01-Zixuan Li, Jiechen Zhao*, Jie Su, Chunhua Li, Bin Cheng, Fengming Hui, Qinghua Yang and Lijuan Shi, 2020.Spatial and temporal variations in the extent and thickness of Arctic landfast ice. Remote Sensing, 12(64). doi: 10.3390/rs12010064. Li Zixuan etal.2020-Spatial and temporal variations in the extent and thickness of Arctic landfast ice.pdf

02-Wang Ke and Zhao Jinping, 2020.The new minimum of sea ice concentration in the central Arctic in 2016[J]. Journal of Ocean University of China (Oceanic and Coastal Sea Research), 19(3): 569-576.Wang&Zhao2020-The new minimum of sea ice concentration in the central Arctic in 2016.pdf

03-Ouyang, Z., Qi, D., Zhong, W., Chen, L., Gao Z., Lin, H., Sun, H., Li T. and W. Cai, 2020. Summertime evolution of net community production and CO₂ flux in the western Arctic Ocean. Global Biogeochemical Cycles, https://doi.org/10.1029/2020GB006651. Zhangxian Ouyang et al.-2020-Summertime evolution of net community production and CO2 flux in the western Arctic Ocean..pdf

04-Ouyang, Z., Qi, D., Chen, L., Takahashi, T., Zhong, W., DeGrandpre, M. D., Chen, B., Gao, Z., Nishino, S., Murata, A., Sun, H., Robbins, L. L., Jin, M., and W. Cai ,2020. Sea-ice loss amplifies summertime decadal CO₂ increase in the western Arctic Ocean. Nature Climate Change, 10(7), 678-684. https://doi.org/10.1038/s41558-020-0784-2.Zhangxian Ouyang et al.-2020-Sea-ice loss amplifies summertime decadal CO2 increase in the western Arctic Ocean.pdf

05-史久新，2020.地球会突然变冷吗？大自然， 211: 29-31.（科普文章）

06-吴延俊，赵进平, 2020.欧亚海盆大西洋水输运过程及热释放研究进展[J].地球科学进展，35(3): 231-245. DOI：10.11867/j. issn.1001-8166.2020.014 吴延俊&赵进平-2020-欧亚海盆大西洋水输运过程及热释放研究进展.pdf

07-王松，苏洁*，储敏*，史学丽，2020.BCC_CSM对北极海冰的模拟：CMIP5和CMIP6历史试验比较.海洋学报，42(5):49-64. 王松&苏洁-2020-BCC＿CSM对北极海冰的模拟：...MIP5和CMIP6历史试验比较_王松.pdf

08-Liu, F., J. Lu, et al., 2020.On the oceanic origin for the enhanced seasonal cycle of SST in the midlatitudes under global warming [J].Journal of Climate, 33(19). doi:10.1175/JCLI-D-20-0114.1 Liu Fukai et al.-2020-On the Oceanic Origin for the Enhanced Seasonal Cycle of SST in the Midlatitudes under Global Warming.pdf

09-Lu J, Liu F., Leung L R et al.,2020. Neutral modes of surface temperature and the optimal ocean thermal forcing for global cooling [J]. npj Climate and Atmospheric Science, Springer US, 3(1): 9. Doi:10.1038/s41612-020-0112-6 Lu et al-2020-Neutral modes of surface temperature and the optimal ocean thermal forcing for global cooling.pdf

10-Feng, Y., X. Y. Chen, K.-K. Tung, 2020.ENSO diversity and the recent appearance of central Pacific ENSO. Climate Dynamics, 54, 413-433. Feng et al-2020-ENSO diversity and the recent appearance of central Pacific ENSO.pdf

11-史荒原, 杜凌*, 徐道欢,2020. 热带太平洋盐度变化：2015-2017 年盐度异常. 海洋学报, 42(3): 47-58. doi:10.3969/j.issn.0253-4193.2020.03.005. 史荒原等-2020-热带太平洋盐度变化：2015-2017 年盐度异常.pdf

12-Chen C., Zhang M., Perrie W ,Chang, R., Chen X.Y., Wheeler, M., Duplessis, P.. ,2020.Boundary layer parameterizations to simulate fog over Atlantic Canada waters[J]. Earth and Space Science, 7, e2019Ea000703. Chen et al-2020-Boundary layer parameterizations to simulate fog over Atlantic Canada waters.pdf

13-Xu, Daohuan, Ling Du*, Jingkai Ma, Huangyuan Shi ,2020. Pathways of meridional atmospheric moisture transport in the central Arctic. Acta Oceanologica Sinica, 39: 5, 55-64.doi: 10.1007/s13131-020-1598-9. Xu et al-2020-Pathways of meridional atmospheric moisture transport in the central Arctic.pdf

14-Jiao Yan, Huang Fei*, Liu Qingrong, Li Ge, Li Yaru, Yu Qingxi, and Zhao Yiding, 2020.Interannual variability and scenarios projection of sea ice in Bohai Sea Part I: variation characteristics and interannual hindcast. J. Ocean Univ. China (Oceanic and Coastal Sea Research), 19 (2): 272-280. Jiao et al-2020-Interannual variability and scenarios projection of sea ice in Bohai Sea Part I variation characteristics and interannual hindcast.pdf

15-Lu Tianan*, Huang Fei, Li Hongping, 2020.Neural network based synthetic aperture ladar imaging through marine atmosphere .Optik, 219: 164975. Lu et al-2020-Neural network based synthetic aperture ladar imaging through marine atmosphere.pdf

16-Wu Yanjie, Huang Fei, Xu Shibin*, XING Wen, 2020.Prediction of accumulated cyclone energy in tropical cyclone over the western North Pacific in autumn. Climate Dynamics, 55:3327–3342. Wu et al-2020-Prediction of accumulated cyclone energy in tropical cyclone over the western North Pacific in autumn.pdf

17-Jian Shi*, Kaijun Wu, Weihong Qian, Fei Huang, Chun Li, Cong Tang, 2020.Characteristics, trend, and precursors of extreme cold events in northwestern North America. Atmospheric Research, doi:10.1016/j.atmosres.2020.105338. Shi-et al.-2020-Characteristics, trend, and precursors of extreme cold events in northwestern North America.pdf

18-焦艳，黄菲*，高松，刘清容，冀承振，王宁，曹雅静，于清溪，2020.基于长短时记忆神经网络的辽东湾海冰延伸期预报方法研究.中国海洋大学学报（自然科学版），50（6）：1-11. 焦艳等-2020-基于长短时记忆神经网络的辽东湾海冰延伸期预报方法研究.pdf

19-王新，黄菲*，王宏，2020.春季北极地区云量跷跷板式的趋势变化特征及其对北极放大的云反馈作用.中国海洋大学学报（自然科学版），50 (7): 10-17 王新等-2020-春季北极地区云量跷跷板式的趋势变化特征及其对北极放大的云反馈作用.pdf

20-Su Jie, Yu Ping, Qin Yuqing, Zhang Gan, Wang Mingfeng, 2020.Study on arctic melt pond fraction retrieval algorithm using MODIS data.The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XLIII-B3-2020, XXIV ISPRS Congress, 893-989.(EI) Su et al-2020-Study on arctic melt pond fraction retrieval algorithm using MODIS data.pdf

21-Su Jie, Hao Hairui, Liang Hongjie, 2020.Retrieval arctic sea ice surface melt onset in 2016 from FY-3B/MWRI data. IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 3012-3015. 978-1-7281-6374-1. (EI) Su-2020-Retrieval arctic sea ice surface melt onset in 2016 from FY-3B MWRI data.pdf

22-唐晓彤,陈海花,管磊,李乐乐,2020.FY-3B/MWRI与GCOM-W1/AMSR-2亮温数据在北极地区的交叉定标.遥感学报. 24(8):1032-1044.唐晓彤等-2020-FY-3B MWRI与GCOM-W1 AMSR-2亮温数据在北极地区的交叉定标.pdf

23-施骞，苏洁*，2020.三种国际主流的北极卫星遥感冰速产品评估和分析.遥感学报，24（7）：867-882. 施骞&苏洁-2020-三种国际主流的北极卫星遥感冰速产品评估和分析.pdf

24-Yu Y，Yang J，Zheng LY，Sheng Q，Li CY，Wang M.，Zhang XY，McMinn A， Zhang YZ， Song XY， Chen XL，2020.Diversity of D-Amino acid utilizing bacteria from kongsfjorden.Arctic and the metabolic pathways for seven D-Amino acids. Front Microbiol，Jan 10,10:2983. Yu et al-2020-Diversity of D-Amino acid utilizing bacteria from kongsfjorden.Arctic and the metabolic pathways for seven D-Amino acids.pdf

25-Liu, Q., Jiang, Y.*, 2020.Application of microbial network analysis to discriminate environmental heterogeneity in Fildes Peninsula, Antarctica. Marine Pollution Bulletin, 156, 111244. Liu&Jiang-2020-Application of microbial network analysis to discriminate environmental heterogeneity in Fildes Peninsula, Antarctica..pdf

26-Jiang, Y., Yang, F., Zhao, Y., Wang, J.,2020. Greenland Sea Gyre increases microplastic pollution in the surface waters of the Nordic Seas. Science of the Total Environment, 712, 136484. Jiang et al-2020-Greenland Sea Gyre increases microplastic pollution in the surface waters of the Nordic Seas.pdf

27-Mudassir Shah#, Chunxiao Sun#, Zichao Sun, Guojian Zhang, Qian Che, Qianqun Gu, Tianjiao Zhu*, Dehai Li*, 2020.Antibacterial polyketides from Antarctica sponge-derived fungus Penicillium sp. HDN151272. Mar. Drugs,18, 71-79. Mudassir et al-2020-Antibacterial polyketides from Antarctica sponge-derived fungus .pdf

28-Chun-xiao Sun, Zi-ping Zhang, Zi-lin Ren, Liu Yu, Huan Zhou, Ya-xin Han, Mudassir Shah, Qian Che, Guo-jian Zhang, De-hai Li*, Tian-jiao Zhu*,2020.Antibacterial Cyclic Tripeptides from Antarctica-Sponge-Derived Fungus Aspergillus insulicola HDN151418. Mar. Drugs, 18, 532. Sun et al-2020-Antibacterial Cyclic Tripeptides from Antarctica-Sponge-Derived Fungus Aspergillus insulicola HDN151418.pdf

29-Cao S, Zhang W, Ding W, Wang M, Fan S, Yang B, Mcminn A, Wang M, Xie BB, Qin QL, Chen XL, He J, Zhang YZ, 2020. Structure and function of the Arctic and Antarctic marine microbiota as revealed by metagenomics. Microbiome, Apr 2;8(1):47. Cao-et al-2020-Structure and function of the Arctic and Antarctic marine microbiota as revealed by metagenomics.pdf

30-Xu F, Chen XL, Sun XH, Dong F, Li CY, Li PY, Ding H, Chen Y, Zhang YZ, Wang P., 2020.Structural and molecular basis for the substrate positioning mechanism of a new PL7 subfamily alginate lyase from the arctic. J Biol Chem, 295(48): 16380-16392. Xu et al-2020-Structural and molecular basis for the substrate positioning mechanism of a new PL7 subfamily alginate lyase from the arctic.pdf 

31-Sun ML, Zhao F, Chen XL, Zhang XY, Zhang YZ, Song XY, Sun CY, Yang J,2020. Promotion of wound healing and prevention of frostbite injury in rat skin by exopolysaccharide from the Arctic marine bacterium polaribacter sp. SM1127.Mar Drugs,11, Jan, 18 (1): 48 Sun et al-2020-Promotion of Wound Healing and Prevention of Frostbite Injury in Rat Skin by Exopolysaccharide from the Arctic Marine Bacterium Polaribacter sp. SM1127.pdf

32-刘晓收*，王晓晓，王璐，张志南，2020. 南极菲尔德斯半岛潮间带小型底栖动物初步研究. 极地研究, 32(3)：281-289. 刘晓收等-2020-南极菲尔德斯半岛潮间带小型底栖动物初步研究.pdf

33-郭培清，宋晗，韩国“新北方政策”与中国“冰上丝绸之路”倡议合作方案对比，《中国海洋大学学报》，2020年第10期。

34-厉召卿，郭培清，从核动力破冰船到浮动核电站——俄罗斯的北极核能应用，《中国船检》，2020-05-15 从核动力破冰船到浮动核电站——俄罗斯的北极核能应用_厉召卿.pdf

35-郭培清，宋晗，北极环保的真假命题，《中国社会科学报》，2020-05-14  http://www.cssn.cn/zk/zk_sthj/202005/t20200514_5128615.shtml

36-郭培清，李琳，加拿大努纳维克因纽特自治:原因、历程及前景，《中国海洋大学学报》，2020年第2期，pp.91-100.

37-郭培清，杨楠，论中美俄在北极的复杂关系，《东北亚论坛》，2020年第一期，pp. 26-41。郭培清&杨楠-2020-论中美俄在北极的复杂关系.pdf

38-董跃，南极国际法治发展趋势及我国南极立法的因应，法制日，2020-6-10 http://fxcxw.mzyfz.com/dyna/content.php?id=17865

39-董跃、郭启萌，海洋发展视角下的《民法典》，中国社会科学报，2020-10-14    http://ex.cssn.cn/zx/bwyc/202010/t20201014_5193974.shtml

40-董跃，我国《海洋基本法》中的“极地条款”研拟问题，东岳论丛，2020年第2期 董跃-2020-我国《海洋基本法》中的“极地条款”研拟问题.pdf

41-董跃，我国南极活动的税法问题研究，税务研究，2020年第2期 董跃-2020-我国南极活动的税法问题研究.pdf