01-Cao Y, Bian L, Zhao J, 2019. Impacts of changes in sea ice and heat flux on Arctic warming. Atmospheric and Climate Sciences, 9: 84-99.Cao et al-Impacts_of_Changes_in_Sea_Ice_and_Heat_Flux_on_Arctic_Warming.pdf
02-Ji Xupeng, Zhao Jinping, 2019.Transition periods between sea ice concentration and sea surface air temperature in the Arctic revealed by an abnormal running correlation. Journal of Ocean University of China, 18(3): 633-642.Ji Xupeng, Zhao Jinping-Transition periods between sea ice concentration and sea surface air temperature in the Arctic revealed by an abnormal running correlation.pdf
03-Su Jie, Shi Qian, Chen Ping, Liang Hongjie, 2019.The coupling characteristics of Arctic sea ice concentration and sea ice motion in winter. IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 4020-4023.Su-The coupling characteristics of Arctic sea ice concentration and sea ice motion in winter..pdf
04-Zhao Jinping, Ken Drinkwater, Wang Xin, 2019. Positive and negative feedbacks related to the Arctic oscillation revealed by air-sea heat fluxes.Zhao et al-Positive and negative feedbacks related to the Arctic oscillation revealed by air-sea heat fluxes.pdf
05-Lin Long, Zhao Jinping, 2019.Estimation of oceanic heat flux under sea ice in the Arctic ocean. Journal of Ocean University of China, 18(3): 605-614. Lin, Zhao Jinping-Estimation of Oceanic Heat Flux Under Sea Ice in the Arctic Ocean.pdf
06-Liu Yilin, Zhao Jinping, 2019.A correction algorithm for atmpspheric visibility based on fog droplet size data obtained on a moving ship during 2016 Arctic cruise. Journal of Ocean University of China, 18(3): 596-604.
07-Shu Qi,Wang Qiang,Su Jie,Li Xiang,Qiao Fangli,2019. Assessment of the Atlantic water layer in the Arctic Ocean in CMIP5 climate
models. Climate Dynamics, 53(9-10): 5279-5291. Shu et al-Assessment of the Atlantic water layers in the Arctic Ocean in CMIP5 climate models.pdf
08-Shao Qiuli, Zhao Jinping, Kenneth F. Drinkwater, Wang Xiaoyu, Cao Yong, 2019.Internal overflow in the Nordic Seas and cold reservoir in the Northern Norwegian Basin. Deep Sea Research, 148: 67-79. Shao et al-Internal overflow in the Nordic Seas and cold reservoir in the Northern Norwegian Basin.pdf
09-Zhao Jinping, Zhong Wenli, Diao Yina,Cao Yong, 2019. The rapidly changing Arctic and its impact on global climate, Journal of Ocean University of China, 18(3): 537-541, DOI 10.1007/s11802-019-3890-x. Zhao et al-The rapidly changing Arctic and its impact on global climate.pdf
10-马靖凯, 陶树豪,杜凌, 史荒原, 2019. 北极太平洋扇区海冰融冻期的年代际变化. 气候变化研究快报, 8(3): 302-311. 马靖凯等-北极太平洋扇区海冰融冻期的年代际变化.pdf
11-王松, 苏洁,2019.北极偶极子型大气环流对北极海冰影响的数值模拟研究,气候变化研究快报, 8(4): 503-515. DOI: 10.12677/ccrl.2019.84055. 王松,苏洁-北极偶极子型大气环流对北极海冰影响的数值模拟研究.pdf
12-赵进平, 曹勇,2019.北极巨变, 全球惊梦. 科技纵览, 3: 72-73.(科普文章)
13-赵进平,刘一林,衣立,王晓宇,陈显尧,2019.用垂向光学辐照度测量数据计算雾能见度的方法和验证. 中国海洋大学学报(自然科学版),49(5):1-10.赵进平等-用垂向光学辐照度测量数据计算雾能见度的方法和验证.pdf
14-Liu Fukai, Lu Jian, Huang Yi, Ruby Leung, Bryce Harrop, Luo Yiyong, 2019.Sensitivity of surface temperature to oceanic forcing via q-Flux Green’s function experiments. Part III: asymmetric response to warming and cooling, Journal of Climate. Liu et al-Sensitivity of surface temperature to oceanic forcing via q-Flux Green’s function experiments.pdf
15-Guo G, Shi J, Gao L, Tamura T, Williams G. 2019. Reduced sea ice production due to upwelled oceanic heat flux in prydz bay, East Antarctica, Geophysical Research Letters, 46(9): 4782-4789. doi:10.1029/2018GL081463. Guo et al- Reduced sea ice production due to upwelled oceanic heat flux in prydz bay, East Antarctica.pdf
16-Newman L, ... Shi J, et al., 2019.Delivering sustained, coordinated, and integrated observations of the southern ocean for global impact. Frontiers in Marine Science, 6: 433. doi: 10.3389/fmars.2019.00433.Newman et al-Delivering sustained, coordinated, and integrated observations of the southern ocean for global impact.pdf
17-权陕媛,史久新, 2019.1980-2015年夏季南大洋亚南极锋和极地锋的长期变化研究.极地研究,31(03):231-245. 权陕媛,史久新-1980—2015年夏季南大洋亚南极锋和极地锋的长期变化研究.pdf
18-魏泽勋,....... 史久新,等. 2019.中国物理海洋学研究70年:发展历程、学术成就概览[J]. 海洋学报,41(10):23-64.doi:10.3969/j.issn.0253−4193.2019.10.003. 魏泽勋等-中国物理海洋学研究70年:发展历程、学术成就概览.pdf
19-Ruan R., Chen X., Zhao J., Perrie W.,Mottram R., Zhang M., et al., 2019. Decelerated greenland ice sheet melt driven by positive summer north Atlantic oscillation. Journal of Geophysical Research: Atmospheres, 124:7633–7646. Ruan et al-Decelerated greenland ice sheet melt driven by positive summer north Atlantic oscillation.pdf
20-Tung, K.-K., Chen X. Y., Zhou J. S.,K.-F. Li, 2019.Interdecadal variabiltiy in pan-Pacific and global SST, revisited, Climate Dynamics, 52:2145-2157.doi:10.1007/s00382-018 -4240-1. Tung-et al-Interdecadal variabiltiy in pan-Pacific and global SST, revisite.pdf
21-Fan tingting, Huang Fei, Zhou Xiao, 2019. Response of the dominant modes of atmospheric circulation in northern hemisphere to an abrupt Arctic sea ice loss in 2007. J. Ocean Univ. China (Oceanic and Coastal Sea Research),18 (3): 589-595. Fang et al-Response of the dominant modes of atmospheric circulation in northern hemisphere to an abrupt Arctic sea ice loss in 2007.pdf
22-Xing Wen, Huang Fei, 2019. Improving long-lead prediction of early summer subtropical front rainfall based on Arctic sea ice. J. Ocean Univ. China (Oceanic and Coastal Sea Research) ,18 (3): 542-552. Xing-Improving long-lead prediction of early summer subtropical front rainfall based on Arctic sea ice.pdf
23-Yi L, K.-F. Li, Chen X. Y., K.-K. Tung, 2019.Arctic fog detection using infrared spectral measurements.Journal of Atmospheric and Oceanic Technology, 36:1643-1656. Yi et al-Arctic fog detection using infrared spectral measurements.pdf
24-Zhu Zhihui, Huang Fei, Xie Xiao, 2019. Predictability of Chinese summer extreme rainfall based on Arctic sea ice and tropical SST. J. Ocean Univ. China (Oceanic and Coastal Sea Research), 18 (3): 626-632. Zhu et al-Predictability of Chinese summer extreme rainfall based on Arctic sea ice and tropical SST.pdf
25-黄菲,李金泽,许士斌,王宏,2019.东亚大槽冬春季节内演变的双模态时空特征,中国海洋大学学报(自然科学版), 49(10): 118-128. 黄菲等-东亚大槽冬春季节内演变的主模态时空特征.pdf
26-谭云霞,黄菲,许士斌,王宏,2019.中国极端干旱--空雨频率的主模态时空特征,中国海洋大学学报(自然科学版),49(2):14-20. 谭云霞等-中国极端干旱——空雨频率的主模态时空特征.pdf
27-王新,黄菲,王宏,2019.春季北极地区云量年际变化特征及其对北极放大反馈的作用,气候变化研究快报,8(4):373-382. 王新等-春季北极地区云量年际变化特征及其对北极放大反馈的作用.pdf
28-Chen Haihua, Tang Xiaotong, Li Lele, Guan Lei, 2019.Inter-calibration of passive microwave brightness temperature observed by FY-3B/MWRI and Aqua/AMSR-E on Arctic . IEEE International Geoscience and Remote Sensing Symposium (IGARSS),8928-8931. Chen-Inter-calibration of passive microwave brightness temperature observed by FY-3B/MWRI and Aqua/AMSR-E on Arctic.pdf
29-Li Lele, Chen Haihua, Wang Xiaoyu, Guan Lei, 2019.Study on the retrieval of sea ice concentration from FY3B/MWRI in the Arctic. IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 4242-4245. Li et al-Study on the retrieval of sea ice concentration from FY3B/MWRI in the Arctic.pdf
30-Li L, Chen H, Guan L, 2019. Retrieval of snow depth on sea ice in the Arctic using the FengYun-3B microwave radiation imager. Journal of Ocean University of China,18(3): 580-588 Li et al-Retrieval of Snow Depth on Sea Ice in the Arctic Using the FengYun-3B Microwave Radiation Imager.pdf
31-Zhang Chenlei , Ji Qing , Pang Xiaoping , Su Jie and Liu Chang, 2019. Comparison of passive microwave remote-sensing snow-depth products on Arctic sea ice. Polar Research,38:3432.
32-Liu Congcong, Zhang Zhenzhen, Feng Yanyan, Gu Qianqun, Li Dehai, Zhu Tianjiao,2019. Secondary metabolites from Antarctic marine-derived fungus penicillium crustosum HDN153086. Natural Product Research,33(3):414-419. Liu et al-Secondary metabolites from Antarctic marine-derived fungus penicillium crustosum HDN153086.pdf
33-Liu Q, Jiang Y, Wang Q, Wang M, McMinn A, Zhao Q, Xue C, Wang X, Dong J, Yu Y, Han Y, Zhao J, 2019. Using picoeukaryote communities to indicate the spatial heterogeneity of the Nordic seas. Ecological Indicators, 107: 105582. Liu-Using picoeukaryote communities to indicate the spatial heterogeneity of the Nordic seas.pdf
34-Yang Q, Gao C, Jiang Y, Wang M, Zhou X, Shao H, Gong Z, McMinn A, 2019. Metagenomic characterization of the viral community of the South Scotia Ridge, Viruses, 11(2):95 Yang et al-Metagenomic characterization of the viral community of the South Scotia Ridgepdf.pdf
35-Zhao F, Cao HY, Zhao LS, Zhang Y, Li CY, Zhang YZ, Li PY, Wang P, Chen XL. 2019.A novel subfamily of Endo-β-1,4-Glucanases in glycoside hydrolase family 10. Appl Environ Microbiol. 85(18). pii: e01029-19. Zhao-A novel subfamily of Endo-β-1,4-Glucanases in glycoside hydrolase family 10.pdf
36-Guo Peiqing, Editorial Advisory Board,Handbook of Research on International Collaboration, Economic Development, and Sustainability in the Arctic, Published in the United States of America by IGI Global Business Science Reference (an imprint of IGI Global), 2019.
37-白佳玉, 冯蔚蔚. 以深化新型大国关系为目标的中俄合作发展探究——从“冰上丝绸之路”到“蓝色伙伴关系” ;《太平洋学报》2019.4;2019年4月15日。白佳玉,冯蔚蔚-以深化新型大国关系为目标的中俄合作发展探究——从“冰上丝绸之路”到“蓝色伙伴关系”.pdf
38-白佳玉, 齐郁. 成本效益分析视角下中国参与北极合作的实证考察与政策阐析;《中国海洋大学学报(社会科学版)》2019.3;2019年5月10日。 白佳玉,齐郁-成本效益分析视角下中国参与北极合作的实证考察与政策阐析.pdf
39-郭培清, 付云清, 杨沛东. 新形势下俄罗斯北极军事态势分析及中国的应对;《太原理工大学学报(社会科学版)》2019.5;2019年10月25日。 郭培清等-新形势下俄罗斯北极军事态势分析及中国的应对.pdf
40-郭培清,申倩. 加拿大北极原住民自杀问题;《中国海洋大学学报(社会科学版)》2019.4;2019年7月10日。郭培清,申倩-加拿大北极原住民自杀问题.pdf
41-郭培清, 邹琪. “可持续发展”成为北极事务核心;《中国社会科学报》(版号004);2019年7月11日。
42-郭培清, 邹琪. 特朗普政府北极政策的调整;《国际论坛》2019.4;2019年7月10日。郭培清,邹琪-特朗普政府北极政策的调整.pdf
43-刘惠荣,郭红岩, 密晨曦, 潘敏, 潘婷. “南北极国际治理的新发展”专论;《中国海洋大学学报(社会科学版)》2019.6;2019年11月10日。刘惠荣等-“南北极国际治理的新发展”专论.pdf
44-马丹彤, 董跃. 图们江入海港口开发与建设的国际法依据及分析——基于北极东北航道通航的视角;《海洋开发与管理》2019.3;2019年3月28日。马丹彤,董跃-图们江入海港口开发与建设的国际法依据及分析——基于北极东北航道通航的视角.pdf
45-孙凯, 耿嘉晖. 美国政府对北极事务的安全化及其影响;《中国社会科学报》(版号005);2019年11月14日。
46-孙凯. 日本在北极事务中的“立体外交”及其启示;《东北师大学报(哲学社会科学版)》2019.4;2019年4月23日。孙凯-日本在北极事务中的“立体外交”及其启示.pdf