AUTHOR=Massonnet François , Barreira Sandra , Barthélemy Antoine , Bilbao Roberto , Blanchard-Wrigglesworth Edward , Blockley Ed , Bromwich David H. , Bushuk Mitchell , Dong Xiaoran , Goessling Helge F. , Hobbs Will , Iovino Doroteaciro , Lee Woo-Sung , Li Cuihua , Meier Walter N. , Merryfield William J. , Moreno-Chamarro Eduardo , Morioka Yushi , Li Xuewei , Niraula Bimochan , Petty Alek , Sanna Antonella , Scilingo Mariana , Shu Qi , Sigmond Michael , Sun Nico , Tietsche Steffen , Wu Xingren , Yang Qinghua , Yuan Xiaojun TITLE=SIPN South: six years of coordinated seasonal Antarctic sea ice predictions JOURNAL=Frontiers in Marine Science VOLUME=10 YEAR=2023 URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2023.1148899 DOI=10.3389/fmars.2023.1148899 ISSN=2296-7745 ABSTRACT=

Antarctic sea ice prediction has garnered increasing attention in recent years, particularly in the context of the recent record lows of February 2022 and 2023. As Antarctica becomes a climate change hotspot, as polar tourism booms, and as scientific expeditions continue to explore this remote continent, the capacity to anticipate sea ice conditions weeks to months in advance is in increasing demand. Spurred by recent studies that uncovered physical mechanisms of Antarctic sea ice predictability and by the intriguing large variations of the observed sea ice extent in recent years, the Sea Ice Prediction Network South (SIPN South) project was initiated in 2017, building upon the Arctic Sea Ice Prediction Network. The SIPN South project annually coordinates spring-to-summer predictions of Antarctic sea ice conditions, to allow robust evaluation and intercomparison, and to guide future development in polar prediction systems. In this paper, we present and discuss the initial SIPN South results collected over six summer seasons (December-February 2017-2018 to 2022-2023). We use data from 22 unique contributors spanning five continents that have together delivered more than 3000 individual forecasts of sea ice area and concentration. The SIPN South median forecast of the circumpolar sea ice area captures the sign of the recent negative anomalies, and the verifying observations are systematically included in the 10-90% range of the forecast distribution. These statements also hold at the regional level except in the Ross Sea where the systematic biases and the ensemble spread are the largest. A notable finding is that the group forecast, constructed by aggregating the data provided by each contributor, outperforms most of the individual forecasts, both at the circumpolar and regional levels. This indicates the value of combining predictions to average out model-specific errors. Finally, we find that dynamical model predictions (i.e., based on process-based general circulation models) generally perform worse than statistical model predictions (i.e., data-driven empirical models including machine learning) in representing the regional variability of sea ice concentration in summer. SIPN South is a collaborative community project that is hosted on a shared public repository. The forecast and verification data used in SIPN South are publicly available in near-real time for further use by the polar research community, and eventually, policymakers.