness Observed during TOGA COARE journal June 1998
Reexamining the Nonlinear Moisture-Precipitation Relationship Over the Tropical Oceans journal January 2018
Effects of a Simple Convective Organization Scheme in a Two‐Plume GCM journal March 2018
Initiating Moist Convection in an Inhomogeneous Layer by Uniform Ascent journal December 2014
DNS and LES for Simulating Stratocumulus: Better Together journal July 2018
GoAmazon2014/5 campaign points to deep-inflow approach to deep convection across scales journal April 2018
Tracking Pulses of the Madden–Julian Oscillation journal December 2013
Scanning ARM Cloud Radars. Part I: Operational Sampling Strategies journal March 2014
Resolution Requirements for the Simulation of Deep Moist Convection journal October 2003
Rainfall-Type Categorization of Radar Echoes Using Polar Coordinate Reflectivity Data journal March 2016
Impacts of Updraft Size and Dimensionality on the Perturbation Pressure and Vertical Velocity in Cumulus Convection. Part I: Simple, Generalized Analytic Solutions journal April 2016
Validation of a Water Vapor Micropulse Differential Absorption Lidar (DIAL) journal November 2016
Parameterizing Convective Organization to Escape the Entrainment Dilemma: PARAMETERIZING CONVECTIVE ORGANIZATION journal February 2011
Critical phenomena in atmospheric precipitation journal May 2006
Reverse Engineering the Tropical Precipitation–Buoyancy Relationship journal May 2018
Observing Possible Thermodynamic Controls on Tropical Marine Rainfall in Moist Environments journal November 2019
Effective buoyancy at the surface and aloft: Effective Buoyancy journal November 2015
What Controls the Transition from Shallow to Deep Convection? journal June 2009
Large-Eddy Simulations of Radiatively Driven Convection: Sensitivities to the Representation of Small Scales journal December 1999
Convective Forcing in the Intertropical Convergence Zone of the Eastern Pacific journal September 2003
A Revised Scheme for the WRF Surface Layer Formulation journal March 2012
Effect of dry large-scale vertical motions on initial MJO convective onset: LARGE-SCALE VERTICAL MOTIONS & MJO ONSET journal May 2015
Deep Convective Adjustment of Temperature and Moisture journal June 2020
Tropical Precipitation Evolution in a Buoyancy-Budget Framework journal February 2021
A Comprehensive Mass Flux Scheme for Cumulus Parameterization in Large-Scale Models journal August 1989
Interactions between Moisture and Tropical Convection. Part I: The Coevolution of Moisture and Convection journal May 2020

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Related Subjects

54 ENVIRONMENTAL SCIENCES
meteorology
atmospheric sciences
precipitation
convective-scale processes
cumulus clouds