Assessing memory in convection schemes using idealized tests
Hwong Y-L, Colin M, Aglas P, Muller CJ, Sherwood SC. 2023. Assessing memory in convection schemes using idealized tests. Journal of Advances in Modeling Earth Systems. 15(12), e2023MS003726.
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Journal Article
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Author
Hwong, Yi-LingISTA ;
Colin, M.;
Aglas-Leitner, PhilippISTA;
Muller, Caroline JISTA ;
Sherwood, S. C.
Department
Abstract
Two assumptions commonly applied in convection schemes—the diagnostic and quasi-equilibrium assumptions—imply that convective activity (e.g., convective precipitation) is controlled only by the large-scale (macrostate) environment at the time. In contrast, numerical experiments indicate a “memory” or dependence of convection also on its own previous activity whereby subgrid-scale (microstate) structures boost but are also boosted by convection. In this study we investigated this memory by comparing single-column model behavior in two idealized tests previously executed by a cloud-resolving model (CRM). Conventional convection schemes that employ the diagnostic assumption fail to reproduce the CRM behavior. The memory-capable org and Laboratoire de Météorologie Dynamique Zoom cold pool schemes partially capture the behavior, but fail to fully exhibit the strong reinforcing feedbacks implied by the CRM. Analysis of this failure suggests that it is because the CRM supports a linear (or superlinear) dependence of the subgrid structure growth rate on the precipitation rate, while the org scheme assumes a sublinear dependence. Among varying versions of the org scheme, the growth rate of the org variable representing subgrid structure is strongly associated with memory strength. These results demonstrate the importance of parameterizing convective memory, and the ability of idealized tests to reveal shortcomings of convection schemes and constrain model structural assumptions.
Publishing Year
Date Published
2023-12-01
Journal Title
Journal of Advances in Modeling Earth Systems
Publisher
Wiley
Acknowledgement
YLH is supported by funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie Grant Agreement No. 101034413. CJM gratefully acknowledges funding from the European Research Council under the European Union's Horizon 2020 research and innovation program (Project CLUSTER, Grant Agreement No. 805041). YLH and SCS were supported by the Australian Research Council (FL150100035). The authors thank Brian Mapes, David Fuchs and Siwon Song for stimulating and helpful discussions. MC warmly thanks the LMD team in Paris for their assistance with the LMDZ model. We thank the two anonymous reviewers for their constructive comments that greatly improved this manuscript.
Volume
15
Issue
12
Article Number
e2023MS003726
eISSN
IST-REx-ID
Cite this
Hwong Y-L, Colin M, Aglas P, Muller CJ, Sherwood SC. Assessing memory in convection schemes using idealized tests. Journal of Advances in Modeling Earth Systems. 2023;15(12). doi:10.1029/2023MS003726
Hwong, Y.-L., Colin, M., Aglas, P., Muller, C. J., & Sherwood, S. C. (2023). Assessing memory in convection schemes using idealized tests. Journal of Advances in Modeling Earth Systems. Wiley. https://doi.org/10.1029/2023MS003726
Hwong, Yi-Ling, M. Colin, Philipp Aglas, Caroline J Muller, and S. C. Sherwood. “Assessing Memory in Convection Schemes Using Idealized Tests.” Journal of Advances in Modeling Earth Systems. Wiley, 2023. https://doi.org/10.1029/2023MS003726.
Y.-L. Hwong, M. Colin, P. Aglas, C. J. Muller, and S. C. Sherwood, “Assessing memory in convection schemes using idealized tests,” Journal of Advances in Modeling Earth Systems, vol. 15, no. 12. Wiley, 2023.
Hwong Y-L, Colin M, Aglas P, Muller CJ, Sherwood SC. 2023. Assessing memory in convection schemes using idealized tests. Journal of Advances in Modeling Earth Systems. 15(12), e2023MS003726.
Hwong, Yi-Ling, et al. “Assessing Memory in Convection Schemes Using Idealized Tests.” Journal of Advances in Modeling Earth Systems, vol. 15, no. 12, e2023MS003726, Wiley, 2023, doi:10.1029/2023MS003726.
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