The subgrid‐scale orographic blocking parametrization of the GEM Model

Zadra, Ayrton; Roch, Michel; Laroche, Stéphane; Charron, Martin

doi:10.3137/ao.410204

Cited by 90 publications

(80 citation statements)

References 17 publications

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“…These include the Kain-Fritsch deep convection (Kain and Fritsch 1990), Kuo-transient shallow convection (Kuo 1965;Bélair et al 2005), Sundqvist resolved-scale condensation (Sundqvist et al 1989), correlated-K solar and terrestrial radiations (Li and Barker 2005), subgrid-scale orographic gravity-wave drag (McFarlane 1987), low-level orographic blocking (Zadra et al 2003), and planetary boundary layer parameterization (Benoit et al 1989;Delage and Girard 1992;Delage 1997) modified by Zadra et al (2012) to introduce hysteresis effects.…”

Section: Model Descriptionmentioning

confidence: 99%

Dynamical downscaling with the fifth-generation Canadian regional climate model (CRCM5) over the CORDEX Arctic domain: effect of large-scale spectral nudging and of empirical correction of sea-surface temperature

et al. 2017

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most notable positive effect over the Arctic is a reduction of the T2m bias over the North Pacific Ocean and the North Atlantic Ocean in all seasons. Future projections using this method are compared with the results obtained with the traditional 2-step dynamical downscaling (CGCM-RCM) to assess the impact of correcting systematic biases of SST upon future-climate projections. The future projections are mostly similar for the two methods, except for precipitation.

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Section: Model Descriptionmentioning

confidence: 99%

Dynamical downscaling with the fifth-generation Canadian regional climate model (CRCM5) over the CORDEX Arctic domain: effect of large-scale spectral nudging and of empirical correction of sea-surface temperature

et al. 2017

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“…CRCM5 is based on a limited-area configuration of the Global Environment Multiscale (GEM) model (Bélair et al 2005(Bélair et al , 2009) employed for numerical weather prediction by the Canadian Meteorological Centre (CMC). The subgrid-scale physical parameterisations include the Kain and Fritsch (1990) deep-convection and Kuo-transient (Kuo 1965) shallow-convection schemes, as well as the Sundqvist et al (1989) large-scale condensation scheme, the correlated-K scheme for solar and terrestrial radiations (Li and Barker 2005), a subgrid-scale mountain gravitywave drag (McFarlane 1987) and low-level orographic blocking (Zadra et al 2003), a turbulent kinetic energy closure in the planetary boundary layer and vertical diffusion (Benoît et al 1989;Delage and Girard 1992;Delage 1997), and a weak ∇ 6 lateral diffusion. The land-surface scheme however is changed from ISBA used in GEM for the Canadian LAnd Surface Scheme (CLASS; Verseghy 2000Verseghy , 2008 in its most recent version, CLASS 3.5.…”

Section: Model Descriptionmentioning

confidence: 99%

3-Step dynamical downscaling with empirical correction of sea-surface conditions: application to a CORDEX Africa simulation

et al. 2016

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WAM precipitation, mainly due to the correction of SSCs. In fact, our results show that proper sea surface temperature (SST) in the Gulf of Guinea is a necessary condition for an adequate simulation of WAM precipitation, especially over the equatorial region of West Africa. It was found that the climate-change projections under RCP4.5 scenario obtained with the 3-step approach are substantially different from those obtained with usual downscaling approach in which the RCM is directly driven by the CGCM output; in the WAM region most of the differences in the projected climate changes came mainly from the empirical correction of SST.

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“…The following physical parameterizations, inherited from GEM, are used in CRCM5: deep convection following Kain and Fritsch (1990), shallow convection based on a transient version of Kuo (1965) scheme (Bélair et al 2005), large-scale condensation (Sundqvist et al 1989), correlated-K solar and terrestrial radiations (Li and Barker 2005), and subgridscale orographic gravity-wave drag (McFarlane 1987). The low-level orographic blocking parameterization of Zadra et al (2003), with recent modifications described in Zadra et al (2012) is also used. The planetary boundary layer parameterization (Benoît et al 1989;Delage and Girard 1992;Delage 1997) has also been modified as described in Zadra et al (2012), introducing turbulent hysteresis, i.e.…”

Section: Regional Climate Model Descriptionmentioning

confidence: 99%

Reanalysis-driven climate simulation over CORDEX North America domain using the Canadian Regional Climate Model, version 5: model performance evaluation

et al. 2013

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The performance of reanalysis-driven Canadian Regional Climate Model, version 5 (CRCM5) in reproducing the present climate over the North American COordinated Regional climate Downscaling EXperiment domain for the 1989-2008 period has been assessed in comparison with several observation-based datasets. The model reproduces satisfactorily the near-surface temperature and precipitation characteristics over most part of North America. Coastal and mountainous zones remain problematic: a cold bias (2-6°C) prevails over Rocky Mountains in summertime and all year-round over Mexico; winter precipitation in mountainous coastal regions is overestimated. The precipitation patterns related to the North American Monsoon are well reproduced, except on its northern limit. The spatial and temporal structure of the Great Plains Low-Level Jet is well reproduced by the model; however, the night-time precipitation maximum in the jet area is underestimated. The performance of CRCM5 was assessed against earlier CRCM versions and other RCMs. CRCM5 is shown to have been substantially improved compared to CRCM3 and CRCM4 in terms of seasonal mean statistics, and to be comparable to other modern RCMs.

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The subgrid‐scale orographic blocking parametrization of the GEM Model

Cited by 90 publications

References 17 publications

Dynamical downscaling with the fifth-generation Canadian regional climate model (CRCM5) over the CORDEX Arctic domain: effect of large-scale spectral nudging and of empirical correction of sea-surface temperature

Dynamical downscaling with the fifth-generation Canadian regional climate model (CRCM5) over the CORDEX Arctic domain: effect of large-scale spectral nudging and of empirical correction of sea-surface temperature

3-Step dynamical downscaling with empirical correction of sea-surface conditions: application to a CORDEX Africa simulation

Reanalysis-driven climate simulation over CORDEX North America domain using the Canadian Regional Climate Model, version 5: model performance evaluation

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