The Stratospheric Extension of the Canadian Global Deterministic Medium-Range Weather Forecasting System and Its Impact on Tropospheric ForecastsSource: Monthly Weather Review:;2012:;volume( 140 ):;issue: 006::page 1924Author:Charron, Martin
,
Polavarapu, Saroja
,
Buehner, Mark
,
Vaillancourt, P. A.
,
Charette, Cécilien
,
Roch, Michel
,
Morneau, Josée
,
Garand, Louis
,
Aparicio, Josep M.
,
MacPherson, Stephen
,
Pellerin, Simon
,
St-James, Judy
,
Heilliette, Sylvain
DOI: 10.1175/MWR-D-11-00097.1Publisher: American Meteorological Society
Abstract: new system that resolves the stratosphere was implemented for operational medium-range weather forecasts at the Canadian Meteorological Centre. The model lid was raised from 10 to 0.1 hPa, parameterization schemes for nonorographic gravity wave tendencies and methane oxidation were introduced, and a new radiation scheme was implemented. Because of the higher lid height of 0.1 hPa, new measurements between 10 and 0.1 hPa were also added. This new high-top system resulted not only in dramatically improved forecasts of the stratosphere, but also in large improvements in medium-range tropospheric forecast skill. Pairs of assimilation experiments reveal that most of the stratospheric and tropospheric forecast improvement is obtained without the extra observations in the upper stratosphere. However, these observations further improve forecasts in the winter hemisphere but not in the summer hemisphere. Pairs of forecast experiments were run in which initial conditions were the same for each experiment but the forecast model differed. The large improvements in stratospheric forecast skill are found to be due to the higher lid height of the new model. The new radiation scheme helps to improve tropospheric forecasts. However, the degree of improvement seen in tropospheric forecast skill could not be entirely explained with these purely forecast experiments. It is hypothesized that the cycling of a better model and assimilation provide improved initial conditions, which result in improved forecasts.
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contributor author | Charron, Martin | |
contributor author | Polavarapu, Saroja | |
contributor author | Buehner, Mark | |
contributor author | Vaillancourt, P. A. | |
contributor author | Charette, Cécilien | |
contributor author | Roch, Michel | |
contributor author | Morneau, Josée | |
contributor author | Garand, Louis | |
contributor author | Aparicio, Josep M. | |
contributor author | MacPherson, Stephen | |
contributor author | Pellerin, Simon | |
contributor author | St-James, Judy | |
contributor author | Heilliette, Sylvain | |
date accessioned | 2017-06-09T17:29:19Z | |
date available | 2017-06-09T17:29:19Z | |
date copyright | 2012/06/01 | |
date issued | 2012 | |
identifier issn | 0027-0644 | |
identifier other | ams-86158.pdf | |
identifier uri | http://onlinelibrary.yabesh.ir/handle/yetl/4229685 | |
description abstract | new system that resolves the stratosphere was implemented for operational medium-range weather forecasts at the Canadian Meteorological Centre. The model lid was raised from 10 to 0.1 hPa, parameterization schemes for nonorographic gravity wave tendencies and methane oxidation were introduced, and a new radiation scheme was implemented. Because of the higher lid height of 0.1 hPa, new measurements between 10 and 0.1 hPa were also added. This new high-top system resulted not only in dramatically improved forecasts of the stratosphere, but also in large improvements in medium-range tropospheric forecast skill. Pairs of assimilation experiments reveal that most of the stratospheric and tropospheric forecast improvement is obtained without the extra observations in the upper stratosphere. However, these observations further improve forecasts in the winter hemisphere but not in the summer hemisphere. Pairs of forecast experiments were run in which initial conditions were the same for each experiment but the forecast model differed. The large improvements in stratospheric forecast skill are found to be due to the higher lid height of the new model. The new radiation scheme helps to improve tropospheric forecasts. However, the degree of improvement seen in tropospheric forecast skill could not be entirely explained with these purely forecast experiments. It is hypothesized that the cycling of a better model and assimilation provide improved initial conditions, which result in improved forecasts. | |
publisher | American Meteorological Society | |
title | The Stratospheric Extension of the Canadian Global Deterministic Medium-Range Weather Forecasting System and Its Impact on Tropospheric Forecasts | |
type | Journal Paper | |
journal volume | 140 | |
journal issue | 6 | |
journal title | Monthly Weather Review | |
identifier doi | 10.1175/MWR-D-11-00097.1 | |
journal fristpage | 1924 | |
journal lastpage | 1944 | |
tree | Monthly Weather Review:;2012:;volume( 140 ):;issue: 006 | |
contenttype | Fulltext |