Seasonal predictions of regional and pan-Antarctic Sea ice with dynamical forecast system
Date
2023
Authors
Payne, Robert
Martin, Joseph
Monahan, Adam H.
Sigmond, Michael
Journal Title
Journal ISSN
Volume Title
Publisher
Atmosphere-Ocean
Abstract
Operational seasonal to interannual forecasting systems are in continued development around the world. Various studies have applied models to the dynamical forecasting of sea ice, particularly in the Arctic. The Antarctic, however, has received relatively little attention, with few previous endeavours to quantify operational forecast skill of sea ice. This study assesses sea ice extent prediction skill of the Canadian Seasonal to Interannual Prediction System version 2 (CanSIPSv2) in the Pan-Antarctic domain as well as in various sectors of the Southern Ocean. The forecast skill of GEM-NEMO, one of two constituent models that together comprise CanSIPSv2, is found to generally exceed that of the other, CanCM4i. This difference is potentially due to substantial model drift of sea ice extent away from observations in CanCM4i, in addition to their different initializations of sea ice thickness. Both models show significant forecast skill exceeding that of an anomaly persistence forecast. Prediction skill was found to vary substantially across different sectors of the Southern Ocean. Moreover, our analysis also finds that CanSIPSv2 forecast skill in the Antarctic shows a dependence on time period, demonstrating generally lower skill than seen in the Arctic over the years 1980–2010, in contrast to generally higher skill than in the Arctic over the years 1980–2019.
Description
Keywords
Canadian Centre for Climate Modelling and Analysis (CCCma)
Citation
Payne, R., Martin, J., Monahan, A., & Sigmond, M. (2023). Seasonal predictions of regional and Pan-Antarctic sea ice with a dynamical forecast system. Atmosphere-Ocean, 61(4), 273–292. https://doi.org/10.1080/07055900.2023.2252387