The Influence of Time-Varying Sea Ice Concentration on Antarctic and Southern Ocean Numerical Weather Prediction

Author:

Wang Zhaohui12ORCID,Fraser Alexander D.13,Reid Phil43,Coleman Richard13,O’Farrell Siobhan2

Affiliation:

1. a Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, Tasmania, Australia

2. d CSIRO Environment, Aspendale, Victoria, Australia

3. b Australian Antarctic Program Partnership, Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, Tasmania, Australia

4. c Australian Bureau of Meteorology, Hobart, Tasmania, Australia

Abstract

Abstract Although operational weather forecasting centers are increasingly using global coupled atmosphere–ocean–ice models to replace atmosphere-only models for short- and medium-range (10 day) weather forecasting, the influence of sea ice on such forecasting has yet to be fully quantified, especially in the Southern Ocean. To address this gap, a polar-specific version of the Weather Research and Forecasting Model is implemented with a circumpolar Antarctic domain to investigate the impact of daily updates of sea ice concentration on short- and medium- range weather forecasting. A statistically significant improvement in near-surface atmospheric temperature and humidity is shown from +24 to +192 h when updating the daily sea ice concentration in the model. The forecast skill improvements for 2-m temperature and dewpoint temperature are enhanced from June to September, which is the period of late sea ice advance. Regionally, model improvement is shown to occur in most sea ice regions, although the improvement is strongest in the Ross Sea and Weddell Sea sectors. The surface heat budget also shows remarkable improvement in outgoing radiative heat fluxes and both sensible and latent heat fluxes. This idealized research demonstrates the nonnegligible effect of including more accurate time-varying sea ice concentration in numerical weather forecasting. Significance Statement The purpose of this study is to understand how a more realistic Antarctic sea ice field may influence the skill of short- and medium-range weather forecasts. Many operational atmospheric numerical weather prediction (NWP) models use a static forecast field through the time frame of the model’s forecast—often 3–10 days. In this study, we updated the sea ice concentration field daily and compared the forecast outcomes with those from model runs using a static sea ice concentration field. We found the forecast skill of near-surface temperature and humidity show the most significant improvements in our idealized experiments. This indicates the importance of incorporating improved dynamic sea ice representation in Antarctic short- to medium-range operational weather forecasting.

Funder

Australian Research Council’s Special Research Initiative for the Antarctic Gateway Partnership

University of Tasmania (UTAS) Tasmanian Partnership for Advanced Computing

NCRIS-funded Australian Research Data Commons

Institute for Marine and Antarctic Studies, University of Tasmania

Commonwealth Scientific and Industrial Research Organisation

Australian Antarctic Program Partnership

Bureau of Meteorology, Australian Government

Publisher

American Meteorological Society

Subject

Atmospheric Science

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