The third Met Office Unified Model–JULES Regional Atmosphere and Land Configuration, RAL3

The third Met Office Unified Model–JULES Regional Atmosphere and Land Configuration, RAL3

<p>The third version of the Regional Atmosphere and Land (RAL3) science configuration is documented. Developed through international partnerships, RAL configurations define settings for the Unified Model atmosphere and Joint UK Land Environment Simulator (JULES) when applied across timescales...

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Main Authors: M. Bush, D. L. A. Flack, H. W. Lewis, S. I. Bohnenstengel, C. J. Short, C. Franklin, A. P. Lock, M. Best, P. Field, A. McCabe, K. Van Weverberg, S. Berthou, I. Boutle, J. K. Brooke, S. Cole, S. Cooper, G. Dow, J. Edwards, A. Finnenkoetter, K. Furtado, K. Halladay, K. Hanley, M. A. Hendry, A. Hill, A. Jayakumar, R. W. Jones, H. Lean, J. C. K. Lee, A. Malcolm, M. Mittermaier, S. Mohandas, S. Moore, C. Morcrette, R. North, A. Porson, S. Rennie, N. Roberts, B. Roux, C. Sanchez, C.-H. Su, S. Tucker, S. Vosper, D. Walters, J. Warner, S. Webster, M. Weeks, J. Wilkinson, M. Whitall, K. D. Williams, H. Zhang
Format: Article
Language:English
Published: Copernicus Publications 2025-06-01
Series:Geoscientific Model Development
Online Access:https://gmd.copernicus.org/articles/18/3819/2025/gmd-18-3819-2025.pdf
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Summary:<p>The third version of the Regional Atmosphere and Land (RAL3) science configuration is documented. Developed through international partnerships, RAL configurations define settings for the Unified Model atmosphere and Joint UK Land Environment Simulator (JULES) when applied across timescales with kilometre and sub-kilometre-scale model grids. The RAL3 configuration represents a major advance compared to previous versions by delivering a common science definition suitable for application to tropical and mid-latitude regions. Developments within RAL3 include the introduction of a double-moment microphysics scheme and a bimodal cloud scheme, replacing use of a single-moment scheme and different cloud schemes for mid-latitudes and tropics in previous versions. Updates have been implemented to the boundary layer scheme and a consolidation of land model settings to be more consistent with global atmosphere and land (GAL) science configurations. Physics developments aimed to address priorities for model performance improvement identified by users. This paper documents the RAL3 science configuration, including a series of iterative revisions delivered since its first release, and their characteristics. Evidence is provided from the variety of assessments of RAL3, relative to the previous version (RAL2). Collaborative development and evaluation across organizations have enabled evaluation across a range of domains, grid spacing and timescales. The analysis indicates more realistic precipitation distributions, improved representation of clouds and of visibility, a continued trend to more realistic representation of convection, and reduced near-surface wind speeds but a persistent cold-temperature bias. Overall the convective-scale verification scores and climatological model distributions relative to observations improve for the majority of variables. Ensemble results show improvements to the spread–error relationship. User feedback from subjective assessment activities has also been positive. Differences between RAL3 revisions and RAL2 are further<span id="page3820"/> illustrated through a process-based analysis of a convective system over the UK. The latest RAL3 configuration (RAL3.3) is therefore recommended for research, operational numerical weather prediction, and climate production at kilometre and sub-kilometre scales.</p>
ISSN:1991-959X
1991-9603

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