English

How weakened cold pools open for convective self-aggregation

Atmospheric and Oceanic Physics 2021-10-14 v3

Abstract

In radiative-convective equilibrium (RCE) simulations, convective self-aggregation (CSA) is the spontaneous organization into segregated cloudy and cloud-free regions. Evidence exists for how CSA is stabilized, but how it arises favorably on large domains is not settled. Using large-eddy simulations (LES), we link the spatial organization emerging from the interaction of cold pools (CPs) to CSA. We systematically weaken simulated rain evaporation to reduce maximal CP radii, RmaxR_{\text{max}}, and find reducing RmaxR_{\text{max}} causes CSA to occur earlier. We further identify a typical rain cell generation time and a minimum radius, RminR_{\text{min}}, around a given rain cell, within which the formation of subsequent rain cells is suppressed. Incorporating RminR_{\text{min}} and RmaxR_{\text{max}}, we propose a toy model that captures how CSA arises earlier on large domains: when two CPs of radii ri,j[Rmin,Rmax]r_{i,j}\in[R_{\text{min}},R_{\text{max}}] collide, they form a new convective event. These findings imply that interactions between CPs may explain the initial stages of CSA.

Cite

@article{arxiv.1911.12849,
  title  = {How weakened cold pools open for convective self-aggregation},
  author = {Silas Boye Nissen and Jan O. Haerter},
  journal= {arXiv preprint arXiv:1911.12849},
  year   = {2021}
}

Comments

17 pages, 5 main figures, 4 supplementary figures

R2 v1 2026-06-23T12:30:26.709Z