1. Reducing the Spring Barrier in Predicting Summer Arctic Sea Ice Concentration Zeng, Jingwen; Yang, Qinghua; Li, Xuewei; Yuan, Xiaojun; Bushuk, Mitchell; Chen, Dake 2023 Articles Sea iceSea ice--ForecastingClimatology
2. SIPN South: six years of coordinated seasonal Antarctic sea ice predictions 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; 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 2023 Articles Sea iceSea ice--ForecastingClimatology
3. Subseasonal Prediction of Regional Antarctic Sea Ice by a Deep Learning Model Wang, Yunhe; Yuan, Xiaojun; Ren, Yibin; Bushuk, Mitchell; Shu, Qi; Li, Cuihua; Li, Xiaofeng 2023 Articles Sea iceSea ice--ForecastingDeep learning (Machine learning)Climatology
4. Understanding Arctic Sea Ice Thickness Predictability by a Markov Model Wang, Yunhe; Yuan, Xiaojun; Bi, Haibo; Ren, Yibin; Liang, Yu; Li, Cuihua; Li, Xiaofeng 2023 Articles Sea iceSea ice--ForecastingMarkov processesClimatology
5. Water mass transformation variability in the Weddell Sea in ocean reanalyses Bailey, Shanice T.; Jones, C. Spencer; Abernathey, Ryan Patrick; Gordon, Arnold L.; Yuan, Xiaojun 2023 Articles Physical oceanographyOceanographyWater massesBottom water (Oceanography)ThermodynamicsClimatology
6. Reassessing seasonal sea ice predictability of the Pacific-Arctic sector using a Markov model Yuan, Xiaojun; Wang, Yunhe; Bi, Haibo; Bushuk, Mitchell; Liang, Yu; Li, Cuihua; Huang, Haijun 2022 Articles Sea iceMarkov processesClimatologyOceanography
7. Reassessing seasonal sea ice predictability of the Pacific-Arctic sector using a Markov model: supplemental data Yuan, Xiaojun 2022 Data (Information) Sea iceMarkov processesClimatologyOceanography
8. A coupled mode of cloud, atmospheric circulation, and sea ice controlled by wave-3 pattern in Antarctic winter: Data Yuan, Xiaojun 2021 Data (Information) Atmospheric circulationCloudsSea iceClimatology
9. Coupled mode of cloud, atmospheric circulation, and sea ice controlled by wave-3 pattern in Antarctic winter Wang, Yunhe; Yuan, Xiaojun; Cane, Mark A. 2021 Articles CloudsAtmospheric circulationSea iceOcean-atmosphere interactionOceanography
10. Tropical teleconnection impacts on Antarctic climate changes Li, Xichen; Cai, Wenju; Meehl, Gerald A.; Chen, Dake; Yuan, Xiaojun; Raphael, Marilyn; Holland, David M.; Ding, Qinghua; Fogt, Ryan L.; Markle, Bradley R.; Wang, Guojian; Bromwich, David H.; Turner, John; Xie, Shang-Ping; Steig, Eric J.; Gille, Sarah T.; Xiao, Cunde; Wu, Bingyi; Lazzara, Matthew A.; Chen, Xianyao; Stammerjohn, Sharon; Holland, Paul R.; Holland, Marika M.; Cheng, Xiao; Price, Stephen F.; Wang, Zhaomin; Bitz, Cecilia M.; Shi, Jiuxin; Gerber, Edwin P.; Liang, Xi; Goosse, Hugues; Yoo, Changhyun; Ding, Minghu; Geng, Lei; Xin, Meijiao; Li, Chuanjin; Dou, Tingfeng; Liu, Chengyan; Sun, Weijun; Wang, Xinyue; Song, Chentao 2021 Articles Atmospheric circulationTeleconnections (Climatology)OceanographyClimatologyClimatic changes