References for GEM

Articles describing the dynamical core of GEM

Côté, J., S. Gravel, A. Méthot, A. Patoine, M. Roch and A. Staniforth, 1998 a:
The operational CMC-MRB global environmental multiscale (GEM) model. Part I: Design considerations and formulation. Mon. Wea. Rev., 126, 1373-1395.
Côté, J., J.-G. Desmarais, S. Gravel, A. Méthot, A. Patoine, M. Roch and A. Staniforth, 1998 b:
The operational CMC-MRB global environmental multiscale (GEM) model. Part II: Results. Mon. Wea. Rev., 126, 1397-1418.
Yeh, K.-S., J. Côté, S. Gravel, A. Méthot, A. Patoine, M. Roch and A. Staniforth, 2002:
The CMC-MRB Global Environmental Multiscale (GEM) Model. Part III: Nonhydrostatic Formulation. Mon. Wea. Rev., 130, 339-356. Click on the following link to access the pdf.
Caya, A., R. Laprise and P. Zwack, 1998:
Consequences of Using the Splitting Method for Implementing Physical Forcings in a Semi-Implicit Semi-Lagrangian Model. Mon. Wea. Rev. 126(6), 1707-1713.
Bénard, P., R. Laprise, J. Vivoda, P. Smolíková, 2004:
Stability of Leapfrog Constant-Coefficients Semi-Implicit Schemes for the Fully Elastic System of Euler Equations: Flat-Terrain Case. Mon. Wea. Rev., 132, 1306-1318.
Qaddouri, A., and V.Lee, 2011:
The Canadian Global Environmental Multiscale model on the Yin-Yang grid system, Quart. J. Roy. Meteor. Soc., 137, 660, 1913-1926, DOI: 10.1002/qj.873
Girard, C., and A. Plante, 2013:
GEM4.2: A non-hydrostatic atmospheric model (Euler equations) in terrain-following vertical coordinate of the log-hydrostatic-pressure type vertically discretized on a Charney-Phillips grid with simple differences and means, Revision 2. Notes internes. Recherches en prévision numérique, Environment Canada, 59 pp. La version 2011 “GEM4.1 - Revision 1” du document est disponible ici.
C. Girard, A. Plante et al.:
Options for Semi-Lagrangian Trajectory Calculations
Girard, C., Plante, A., Desgagné, M., McTaggart-Cowan, R., Côté, J., Charron, M., Gravel, S., Lee, V., Patoine, A., Qaddouri, A. and Roch, M., 2014.
Staggered Vertical Discretization of the Canadian Environmental Multiscale (GEM) Model Using a Coordinate of the Log-Hydrostatic-Pressure Type. Monthly Weather Review, 142(3), pp.1183-1196. https://doi.org/10.1175/MWR-D-13-00255.1
Click on the following link to access the pdf.

Dynamical equations by R. Laprise, UQAM (2015)

Articles describing physics schemes of GEM & CRCM

PDF: Descriptions of GEM physics version 3.6 from 1998

Physics of GEM5:

McTaggard-Cowen, R. et al., 2019: Modernization of Atmospheric Physics Parameterization in Canadian NWP. JAMES, 11, issue 11, https://doi.org/10.1029/2019MS001781

Li and Barker correlated-k radiation:

Li, J. and H.W. Barker, 2005: A radiation algorithm with correlated-k distribution. Part I: local thermal equilibrium. J. Atmos. Sci., 62, 286-309.

Kain and Fritsch deep convection:

Kain, J.S. and J.M. Fritsch, 1990: A one-dimensional entraining/detraining plume model and application in convective parameterization. J. Atmos. Sci., 47, 2784-2802.
McTaggart-Cowan, R., Vaillancourt, P. A., Zadra, A., Separovic, L., Corvec, S., & Kirshbaum, D. (2019). A lagrangian perspective on parameterizing deep convection. Monthly Weather Review, 147(11), 4127–4149. https://doi.org/10.1175/MWR-D-19-0164.1

Bechtold shallow convection :

Bechtold, P., Bazile, E., Guichard, F., Mascart, P., & Richard, E. (2001). A mass-flux convection scheme for regional and global models. Quarterly Journal of the Royal Meteorological Society, 127, 869–886. https://doi.org/https://doi.org/10.1002/qj.49712757309

Shallow convection: "ktrsnt":

Bélair S, Mailhot J, Girard C, Vaillancourt P, 2005: Boundary-layer and shallow cumulus clouds in a medium-range forecast of a large-scale weather system. Mon Weather Rev., 133, 1938-1960

Sundquist condensation:

Sundqvist, H., E. Berge and J.E. Kristjansson, 1989: Condensation and Cloud Parameterization Studies with a Mesoscale Numerical Weather Prediction Model. Mon. Wea. Rev., 117, 1641-1657.

ISBA, land surface scheme:

Bélair, S., L-P. Crevier, J. Mailhot, B. Bilodeau, and Y. Delage, 2003: Operational Implementation of the ISBA Land Surface Scheme in the Canadian Regional Weather Forecast Model. Part I: Warm Season Results. J. Hydromet., 4, Issue 2, 352-370
Bélair, S., R. Brown, J. Mailhot, B. Bilodeau, and L.-P. Crevier, 2003: Operational Implementation of the ISBA Land Surface Scheme in the Canadian Regional Weather Forecast Model. Part II: Cold Season Results. J. Hydromet., 4, Issue 2, 371-386

CLASS, land surface scheme:

D. L. Verseghy, 1991: CLASS--A Canadian Land Surface Scheme for GCMS: I. Soil Model. International Journal of Climatology IJCLEU, vol. p 111-133, p. 44
D. L. Verseghy, N. A. McFarlane, and M. Lazare, 1993: CLASS-A Canadian land surface scheme for GCMS, II. Vegetation model and coupled runs. Int. J. Climatol., vol. 13, no. 4, pp. 347-370
Y. Delage, L. Wen & J.‐M. Bélanger, 1999: Aggregation of parameters for the land surface model CLASS, Atmosphere-Ocean, 37:2, 157-178, DOI: 10.1080/07055900.1999.9649624
D. L. Verseghy, 2000: The Canadian Land Surface Scheme (CLASS): its history and future. Atmosphere-Ocean, vol. 38, no. 1, pp. 1-1

McFarlane gravity-wave drag:

McFarlane, N.A., 1987: The effect of orographically excited gravity-wave drag on the circulation of the lower stratosphere and troposphere. J. Atmos. Sci., 44, 1175-1800

Orographic blocking:

Zadra, A., M. Roch, S. Laroche and M. Charron, 2003: The subgrid scale orographic blocking parametrization of the GEM model. Atmos.-Ocean, 41, 155-170.

Geophysical fields (USGS aka GLC2000):

E. Bartholomé and A. S. Belward, 2005: GLC2000: a new approach to global land cover mapping from Earth observation data. International Journal of Remote Sensing, 26:9, 1959-1977, DOI: 10.1080/01431160412331291297

CRCM5 evolving towards GEM4:

Girard, C., A. Plante et al., 2014: Staggered Vertical Discretization of the Canadian Environmental Multiscale (GEM) Model Using a Coordinate of the Log-Hydrostatic-Pressure Type. Monthly Weather Review, DOI: 10.1175/MWR-D-13-00255.1
Click here to see the paper.

P3 (Prediction Particles Properties):

Morrison, H. and Milbrandt, J.A., 2015. Parameterization of cloud microphysics based on the prediction of bulk ice particle properties. Part I: Scheme description and idealized tests. Journal of the Atmospheric Sciences, 72(1), pp.287-311.
Morrison, H., Milbrandt, J.A., Bryan, G.H., Ikeda, K., Tessendorf, S.A. and Thompson, G., 2015. Parameterization of cloud microphysics based on the prediction of bulk ice particle properties. Part II: Case study comparisons with observations and other schemes. Journal of the Atmospheric Sciences, 72(1), pp.312-339.
Milbrandt, J.A. and Morrison, H., 2016. Parameterization of cloud microphysics based on the prediction of bulk ice particle properties. Part III: Introduction of multiple free categories. Journal of the Atmospheric Sciences, 73(3), pp.975-995.
Cholette, M., Morrison, H., Milbrandt, J.A. and Thériault, J.M., 2019. Parameterization of the bulk liquid fraction on mixed-phase particles in the predicted particle properties (P3) scheme: Description and idealized simulations. Journal of the Atmospheric Sciences, 76(2), pp.561-582.
Milbrandt, J.A., Morrison, H., Dawson II, D.T. and Paukert, M., 2021. A triple-moment representation of ice in the Predicted Particle Properties (P3) microphysics scheme. Journal of the Atmospheric Sciences, 78(2), pp.439-458.

Cloud fraction:

C. Jouan, J. A. Milbrandt, P. A. Vaillancourt, F. Chosson, and H. Morrison, 2020: Adaptation of the Predicted Particles Properties (P3) Microphysics Scheme for Large-Scale Numerical Weather Prediction. Weather and Forecasting, p. 2541-2565, DOI: https://doi.org/10.1175/WAF-D-20-0111.1

TEB (Town Energy Balance):

Masson, V., 2000. A physically-based scheme for the urban energy budget in atmospheric models. Boundary-layer meteorology, 94, pp.357-397. DOI: https://doi.org/10.1023/A:1002463829265
Masson, V., Grimmond, C.S.B. and Oke, T.R., 2002. Evaluation of the Town Energy Balance (TEB) scheme with direct measurements from dry districts in two cities. Journal of applied meteorology, 41(10), pp.1011-1026. DOI: https://doi.org/10.1175/1520-0450(2002)041<1011:EOTTEB>2.0.CO;2
Leroyer, S., Bélair, S., Souvanlasy, V., Vallée, M., Pellerin, S. and Sills, D., 2022. Summertime Assessment of an Urban-Scale Numerical Weather Prediction System for Toronto. Atmosphere, 13(7), p.1030. DOI: https://doi.org/10.3390/atmos13071030

Code repository: Masson, V., Lemonsu, A., Pigeon, G., Schoetter, R., de Munck, C., Bueno, B., Faroux, S., Goret, M., Redon, E., Chancibault, K., Stavropulos-Laffaille, X., Leroyer, S., & Meyer, D. (2021). The Town Energy Balance (TEB) model (4.1.2). Zenodo. https://doi.org/10.5281/zenodo.5775962

FLake:

Mironov, D., Heise, E., Kourzeneva, E., Ritter, B., Schneider, N. and co-authors., 2010: Implementation of the lake parameterisation scheme FLake into the numerical weather prediction model COSMO. Boreal Environ. Res.15, 218-230.

Moving from GEM4 to GEM5

"Modernisation des paramétrisations de la physique atmosphérique des modèles de PNT canadien"

Partie 1: Introduction, stratégie de développement et description des changements aux schémas de transfert radiatif et de convection (Paul Vaillancourt, 15 janvier 2020)

Partie 2: Changes to the orography, turbulence and surface layer schemes (Ayrton Zadra, 22 janvier 2020)

Partie 3: (Ron McTaggart-Cowen, 29 janvier 2020)

Other references

Laprise, R.:
Équations de Navier-Stokes (ou d'Euler). SCA7001, D04, Mouvement 2

Laprise, R.:
Coordonnée verticale générale. SCA7001, D09

Laprise, R., 1991:
The Euler Equations of Momentum with Hydrostatic Pressure as Independent Variable.

Raccourcis espace

Arborescence des pages

Articles describing the dynamical core of GEM

Dynamical equations by R. Laprise, UQAM (2015)

Other articles describing dynamics

Articles describing physics schemes of GEM & CRCM

Moving from GEM4 to GEM5

Other references