A new atmospheric dataset for forcing ice–ocean models: Evaluation of reforecasts using the Canadian global deterministic prediction system

Smith, G. C. Moore; Roy, François; Mann, P V; Dupont, Frédéric; Brasnett, Bruce; Lemieux, Jean‐François; Laroche, Stéphane; Bélair, Stéphane

doi:10.1002/qj.2194

Cited by 90 publications

(85 citation statements)

References 77 publications

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“…These include a coupled (atmosphere-ice-ocean) Gulf of Saint Lawrence system (officially operational since June 2011; Smith et al, 2012), the Global Ice-Ocean Prediction System (GIOPS, runs in real time since March 2014; Smith et al, 2015), a Great Lakes coupled system (still in development; Dupont et al, 2012), a regional ice-only prediction system (runs in real time since July 2013; Lemieux et al, 2015a) and a regional Arctic-North Atlantic ice-ocean system based on the CREG12 (Canadian REGional) configuration with a nominal horizontal resolution of 1/12 • . The last is the focus of this paper.…”

Section: Introductionmentioning

confidence: 99%

“…The long-term objective is to provide Canada with short-term ice-ocean predictions and hazard warnings in ice-infested regions. To evaluate the modelling component (as opposed to the analysis -or data-assimilation -component, which is not covered in this contribution), a series of hindcasts for the period 2003-2009 is carried out, forced at the surface by the Canadian GDPS reforecasts (Smith et al, 2014). These hindcasts test how the model represents upper ocean characteristics and ice cover.…”

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confidence: 99%

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A high-resolution ocean and sea-ice modelling system for the Arctic and North Atlantic oceans

et al. 2015

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Abstract. As part of the CONCEPTS (Canadian Operational Network of Coupled Environmental PredicTion Systems) initiative, a high-resolution (1/12 • ) ice-ocean regional model is developed covering the North Atlantic and the Arctic oceans. The long-term objective is to provide Canada with short-term ice-ocean predictions and hazard warnings in ice-infested regions. To evaluate the modelling component (as opposed to the analysis -or data-assimilation -component, which is not covered in this contribution), a series of hindcasts for the period 2003-2009 is carried out, forced at the surface by the Canadian GDPS reforecasts (Smith et al., 2014). These hindcasts test how the model represents upper ocean characteristics and ice cover. Each hindcast implements a new aspect of the modelling or the ice-ocean coupling. Notably, the coupling to the multi-category ice model CICE is tested. The hindcast solutions are then assessed using a verification package under development, including in situ and satellite ice and ocean observations. The conclusions are as follows: (1) the model reproduces reasonably well the time mean, variance and skewness of sea surface height; (2) the model biases in temperature and salinity show that while the mean properties follow expectations, the Pacific Water signature in the Beaufort Sea is weaker than observed; (3) the modelled freshwater content of the Arctic agrees well with observational estimates; (4) the distribution and volume of the sea ice are shown to be improved in the latest hindcast due to modifications to the drag coefficients and to some degree to the ice thickness distribution available in CICE; (5) nonetheless, the model still overestimates the ice drift and ice thickness in the Beaufort Gyre.

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Section: Introductionmentioning

confidence: 99%

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confidence: 99%

A high-resolution ocean and sea-ice modelling system for the Arctic and North Atlantic oceans

et al. 2015

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“…Open 25 boundary conditions (temperature, salinity and horizontal ocean velocities) are derived from the monthly GLORYS2v3 product as well. At the surface, the model is driven with high temporal (hourly) and spatial resolution (33 km) atmospheric forcing data provided by Canadian Meteorological Centre (CMC) Global Deterministic Prediction System (GDPS) ReForecasts (CGRF) dataset (Smith et al, 2014), including 10 m wind, 2 m air temperature and humidity, downwelling and longwave radiation flux, and total precipitation. Inter-annual monthly 1…”

Section: Numerical Model Setupmentioning

confidence: 99%

“…The CGRF product use the GEWEX correction (more details in Smith et al (2014)) to minimize the bias in the original output from the atmospheric model. However, it was found that this correction is not needed for years after 2011 (Paquin, 2017).…”

Section: May-10mentioning

confidence: 99%

Thermodynamic and Dynamic Ice Thickness Changes in the Canadian Arctic Archipelago in NEMO-LIM2 Numerical Simulations

Hu¹,

Sun²,

Chan³

et al. 2017

Preprint

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Abstract. Sea ice thickness evolution within the Canadian Arctic Archipelago (CAA) is of great interest. In this study, based on the NEMO numerical frame work including the LIM2 sea ice module, simulations at both 1/4• and 1/12 model resolution does not play a significant role in the sea ice simulation except to improve local dynamics because of better coastline representation. Sea ice growth is decomposed into thermodynamic and dynamic (including all non-thermodynamic 10 processes in the model) contributions to study the ice thickness evolution. Relatively smaller thermodynamic contribution to ice growth between December and the following April is found in the thick and very thick ice regions, with larger contributions in the thin ice covered region. Wavelet analysis of the hourly simulated ice fields clearly shows the thermodynamic contribution have seasonal and diurnal cycles while only the seasonal cycle is significant for the total ice thickness. High frequency changes are found in both fields during the sea ice melting and formation process, particularly in the melting season.

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“…Wind data was taken from the gridded reanalysis data of the Canadian Meteorological Centre (Smith et al, 2014). The location selected is on the Mackenzie Shelf, near the middle of the transect, located at 70.3125° N, 133.5937° W. Figure 6 shows the wind direction and magnitude averaged every six hours through August Sampling of the Mackenzie Shelf transect took place from August 22 nd to 24 th , indicated by the red lines in Fig.…”

Section: Wind Forcingmentioning

confidence: 99%

Inorganic carbon fluxes on the Mackenzie Shelf of the Beaufort Sea

Mol

Thomas

Myers

et al. 2017

Preprint

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Abstract. The Mackenzie Shelf in the southeastern Beaufort Sea is a region that has experienced large changes in the past several decades as warming, sea-ice loss, and increased river discharge have altered carbon cycling. Upwelling and downwelling events are common on the shelf, caused by strong, fluctuating along-shore winds, resulting in cross-shelf Ekman transport, and an alternating estuarine and anti-estuarine circulation. Downwelling carries inorganic carbon and other 10 remineralization products off the shelf and into the deep basin for possible long-term storage in the world oceans. Upwelling River freshwater, and sea-ice melt on carbon dynamics and air-sea fluxes of carbon dioxide (CO 2 ) in the surface mixed layer. 20Understanding carbon transfer in this seasonally dynamic environment is key to quantify the importance of Arctic shelf regions to the global carbon cycle and provide a basis for understanding how it will respond to the aforementioned climateinduced changes.

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A new atmospheric dataset for forcing ice–ocean models: Evaluation of reforecasts using the Canadian global deterministic prediction system

Cited by 90 publications

References 77 publications

A high-resolution ocean and sea-ice modelling system for the Arctic and North Atlantic oceans

A high-resolution ocean and sea-ice modelling system for the Arctic and North Atlantic oceans

Thermodynamic and Dynamic Ice Thickness Changes in the Canadian Arctic Archipelago in NEMO-LIM2 Numerical Simulations

Inorganic carbon fluxes on the Mackenzie Shelf of the Beaufort Sea

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