Hans von Storch Logo of Ocean University of China


English language version

Hans von Storch, 德国气候学家主要研究领域为气候、气候变化及其影响;发表了大量学术文章和论著,主要涉及自然科学,部分关于气候变化的认知、不同知识体系之间的差异以及科学、利益相关者和社会跨学科研究等社会科学问题。

截至目前,共出版27部专著 (详见:http://www.hvonstorch.de/klima/books.htm),其中两本有中文译本,撰写学术论文(含部分学术出版物中相关章节)240篇 (详见:http://www.hvonstorch.de/klima/pub.htm) 指数h-index, 学术水平指数61,其学术成果详见: http://www.hvonstorch.de/klima/

Hans von Storch直到2015年一直担任亥姆霍兹.盖斯特哈赫特中心-海岸带研究所所长(该研究所位于德国汉堡附近)、德国汉堡大学气象系教授,并于2013年6月起担任中国海洋大学客座教授。2023年其客座教授身份延长了3年。在某种程度上,他追随汉堡大学物理海洋学教授Jürgen Sündermann的脚步,Jürgen Sündermann 自 20 世纪 80 年代初以来,开创了汉堡海洋学界与中国海洋大学交流合作的先河,主要(但不仅限于)在中国海洋大学与其合作伙伴建立了稳定的联系,详见von Storch 和Li合作出版的书籍。


Ceremony at OUC on 23 June 2013
2013
Ceremony at OUC on 20 February 2024
2024

2015年,他走访了中国海洋大学环境科学和物理海洋学院,在那里他交流访问了两个月(三月和四月),并且围绕 "Advanced conceptual issues in climate and coastal science"主题开展了4次学术课程。

Hans von Storch教授经常访问中国,主要走访的高校和研究所除中国海洋大学外,还有中国科学院海洋研究所、中国科学院海岸带研究所、中国气象科学研究院、华东师范大学河口海岸带重点实验室以及中国科学院南海海洋研究所。早期的中方合作伙伴有青岛中国科学院海洋研究所 崔茂常 和中国科学院南京地理研究所刘健(详见下表)。




到目前为止, Hans von Storch 共指导了7名博士研究生,这些学生受中国国家基金委资助来德国交流学习,他们分别是:陈飞、夏兰、冯建龙 、李德磊、 张萌、 唐声全和林璘。2024年,基于这些往届学生的许多论文编写了一本选集,并将于2024年12月出版——希望这本书能在2024年10月中国海洋大学建校100周年的庆祝活动与大家见面。

Cover of anthology with reprints of many articles of PhD students

基于林璘发表的论文, Klaus Hasselmann选择林璘作为他的“诺贝尔奖获得者荣誉博士后”,在汉堡马克斯普朗克气象研究所工作三年。这使得林璘和Hans von Storch能够继续成功合作,了解海洋的内部变化(水动力噪声)。

Nobel laureate Klaus Hasselmann with his fellow Lin Lin, and Jinsong and Hans von Storch in 2024
Hans and Jinsong von Storch, Klaus Hasselmann and Lin Lin

与中国学者联合发表的学术论文:

  1. Ren, G. (任国玉), and H. von Storch, H., 2024: On frequently used terms related to climate change. Oxford Research Encyclopedia of Climate Science. doi: 10.1093/acrefore/9780190228620.013.957

  2. Lin, L.(林璘), H. von Storch, Chen X. (陈学恩), Jiang W. (江文胜), Tang S.(唐声全), 2023: Link between the internal variability and the baroclinic instability in the Bohai and Yellow Sea. Oc. Dyn, DOI 10.1007/s10236-023-01583-7/

  3. Lin L. (林璘), H. von Storch, and Chen X. (陈学恩), 2023: The Stochastic climate model helps reveal the role of memory in internal variability in the Bohai and Yellow Sea. Communications Earth & Environment, doi 10.1038/s43247-023-01018-7 (see also background information)

  4. Lin L. (林璘), H. von Storch, Guo D. (郭东琳), Tang S.(唐声全), Zheng P. (郑鹏), and Chen X. (陈学恩), 2022: The effect of tides on internal variability in the Bohai and Yellow Sea. Dynamics of Atmospheres and Oceans, 98, 101301, https://doi.org/10.1016/j.dynatmoce.2022.101301

  5. von Storch, H., B. Geyer, Li Y. (李琰), V. Matthias, and B. Rockel, 2021: Chinese lockdown as aerosol reduction experiment. Advances in Climate Change Research, 12, 677-685 https://doi.org/10.1016/j.accre.2021.03.003

  6. 唐声全(Tang, S. ), H. von Storch, and 陈学恩 (Chen X), 2020: Atmospherically forced regional ocean simulations of the South China Sea: Scale-dependency of the signal-to-noise ratio. J. Phys. Oceano. 50, DOI 10.1175/JPO-D-19-0144.1 133-144

  7. 李琰 (Li Y), H. von Storch, 王庆元(Wang Q), and 周庆亮 (Zhou Q.), 2019: Testing the validity of regional detail in global analyses of sea surface temperature —the case of Chinese coastal waters. Ocean Sci.; 15, 1455–1467, https://doi.org/10.5194/os-15-1455-2019

  8. 唐声全 (Tang S.), H. von Storch, 陈学恩 (Chen X.), and 张萌 (Zhang M.), 2019: “Noise” in climatologically driven ocean models with different grid resolution. Oceanologia 61, 300-307. doi 10.1016/j.oceano.2019.01.001 (open access)

  9. von Storch, H., 陈学恩 (Chen X), B.Pfau-Effinger, D. Bray and A. Ullmann, 2019: Attitudes of young scholars in Qingdao and Hamburg about climate change and climate policy – the role of culture for the explanation of differences. Advances in Climate Change Research, online: 10.1016/j.accre.2019.04.001

  10. 张萌 (Zhang M.), H. von Storch, 王东晓 (Wang D.), 陈学恩 (Chen X.), and 李德磊 (Li D.), 2019: Statistics of travelling eddy variability in the South China Sea, 1950-2010. Ocean Dyn. 69: 879-898. online: https://doi.org/10.1007/s10236-019-01282-2 (open access)

  11. von Storch, H., L. Cavicchia, F. Feser, and 李德磊 (Li D), 2018: The concept of large-scale conditioning of climate model simulations of atmospheric coastal dynamics: current state and perspectives. Atmosphere 9, 337; doi:10.3390/atmos9090337

  12. 李琰 (Li Y.), B. Tinz, H. von Storch, 王庆元 (Wang Q.Y.), and 周庆亮 (Zhou Q.L.), 2018: Construction of surface air temperature series of Qingdao in China for the period 1899 to 2014. Earth Systen Science Data, 10, 643-652 (https://doi.org/10.5194/essd-10-643-2018)

  13. 马双梅(Ma, S.), T. Zhou, D. Stone, D. Polson, A. Dai, P. Stott, H. von Storch, Y. Qian, C. Burke, P. Wu, L. Zou, and A. Ciavarella, 2017: Detectable anthropogenic shift toward heavy precipitation over eastern China. J. Climate 30, 1381-1396 doi 10.1175/JCLI-D-16-0311.1

  14. von Storch, H., F. Feser, B. Geyer, K. Klehmet, 李德磊 (Li D.), B. Rockel, M. Schubert-Frisius, N. Tim, and E. Zorita, 2017: Regional re-analysis without local data - exploiting the downscaling paradigm. J. Geophys. Res. - Atmospheres 122, 8631–8649, DOI:10.1002/2016JD026332, early online

  15. 张萌 (Zhang M.), and H. von Storch, 2017: Towards downscaling oceanic hydrodynamics - Suitability of a high-resolution OGCM for describing regional ocean variability in the South China Sea. Oceanologia 59, 166-176, DOI 10.1016/j.oceano.2017.01.001

  16. 李德磊 (Li D.), H. von Storch, 尹宝树(Yin B.), 徐振华 (Xu Z.), 齐继峰 (Qi J.) 魏伟 (Wei W.), and 郭东琳 (Guo D.), 2018: Low-level jets over the Bohai Sea and Yellow Sea: climatology, variability and the relationship with regional atmospheric circulations. J. Geophys. Res. - Atmosphere, 123, 5240-5260(https://doi.org/10.1029/2017JD027949)

  17. 李琰 (Li Y.), 王国松 (Wang G.), 范文静 (Fan W.), B. Tinz and H. von Storch, 冯建龙 (Feng J.L.), 2018: 中国沿海海表温度均一性检验和订正 (The homogeneity study of the sea surface temperature data along the coast of the China Seas). Acta Oceanologica Sinica/Haiyang Xuebao 40(1):17—28, doi:10.3969/j.issn.0253-4193.2018.01.003

  18. 冯建龙 (Feng J.), H. von Storch, 江文胜 (Jiang W.) and R. Weisse, 2016: Assessing changes in extreme sea levels along the coast of China. Journal of Geophysical Research - Oceans, Oceans, 120, 8039–8051, doi:10.1002/2015JC011336

  19. 李德磊 (Li D.), B. Geyer, and H. von Storch, 2016: Testing reanalyses in constraining dynamical downscaling. J. Meteor. Soc. Japan 94A, 47-68 doi:10.2151/jmsj.2015-044

  20. 李德磊 (Li D.), H. von Storch, and B. Geyer, 2016: High resolution wind hindcast over the Bohai and Yellow Sea in East Asia: evaluation and wind climatology analysis; Journal of Geophysical Research - Atmospheres 12, 111-129

  21. 夏兰 (Xia L.), H. von Storch, F. Feser, and 吴涧 (Wu J.), 2016: A Study of quasi-millennial extratropical winter cyclone activity over the Southern Hemisphere. Climate Dynamics 47(7), 2121-2138; DOI 10.1007/s00382-015-2954-x

  22. 冯建龙 (Feng J.), H. von Storch, R. Weisse, and 江文胜 (Jiang W.), 2015: Changes of storm surges in the Bohai Sea derived from a numerical model simulation, 1961-2006. Ocean Dynamics 66(10), 1301-1315 DOI 10.1007/s10236-016-0986-3 online

  23. von Storch, H., 江文胜 (Jiang W.), and K K. Furmancyk, 2014: Storm Surge Case Studies. In J. Ellis and D. Sherman (eds): Coastal and Marine Natural Hazards and Disasters, Elsevier Treatise in Hazards and Disasters

  24. 陈飞 (Chen F.), H. von Storch, 杜岩 (Du Y.), and 曾丽丽 (Wu L.L.), 2014: Polar Low genesis over North Pacific under different scenarios of Global Warming, Clim. Dyn. DOI 10.1007/s00382-014-2117-5

  25. 陈飞 (Chen F.), and H. von Storch, 2013 : Trends and variability of North Pacific Polar Lows, Advances in Meteorology 2013, ID 170387, 11 pages, http://dx.doi.org/10.1155/2013/170387

  26. 夏兰 (Xia L.), H. von Storch, and F. Feser, 2013: Quasi-stationarity of centennial Northern Hemisphere midlatitude winter storm tracks, Climate Dynamics, DOI 10.1007/s00382-012-1543-5

  27. 陈飞 (Chen F.), B. Geyer, M. Zahn and H. von Storch, 2012: Towards a multidecadal climatology of North Pacific Polar Lows employing dynamical downscaling. Terrestrial, Atmospheric and Oceanic Sciences, 23, 291-303

  28. 夏兰 (Xia L.), M. Zahn, K. I. Hodges, F. Feser and H. von Storch, 2012: A comparison of two identification and tracking methods for polar lows. Tellus A 64, 17196, DOI:10.3402/tellusa.v64i0.17196

  29. 刘健 (Liu J.), H. von Storch, E. Zorita, 陈学恩 (Chen X.) and 文胜 (Wang S.), 2005: Simulated and Reconstructed Temperature in China since 1550 AD, History of Meteorology 2, 87-104

  30. 刘健(Liu J.), H. von Storch, 陈学恩 (Chen X), E. Zorita, Zheng J., and 文胜 (Wang S.), 2005: Simulated and reconstructed temperature in the eastern China during the last millennium. Chinese Science Bulletin 50(24): 2872-2877
    also 千年气候模拟与中国东部温度重建序列的比较研究, Chinese Science Bulletin (20):2251-2255

  31. 崔茂常 (Cui M.), H. von Storch and E. Zorita, 1996: 沿海水位大尺度气候状态-降尺度技术在日本列岛的应用, Studia Marina Sinica 36, 13-32
    also in 1995: Coastal sea level and the large-scale climate state: A downscaling exercise for the Japanese Islands, Tellus 47 A, 132-144

发表的学术书籍有: