Mechanisms for the Self‐Organization of Tropical Deep Convection

Haerter JO, Muller CJ. 2023.Mechanisms for the Self‐Organization of Tropical Deep Convection. In: Clouds and Their Climatic Impacts. Geophysical Monograph Series, , 179–193.

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Book Chapter | Published | English
Author
Haerter, Jan O.; Muller, Caroline JISTA
Book Editor
Sullivan, Sylvia; Hoose, Corinna

Corresponding author has ISTA affiliation

Department
Series Title
Geophysical Monograph Series
Abstract
Organization – or departure from a random pattern – in tropical deep convection is heavily studied due to its immediate relevance to climate sensitivity and extremes. Low-latitude convection has motivated numerical model idealizations, where the Coriolis force is removed and boundary conditions are simplified spatially and temporally. One of the most stunning aspects of such idealized simulated cloud organization is the spontaneous clumping of convection that can occur without any predetermining external perturbation, such as inhomogeneous surface boundary conditions or large-scale waves. Whereas individual convective rain cells measure only few kilometers in horizontal diameter, the clusters they form can often span hundreds or even thousands of kilometers. Hence, organization may emerge from the very small scales but can show effects at the synoptic scale. We refer to such emergent organization as convective self-organization. Convective self-organization thus features characteristics of emergence, such as non-trivial system-scale pattern formation or hysteresis. We summarize observational evidence for large-scale organization and briefly recap classical idealized modeling studies that yield convective self-aggregation – emergent organization under strongly idealized boundary conditions. We then focus on developing research, where temporal variation, such as the diurnal cycle, or two-way interactive surface properties yield distinct organizational modes. Convectively generated cold pools and mesoscale convective systems, both ubiquitous in nature, are thereby found to potentially play key roles in promoting – rather than suppressing – sustained system-scale organization.
Publishing Year
Date Published
2023-12-15
Book Title
Clouds and Their Climatic Impacts
Publisher
Wiley
Page
179-193
ISSN
IST-REx-ID

Cite this

Haerter JO, Muller CJ. Mechanisms for the Self‐Organization of Tropical Deep Convection. In: Sullivan S, Hoose C, eds. Clouds and Their Climatic Impacts. Wiley; 2023:179-193. doi:10.1002/9781119700357.ch8
Haerter, J. O., & Muller, C. J. (2023). Mechanisms for the Self‐Organization of Tropical Deep Convection. In S. Sullivan & C. Hoose (Eds.), Clouds and Their Climatic Impacts (pp. 179–193). Wiley. https://doi.org/10.1002/9781119700357.ch8
Haerter, Jan O., and Caroline J Muller. “Mechanisms for the Self‐Organization of Tropical Deep Convection.” In Clouds and Their Climatic Impacts, edited by Sylvia Sullivan and Corinna Hoose, 179–93. Wiley, 2023. https://doi.org/10.1002/9781119700357.ch8.
J. O. Haerter and C. J. Muller, “Mechanisms for the Self‐Organization of Tropical Deep Convection,” in Clouds and Their Climatic Impacts, S. Sullivan and C. Hoose, Eds. Wiley, 2023, pp. 179–193.
Haerter JO, Muller CJ. 2023.Mechanisms for the Self‐Organization of Tropical Deep Convection. In: Clouds and Their Climatic Impacts. Geophysical Monograph Series, , 179–193.
Haerter, Jan O., and Caroline J. Muller. “Mechanisms for the Self‐Organization of Tropical Deep Convection.” Clouds and Their Climatic Impacts, edited by Sylvia Sullivan and Corinna Hoose, Wiley, 2023, pp. 179–93, doi:10.1002/9781119700357.ch8.

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